diff src/aci2/alr/alr_test/alr_cases.cpp @ 3:93999a60b835

src/aci2, src/condat2: import of g23m/condat source pieces from TCS211
author Mychaela Falconia <falcon@freecalypso.org>
date Mon, 26 Sep 2016 00:29:36 +0000
parents
children
line wrap: on
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--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/src/aci2/alr/alr_test/alr_cases.cpp	Mon Sep 26 00:29:36 2016 +0000
@@ -0,0 +1,10892 @@
+/*
+  +------------------------------------------------------------------------------
+  |  File:       alr_cases.cpp
+  +------------------------------------------------------------------------------
+  |              Copyright 2003 Texas Instruments
+  |              All rights reserved.
+  |
+  |              This file is confidential and a trade secret of Texas Instruments.
+  |              The receipt of or possession of this file does not convey
+  |              any rights to reproduce or disclose its contents or to
+  |              manufacture, use, or sell anything it may describe, in
+  |              whole, or in part, without the specific written consent of
+  |              Texas Instruments.
+  +------------------------------------------------------------------------------
+  | Purpose:     Contains test cases for alr
+  |
+  +------------------------------------------------------------------------------
+*/
+#include "alr_constraints.h"
+#include "alr_steps.h"
+/*------------------------------------------------------------------------------
+ *                      TC STATUS
+ *  Fail                 Reason                               Issue
+ *----------------------------------------------------------------------------*/
+
+/*------------------------ handling instructions ---------------------------------
+ * It is not necessary to generate the CCDINC and TDCINC files as well the
+ * TDCLIB libraries twice for GSM or GPRS, because the makcdg tool does not make
+ * a distinction between them. But you have to create both version of the stacks
+ * (e.g. G23_SMI_GPRS.exe and MS_TI_FD.exe) which need the matching ccddata.lib
+ * (e.g. \gpf\PROJECT\gprs\lib\nucwin\ccddata.lib and
+ * \gpf\PROJECT\gsm\lib\nucwin\ccddata.lib).
+ *
+ * To create the GSM and GPRS related files you have to do
+ * - set prost=gsm (or call \gpf\initvars gsm MS D: \g23m\condat %programfiles%)
+ * - create CCDINC, TDCINC, TDCLIB, \gpf\bin\ccddata_dll.dll and
+ *   \gpf\PROJECT\gsm\lib\nucwin\ccddata.lib with makcdg
+ * - build GSM stack with
+ *   msdev %TESTROOT%\int\msdev\gsm.dsw /MAKE "MS_TI_FD - Win32 Debug"
+ *
+ * - set prost=gprs
+ * - create \gpf\PROJECT\gprs\lib\nucwin\ccddata.lib with makcdg
+ * - build GPRS stack with
+ *   msdev %TESTROOT%\int\msdev\gprs.dsw /MAKE "G23_SMI_GPRS - Win32 Debug"
+ * - build all GSM and GPRS test cases with
+ *   msdev %TESTROOT%\ms\src\alr\alr_test.dsw /MAKE "alr_test - Win32 Debug"
+ *------------------------------------------------------------------------------*/
+/*------------------------ GLOBAL OPTIONS-----------------------------------------
+ * The following options are global options of the entity which affect most
+ * testcases. Most of the time they are identical to the respective feature flags
+ * Each testcase which depends on one of these options, should implement
+ * a loop which tests all relevant combinations of options, ie:
+ *  a ncell testcase should depend on the GPRS,STD and EOTD. And should be run
+ *  for each possible combination
+ *  a test for NON_DRX should only depend on GPRS....
+ */
+typedef enum {
+  //GO_EOTD_ON,
+  //GO_EOTD_OFF,
+  //GO_GPRS_ON,
+  //GO_GPRS_OFF,
+  //GO_STD,
+  GO_EOTD_ON_GPRS_OFF,
+  GO_EOTD_OFF_GPRS_OFF,
+  GO_EOTD_OFF_GPRS_ON,
+  GO_EOTD_ON_GPRS_ON
+} T_E_GLOBAL_OPTIONS;
+
+#if defined(GPRS)
+#define TRAP_FOR_DEACT U8 failed=0; \
+    tdc_usi_trace ("pre-amble: TC compiled for GPRS stack");\
+    TRAP
+#else // GPRS
+#define TRAP_FOR_DEACT U8 failed=0; \
+    tdc_usi_trace ("pre-amble: TC compiled for GSM only stack");\
+    TRAP
+#endif  // GPRS
+#define HANDLE_DEACT ONFAIL {failed =1;}\
+    tdc_usi_trace ("post-amble: TC %s", failed?"FAILED":"PASSED");\
+    COMMAND("PL REDIRECT CLEAR");\
+    SEND (mph_deactivate_req());\
+    COMMAND ("PL MEMORY");/*check mem leaks*/\
+    COMMAND ("PL CONFIG STD=0");/*to force reread of PCM*/\
+    if (failed) {\
+      /*COMMAND("TAP TIMEOUT 200");*/\
+      /*this will always fail!*/\
+      AWAIT  ( mph_deactivate_req()  );\
+    }
+
+/*------------------------Following is for ALR002-------------------------------
+ *
+ * Description:	RR starts a cell selection. No suitable channel is available.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR002()
+{
+  BEGIN_CASE ("initiation_by_rr_no_channels_available_alr002")
+  {
+    TRAP_FOR_DEACT {
+      COMMAND("TAP RESET");
+      COMMAND("PL RESET");
+      filter_and_routings_gsm_900__alr000();
+
+      SEND  ( mph_power_req_1()           );
+      AWAIT ( mphc_init_l1_req_1()        );
+      SEND  ( mphc_init_l1_con_1()        );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2) );
+      AWAIT ( mph_power_cnf_2()           );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR003-------------------------------
+ *
+ * Description:	The FB/SB search mode switch between wideband and narrowband
+ *
+ *               CASE 1 : Initial Cell Selection - Wideband Mode
+ *               CASE 2 : After the 1st Sync     - Narrowband Mode
+ *               CASE 3 : After 6 Sync failure   - Wideband Mode
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR003()
+{
+  BEGIN_CASE ("initiation_by_rr_no_channels_available_alr002")
+  {
+    TRAP_FOR_DEACT {
+    initiation_by_rr_4_channels_available_alr001();
+
+    /* Search Mode Checking for Wide Band */
+
+    SEND  ( mph_bsic_req(ARFCN_23_STD_900)  );
+    AWAIT ( mphc_network_sync_req(ARFCN_23, SM_WIDE_MODE) );
+    SEND  ( mphc_network_sync_ind_1()       );
+    AWAIT ( mph_bsic_cnf_1()                );
+    AWAIT ( mphc_new_scell_req_1()          );
+    SEND  ( mphc_new_scell_con_1()          );
+    AWAIT ( mphc_scell_nbcch_req_full()     );
+
+    generating_six_sync_failures();
+
+    /* After the SIX SYNC Failures */
+
+    SEND  ( mph_bsic_req(ARFCN_1_STD_900)  );
+    AWAIT ( mphc_network_sync_req(ARFCN_1, SM_WIDE_MODE));
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+/*------------------------Following is for ALR03A-------------------------------
+ *
+ * Description:	Wideband switching while getting RADIO LINK Failure
+ *               CASE 4 : After Radio Link failure   - Wideband Mode
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR003A()
+{
+  BEGIN_CASE ("find_bcch_carrier_all_channels_failed_then_error_indication_alr005")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      rr_select_second_channel_alr012('A');
+
+      SEND  ( mph_random_access_req_1()        );
+      AWAIT ( mphc_stop_rxlev_periodic_req()   );
+      AWAIT ( mphc_stop_scell_bcch_req()       );
+      AWAIT ( mphc_scell_nbcch_req_full()      );
+      AWAIT ( mphc_ra_req_1()                  );
+      SEND  ( mphc_ra_con_1()                  );
+      AWAIT ( mph_random_access_cnf_1()        );
+      AWAIT ( mphc_ra_req_2()                  );
+      SEND  ( mphc_data_ind_36()               );
+      AWAIT ( mph_unitdata_ind_15()            );
+      SEND  ( mph_dedicated_req_3()            );
+      AWAIT ( mphc_stop_scell_bcch_req()       );
+      AWAIT ( mphc_stop_ccch_req()             );
+      AWAIT ( mphc_stop_ra_req_1()             );
+      AWAIT ( mphc_immed_assign_req_2()        );
+      SEND  ( mphc_immed_assign_con_1()        );
+      AWAIT ( mph_dedicated_cnf_1(DEDI_RES_OK) );
+      SEND  ( mph_freq_redef_req_1()           );
+      AWAIT ( mphc_change_frequency_1()        );
+      SEND  ( mph_dedicated_req_4()            );
+      AWAIT ( mphc_channel_assign_req_1()      );
+      SEND  ( mphc_channel_assign_con_1()      );
+      AWAIT ( mph_dedicated_cnf_1(DEDI_RES_OK) );
+      SEND  ( mph_dedicated_fail_req_1()       );
+      AWAIT ( mphc_channel_assign_req_2()      );
+      SEND  ( mphc_channel_assign_con_1()      );
+      AWAIT ( mph_dedicated_fail_cnf_1()       );
+      SEND  ( mphc_data_ind_37()               );
+      AWAIT ( mph_unitdata_ind_16()            );
+      SEND  ( mphc_data_ind_38()               );
+      AWAIT ( mph_unitdata_ind_17()            );
+      SEND  ( mphc_data_ind_39()               );
+      AWAIT ( mph_unitdata_ind_18()            );
+      SEND  ( mphc_data_ind_40()               );
+      AWAIT ( ph_data_ind_1()                  );
+      SEND  ( mphc_data_ind_37()               );
+      SEND  ( mphc_data_ind_41()               );
+      AWAIT ( mph_unitdata_ind_19()            );
+
+      /*
+       * Sending Invalid Block on SACCH to decrement the counter act_rlt
+       * Intially the counter will be 22 the "Radio Link Failure" will be trigged
+       * once the counter reaches 0
+       */
+
+      sending_error_data_in_sacch();
+
+      /*
+       *  RR receives the "Radio Link Failure"
+       */
+
+      AWAIT (mph_error_ind_radio_link_fail()   );
+
+      SEND  (mph_bsic_req(ARFCN_1_STD_900)     );
+      AWAIT (mphc_stop_rxlev_periodic_req()    );
+      AWAIT (mphc_stop_dedicated_req());
+
+      AWAIT (mphc_network_sync_req(ARFCN_1, SM_WIDE_MODE));
+
+      MUTE(500);
+
+
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR03B-------------------------------
+ *
+ * Description:	Wideband switching after Down Link Error
+ *            CASE 5 : After receiving Downlink Error   - Wideband Mode
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR003B()
+{
+  BEGIN_CASE ("Switching between Narrow to wideband band in case of downlink failure")
+  {
+    TRAP_FOR_DEACT {
+
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      SEND  ( mphc_data_ind_11()               );
+      AWAIT ( mphc_start_ccch_req_8()          );
+      AWAIT ( mphc_scell_nbcch_req_periodic()  );
+      SEND  ( mphc_data_ind_11()               );
+      SEND  ( mphc_data_ind_11()               );
+
+      /* Sending Invalid Block to generate Downlink Error */
+
+      SEND  ( mphc_data_ind_19()               );
+      SEND  ( mphc_data_ind_19()               );
+      SEND  ( mphc_data_ind_19()               );
+
+      /* Down Link Error Received in RR */
+
+      AWAIT ( mph_error_ind_2()                );
+
+      SEND  ( mph_random_access_req_1()        );
+      SEND  (mph_bsic_req(ARFCN_1_STD_900)     );
+      AWAIT (mphc_stop_rxlev_periodic_req()    );
+      AWAIT ( mphc_stop_scell_bcch_req()       );
+      SEND  (mph_bsic_req(ARFCN_1_STD_900)     );
+      AWAIT (mphc_start_ccch_req_14()          );
+      AWAIT ( mphc_scell_nbcch_req_full()      );
+      AWAIT ( mphc_ra_req_1()                  );
+      SEND  ( mphc_ra_con_1()                  );
+      AWAIT ( mph_random_access_cnf_1()        );
+      AWAIT ( mphc_ra_req_2()                  );
+      SEND  ( mphc_data_ind_36()               );
+      AWAIT ( mph_unitdata_ind_15()            );
+      SEND  ( mph_dedicated_req_3()            );
+      AWAIT ( mphc_stop_scell_bcch_req()       );
+      AWAIT ( mphc_stop_ccch_req()             );
+      AWAIT ( mphc_stop_ra_req_1()             );
+      AWAIT ( mphc_immed_assign_req_2()        );
+      SEND  ( mphc_immed_assign_con_1()        );
+      AWAIT ( mph_dedicated_cnf_1(DEDI_RES_OK) );
+
+      SEND  (mph_bsic_req(ARFCN_14_STD_900)    );
+      AWAIT (mphc_stop_rxlev_periodic_req()    );
+      AWAIT (mphc_stop_dedicated_req()         );
+
+      AWAIT (mphc_network_sync_req(ARFCN_14, SM_WIDE_MODE));
+
+      MUTE(500);
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+/*------------------------Following is for ALR03C-------------------------------
+ *
+ * Description:	Wideband switching after BCCH Error
+ *            CASE 6 : After receiving some BCCH Error   - Wideband Mode
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR003C()
+{
+  BEGIN_CASE ("Switching between wideband to Narrow band in case of after some BCCH ERROR")
+  {
+    TRAP_FOR_DEACT {
+
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+
+      /* Sending Invalid BCCH block to decrement the bcch fail count to reach 0 */
+
+      SEND  ( mphc_data_ind_5()         );
+      AWAIT ( mph_error_ind_1()         );
+      SEND  ( mphc_data_ind_5()         );
+      AWAIT ( mph_error_ind_1()         );
+      SEND  ( mphc_data_ind_5()         );
+      AWAIT ( mph_error_ind_1()         );
+      SEND  ( mphc_data_ind_5()         );
+      AWAIT ( mph_error_ind_1()         );
+
+      SEND  ( mphc_data_ind_5()         );
+      AWAIT ( mph_error_ind_1()         );
+      SEND  ( mphc_data_ind_5()         );
+      AWAIT ( mph_error_ind_1()         );
+      SEND  ( mphc_data_ind_5()         );
+      AWAIT ( mph_error_ind_1()         );
+      SEND  ( mphc_data_ind_5()         );
+      AWAIT ( mph_error_ind_1()         );
+
+      SEND  (mph_bsic_req(ARFCN_24_STD_900));
+
+      AWAIT ( mphc_stop_scell_bcch_req());
+      AWAIT (mphc_network_sync_req(ARFCN_24, SM_WIDE_MODE));
+
+      MUTE(500);
+
+    } HANDLE_DEACT;
+  }
+}
+/*------------------------Following is for ALR005-------------------------------
+ *
+ * Description:	All synchronization attempts to the available channels are failed.
+ * RR is informed by an error indication with the cause no BCCH available.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR005()
+{
+  BEGIN_CASE ("find_bcch_carrier_all_channels_failed_then_error_indication_alr005")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+
+      SEND  ( mphc_network_sync_ind_failed(ARFCN_14)  );
+      AWAIT ( mph_bsic_cnf_failed(ARFCN_14_STD_900)   );
+      SEND  ( mph_bsic_req(ARFCN_124_STD_900)         );
+      AWAIT ( mphc_network_sync_req(ARFCN_124, SM_WIDE_MODE)        );
+      SEND  ( mphc_network_sync_ind_failed(ARFCN_124) );
+      AWAIT ( mph_bsic_cnf_failed(ARFCN_124_STD_900)  );
+      SEND  ( mph_bsic_req(ARFCN_1_STD_900)           );
+      AWAIT ( mphc_network_sync_req(ARFCN_1, SM_WIDE_MODE)          );
+      SEND  ( mphc_network_sync_ind_failed(ARFCN_1)   );
+      AWAIT ( mph_bsic_cnf_failed(ARFCN_1_STD_900)    );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR008-------------------------------
+ *
+ * Description:	A failed BCCH data block is read.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR008()
+{
+  BEGIN_CASE ("read_failed_bcch_data_alr008")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+
+      SEND  ( mphc_data_ind_5() );
+      AWAIT ( mph_error_ind_1() );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR011-------------------------------
+ *
+ * Description:	RR rejects the BCCH carrier. No further channel is available.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR011()
+{
+  BEGIN_CASE ("rr_rejects_bcch_carrier_no_further_channel_available_alr011")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      rr_rejects_bcch_carrier_try_third_channel_alr009();
+      rr_rejects_bcch_carrier_try_fourth_channel_alr010();
+
+      SEND ( mph_bsic_req(NOT_PRESENT_16BIT) );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR012-------------------------------
+ *
+ * Description:	RR selects the channel 14 after reading the BCCH carrier.
+ * Variant B: with empty neighbour cell list
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR012B()
+{
+  BEGIN_CASE ("rr_select_second_channel_alr012b")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      rr_select_second_channel_alr012('B');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR012-------------------------------
+ *
+ * Description:	RR selects the channel 14 after reading the BCCH carrier.
+ * Variant C: with neighbourcell list, but non-combined CCCH
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR012C()
+{
+  BEGIN_CASE ("rr_select_second_channel_alr012c")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      rr_select_second_channel_alr012('C');
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR015-------------------------------
+ *
+ * Description:	RR has started a cell selection. During power measurements a new
+ *              activation of cell selection is started by RR.
+ *              The power measurement is restarted.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR015()
+{
+  BEGIN_CASE ("re_initiation_of_cell_selection_during_measurements_alr015")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+
+      SEND  ( mph_power_req_1()           );
+      AWAIT ( mphc_init_l1_req_1()        );
+      SEND  ( mphc_init_l1_con_1()        );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_1) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mph_power_req_1()           );
+      AWAIT ( mphc_stop_rxlev_req()       );
+      AWAIT ( mphc_init_l1_req_1()        );
+      SEND  ( mphc_init_l1_con_1()        );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_1) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_1) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_1) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_1) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_1) );
+      AWAIT ( mph_power_cnf_3()           );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR017-------------------------------
+ *
+ * Description:	During BCCH reading RR restarts a cell selection.
+ *              This leads to a new full power measurement cycle.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR017()
+{
+  BEGIN_CASE ("re_initiation_of_cell_selection_during_bcch_reading_alr017")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+
+      SEND  ( mph_sync_req(CS_STOP_BCCH_READING)             );
+      AWAIT ( mphc_stop_scell_bcch_req() );
+      SEND  ( mph_power_req_1()            );
+      AWAIT ( mphc_init_l1_req_1()         );
+      SEND  ( mphc_init_l1_con_1()         );
+      AWAIT ( mphc_rxlev_req()           );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_1)           );
+      AWAIT ( mphc_rxlev_req()           );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_1)           );
+      AWAIT ( mphc_rxlev_req()           );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_1)           );
+      AWAIT ( mphc_rxlev_req()           );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_1)           );
+      AWAIT ( mphc_rxlev_req()           );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_1)           );
+      AWAIT ( mph_power_cnf_3()            );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR018-------------------------------
+ *
+ * Description:	A failed BCCH data block is read.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR018()
+{
+  BEGIN_CASE ("alr008_engineering_mode_alr018")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+
+      COMMAND("PL REDIRECT MMI TAP");
+      SEND  ( em_l1_event_req_1()  );
+      SEND  ( mphc_data_ind_5()    );
+      AWAIT ( em_data_ind_1()      );
+      AWAIT ( mph_error_ind_1()    );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR019-------------------------------
+ *
+ * Description:	A request is made to sync to a network. There is a timeout when
+ *              no response is received by ALR.
+ *              After informing RR that there is no BCCH, RR instructs ALR to
+ *              check the next BCCH. This again, fails.
+ *              This ensures the timer is correctly set up for
+ *              subsequent BCCH search's.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR019()
+{
+  BEGIN_CASE ("search_for_bcch_carrier_takes_too_long_alr019")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+
+      SEND  ( mph_bsic_req(ARFCN_23_STD_900)               );
+      AWAIT ( mphc_network_sync_req(ARFCN_23, SM_WIDE_MODE)      );
+      AWAIT ( mphc_stop_network_sync_req_1() );
+      SEND  ( mphc_stop_network_sync_con_1() );
+      AWAIT ( mph_bsic_cnf_9()               );
+      SEND  ( mph_bsic_req(ARFCN_24_STD_900)               );
+      AWAIT ( mphc_network_sync_req(ARFCN_24, SM_WIDE_MODE)      );
+      AWAIT ( mphc_stop_network_sync_req_1() );
+      SEND  ( mphc_stop_network_sync_con_1() );
+      AWAIT ( mph_bsic_cnf_9()               );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR019A------------------------------
+ *
+ * Description:	A request is made to sync to a network. There is a timeout when
+ *              no response is received by ALR. But L1 sends a SYNC_IND at the
+ *              same time as the STOP_NETWORK_SYNC_REQ is sent. In this case
+ *              L1 does not send a confirmation for the stop request and the
+ *              MS should use the SYNC_IND for the two states CS_STOP_SYNC
+ *              and CS_NW_SYNC_TIMEOUT in the same manner as for the normal
+ *              state CS_ACTIVE_SYNC.
+ *----------------------------------------------------------------------------*/
+
+T_CASE ALR019A()
+{
+  BEGIN_CASE ("ALR019A: Search for BCCH carrier takes too long, crossed STOP_NETWORK_REQ and SYNC_IND")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+
+      SEND  ( mph_bsic_req(ARFCN_23_STD_900)               );
+      AWAIT ( mphc_network_sync_req(ARFCN_23, SM_WIDE_MODE)      );
+      AWAIT ( mphc_stop_network_sync_req_1() );
+      /* crossed STOP_NETWORK_REQ and SYNC_IND, no stop confirmation */
+      SEND  ( mphc_network_sync_ind_1()       );
+      AWAIT ( mph_bsic_cnf_1()                );
+      AWAIT ( mphc_new_scell_req_1()          );
+      SEND  ( mphc_new_scell_con_1()          );
+      AWAIT ( mphc_scell_nbcch_req_full()     );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR022-------------------------------
+ *
+ * Description:	The idle mode is configured with Paging Reorganisation. After
+ *              reception of a new paging mode this information is forwarded to PL.
+ *              The message contain the following page modi:
+ * Variant A: Extended Paging
+ * No reaction is expected.
+ *-------------------------------------------------------------------------------*/
+
+
+/*------------------------Following is for ALR022-------------------------------
+ *
+ * Description:	The idle mode is configured with Paging Reorganisation. After
+ *              reception of a new paging mode this information is forwarded to PL.
+ *              The message contain the following page modi:
+ * Variant A: Extended Paging
+ * No reaction is expected.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR022A()
+{
+  BEGIN_CASE ("page_mode_change_paging_reorganisation_alr022a")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      initiation_with_paging_reorganisation_alr020('A');
+      page_mode_change_paging_reorganisation_alr022('A');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR022-------------------------------
+ *
+ * Description:	The idle mode is configured with Paging Reorganisation. After
+ *              reception of a new paging mode this information is forwarded to PL.
+ *              The message contain the following page modi:
+ * Variant B: Paging Reorganisation
+ * No reaction is expected.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR022B()
+{
+  BEGIN_CASE ("page_mode_change_paging_reorganisation_alr022b")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      initiation_with_paging_reorganisation_alr020('A');
+      page_mode_change_paging_reorganisation_alr022('B');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR022-------------------------------
+ *
+ * Description:	The idle mode is configured with Paging Reorganisation. After
+ *              reception of a new paging mode this information is forwarded to PL.
+ *              The message contain the following page modi:
+ * Variant C: Same as before
+ * No reaction is expected.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR022C()
+{
+  BEGIN_CASE ("page_mode_change_paging_reorganisation_alr022c")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      initiation_with_paging_reorganisation_alr020('A');
+      page_mode_change_paging_reorganisation_alr022('C');
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR023-------------------------------
+ *
+ * Description:	The idle mode is configured with Normal Paging. After reception of
+ *              the new paging mode Extended Paging this information is forwarded
+ *              to the lower layer. The new paging mode is configured for layer 1.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR023()
+{
+  BEGIN_CASE ("page_mode_change_normal_paging_to_extended_paging_alr023")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      initiation_with_paging_reorganisation_alr020('B');
+      page_mode_change_back_to_normal_paging_alr025();
+
+      SEND  ( mphc_data_ind_9()               );
+      AWAIT ( mphc_start_ccch_req_4()         );
+      AWAIT ( mphc_scell_nbcch_req_periodic() );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR023 A-------------------------------
+ *
+ * Description:	1. MS is camped ON the Scell.
+ *              2. Page Mode REorg
+ *              3. SI 1, SI 2, SI 3 recevied
+ *              4. Page Mode Normal Paging
+ *              5. TEST CHECKS if we continue reading all SI messages, but revert to reading
+ *                  page blocks corresponding to normal page mode.
+ *              6. SI 4 received
+ *              7. Entire SI set received. TEST CHECKS if L1 is configured to read periodic SI's.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR023A()
+{
+  BEGIN_CASE ("page_mode_change_reorg_to_normal_with_SI4_not_read_alr023A")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      initiation_with_paging_reorganisation_alr020('B');
+      page_mode_change_back_to_normal_paging_alr025();
+
+      /*
+       * page Mode Reorg
+       */
+      SEND ( mphc_data_ind_8('B')            );
+      AWAIT ( mphc_start_ccch_req_3('B')     );
+      AWAIT ( mphc_scell_nbcch_req_full()    );
+
+
+      /*
+       * SI 1, SI 2, and SI3
+       */
+      SEND  ( mphc_data_ind_1()              );
+      SEND  ( mphc_data_ind_2()              );
+      SEND  ( mphc_data_ind_3()              );
+
+      /*
+       * Normal page mode
+       */
+      SEND  ( mphc_data_ind_11()             );
+      AWAIT ( mphc_start_ccch_req_6()        );
+      AWAIT ( mphc_scell_nbcch_req_full()    );
+
+      /*
+       * SI4
+       */
+      SEND  ( mphc_data_ind_4()              );
+      AWAIT ( mphc_scell_nbcch_req_periodic());
+    } HANDLE_DEACT;
+  }
+}
+
+
+/*------------------------Following is for ALR023 B-------------------------------
+ *
+ * Description:	1. MS is camped ON the Scell.
+ *              2. Page Mode REorg
+ *              3. SI 1, SI 2, SI 4 recevied
+ *              4. Page Mode Normal Paging
+ *              5. TEST CHECKS if we continue reading all SI messages, but revert to reading
+ *                  page blocks corresponding to normal page mode.
+ *              6. SI 3 received
+ *              7. Entire SI set received. TEST CHECKS if L1 is configured to read periodic SI's.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR023B()
+{
+  BEGIN_CASE ("page_mode_change_reorg_to_normal_with_SI3_not_read_alr023B")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      initiation_with_paging_reorganisation_alr020('B');
+      page_mode_change_back_to_normal_paging_alr025();
+
+       /*
+       * page Mode Reorg
+       */
+      SEND ( mphc_data_ind_8('B')            );
+      AWAIT ( mphc_start_ccch_req_3('B')     );
+      AWAIT ( mphc_scell_nbcch_req_full()    );
+
+      /*
+       * SI 1, SI 2, and SI4
+       */
+      SEND  ( mphc_data_ind_1()              );
+      SEND  ( mphc_data_ind_2()              );
+      SEND  ( mphc_data_ind_4()              );
+
+      /*
+       * Normal page mode
+       */
+      SEND  ( mphc_data_ind_11()             );
+      AWAIT ( mphc_start_ccch_req_6()        );
+      AWAIT ( mphc_scell_nbcch_req_full()    );
+
+       /*
+       * SI3
+       */
+      SEND  ( mphc_data_ind_3()              );
+      AWAIT ( mphc_scell_nbcch_req_periodic());
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR023 C-------------------------------
+ *
+ * Description:	1. MS is camped ON the Scell.
+ *              2. Page Mode REorg
+ *              3. SI 1, SI 2, SI 4 recevied
+ *              4. Page Mode = Extended Page
+ *              5. TEST CHECKS if we continue reading all SI messages, but revert to reading
+ *                  page blocks corresponding to Extended page mode.
+ *              6. SI 3 received
+ *              7. Entire SI set received. TEST CHECKS if L1 is configured to read periodic SI's.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR023C()
+{
+  BEGIN_CASE ("page_mode_change_reorg_to_extended_with_SI3_not_read_alr023C")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      initiation_with_paging_reorganisation_alr020('B');
+      page_mode_change_back_to_normal_paging_alr025();
+
+      /*
+       * page Mode Reorg
+       */
+       SEND ( mphc_data_ind_8('B')            );
+      AWAIT ( mphc_start_ccch_req_3('B')     );
+      AWAIT ( mphc_scell_nbcch_req_full()    );
+
+      /*
+       * SI 1, SI 2, and SI4
+       */
+      SEND  ( mphc_data_ind_1()              );
+      SEND  ( mphc_data_ind_2()              );
+      SEND  ( mphc_data_ind_4()              );
+
+      /*
+       * Extended page mode
+       */
+      SEND  ( mphc_data_ind_9()              );
+      AWAIT ( mphc_start_ccch_req_4()        );
+      AWAIT ( mphc_scell_nbcch_req_full()    );
+
+      /*
+       * SI3
+       */
+      SEND  ( mphc_data_ind_3()              );
+      AWAIT ( mphc_scell_nbcch_req_periodic());
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR024-------------------------------
+ *
+ * Description:	The idle mode is configured with Normal Paging. After reception
+ *              of the new paging mode Paging Reorganisation this information is
+ *              forwarded to PL. The new paging mode is configured for layer 1.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR024()
+{
+  BEGIN_CASE ("page_mode_change_normal_paging_to_paging_reorganisation_alr024")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      initiation_with_paging_reorganisation_alr020('B');
+      page_mode_change_back_to_normal_paging_alr025();
+
+      SEND  ( mphc_data_ind_10()             );
+      AWAIT ( mphc_start_ccch_req_6_reorg()  );
+      AWAIT ( mphc_scell_nbcch_req_full()    );
+     } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR026-------------------------------
+ *
+ * Description:	The idle mode is configured with Normal Paging. The messages
+ *              contain the following page modi:
+ * Variant A: Normal Paging
+ * No reaction is exspected.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR026A()
+{
+  BEGIN_CASE ("page_mode_change_normal_paging_alr026a")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      initiation_with_paging_reorganisation_alr020('B');
+      page_mode_change_back_to_normal_paging_alr025();
+      page_mode_change_normal_paging_alr026('A');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR026-------------------------------
+ *
+ * Description:	The idle mode is configured with Normal Paging. The messages
+ *              contain the following page modi:
+ * Variant B: Same as before.
+ * No reaction is exspected.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR026B()
+{
+  BEGIN_CASE ("page_mode_change_normal_paging_alr026b")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      initiation_with_paging_reorganisation_alr020('B');
+      page_mode_change_back_to_normal_paging_alr025();
+      page_mode_change_normal_paging_alr026('B');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR027-------------------------------
+ *
+ * Description:	The idle mode has been configured for normal paging.
+ *              After a swap to Extended Paging this mode is configured a second time.
+ *              Layer 1 does not need to be configured the second time, because
+ *              it´s a continues process in ALR(MPHC).
+ * Variant A: Extended Paging
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR027A()
+{
+  BEGIN_CASE ("page_mode_change_extended_paging_a_second_time_alr027a")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      initiation_with_paging_reorganisation_alr020('B');
+      page_mode_change_back_to_normal_paging_alr025();
+      page_mode_change_extended_paging_a_second_time_alr027('A');
+    } HANDLE_DEACT;
+  }
+}
+/*------------------------Following is for ALR027-------------------------------
+ *
+ * Description:	The idle mode has been configured for normal paging.
+ *              After a swap to Extended Paging this mode is configured a second time.
+ *              Layer 1 does not need to be configured the second time, because
+ *              it´s a continues process in ALR(MPHC).
+ * Variant B: Same as before
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR027B()
+{
+  BEGIN_CASE ("page_mode_change_extended_paging_a_second_time_alr027b")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      initiation_with_paging_reorganisation_alr020('B');
+      page_mode_change_back_to_normal_paging_alr025();
+      page_mode_change_extended_paging_a_second_time_alr027('B');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR028-------------------------------
+ *
+ * Description:	The idle mode has been configured for normal paging. After a swap
+ *              to extended paging paging reorganisation is configured.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR028()
+{
+  BEGIN_CASE ("page_mode_change_extended_paging_to_paging_reorganisation_alr028")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      initiation_with_paging_reorganisation_alr020('B');
+      page_mode_change_back_to_normal_paging_alr025();
+      SEND  ( mphc_data_ind_9()               );
+      AWAIT ( mphc_start_ccch_req_4()         );
+      AWAIT ( mphc_scell_nbcch_req_periodic() );
+      SEND  ( mphc_data_ind_10()              );
+      AWAIT ( mphc_start_ccch_req_4_reorg()   );
+      AWAIT ( mphc_scell_nbcch_req_full()        );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR029-------------------------------
+ *
+ * Description:	The idle mode has been configured for normal paging. After
+ *              reception of the new paging mode normal paging this mode
+ *              is configured.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR029()
+{
+  BEGIN_CASE ("page_mode_change_extended_paging_to_normal_paging_alr029")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      initiation_with_paging_reorganisation_alr020('B');
+      page_mode_change_back_to_normal_paging_alr025();
+
+      SEND  ( mphc_data_ind_9()               );
+      AWAIT ( mphc_start_ccch_req_4()         );
+      AWAIT ( mphc_scell_nbcch_req_periodic() );
+      SEND  ( mphc_data_ind_11()              );
+      AWAIT ( mphc_start_ccch_req_6()         );
+      AWAIT ( mphc_scell_nbcch_req_periodic() );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR031-------------------------------
+ *
+ * Description:	Measurement reporting for the serving cell is tested. The multiframe
+ *              period is set to two multiframes. It is exspected that the
+ *              initial report to RR is send after eleven reports of layer 1
+ *              and successive reports are send to RR after ten reports.
+ *              The number of TDMA frames between measurement reports to RR is
+ *              102 TDMA frames which is equal to two multiframes.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR031()
+{
+  BEGIN_CASE ("measurement_reporting_bs_pa_mfrms_2_alr031")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      measurement_reporting_configuration_alr030('A');
+
+      meas_rep_bs_pa_mfrms_2();
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR032-------------------------------
+ *
+ * Description:	Measurement reporting for the serving cell is tested. The multiframe
+ *              period is set to three multiframes. It is exspected that the initial
+ *              report to RR is send after eight reports of layer 1 and successive
+ *              reports are send to RR after seven reports. The number of TDMA frames
+ *              between measurement reports to RR is 153 TDMA frames which is equal to
+ *              three multiframes.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR032()
+{
+  BEGIN_CASE ("measurement_reporting_bs_pa_mfrms_3_alr032")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      measurement_reporting_configuration_alr030('B');
+
+      meas_rep_bs_pa_mfrms_3();
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR033-------------------------------
+ *
+ * Description:	Measurement reporting for the serving cell is tested. The multiframe
+ *              period is set to four multiframes. It is exspected that the initial
+ *              report to RR is send after six reports of layer 1 and successive
+ *              reports are send to RR after five reports. The number of TDMA frames
+ *              between measurement reports to RR is 204 TDMA frames which is
+ *              equal to four multiframes.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR033()
+{
+  BEGIN_CASE ("measurement_reporting_bs_pa_mfrms_4_alr033")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      measurement_reporting_configuration_alr030('C');
+
+      meas_rep_bs_pa_mfrms_4();
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR035-------------------------------
+ *
+ * Description:	Measurement reporting for the serving cell is tested. The multiframe
+ *              period is set to six multiframes. It is exspected that the initial
+ *              report to RR is send after five reports of layer 1 and successive
+ *              reports are send to RR after three reports. The number of TDMA frames
+ *              between measurement reports to RR is 306 TDMA frames which is equal
+ *              to six multiframes.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR035()
+{
+  BEGIN_CASE ("measurement_reporting_bs_pa_mfrms_6_alr035")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      measurement_reporting_configuration_alr030('E');
+
+      meas_rep_bs_pa_mfrms_6();
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR037-------------------------------
+ *
+ * Description:	Measurement reporting for the serving cell is tested. The multiframe
+ *              period is set to eight multiframes. It is exspected that the initial
+ *              report to RR is send after five reports of layer 1 and successive
+ *              reports are send to RR after two reports. The number of TDMA frames
+ *              between measurement reports to RR is 408 TDMA frames which is equal to
+ *              eight multiframes.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR037()
+{
+  BEGIN_CASE ("measurement_reporting_bs_pa_mfrms_8_alr037")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      measurement_reporting_configuration_alr030('G');
+
+      meas_rep_bs_pa_mfrms_8();
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR039-------------------------------
+ *
+ * Description:	For a multiframe period of five multiframes it is expected that
+ *              all 25 reports from layer 1 reading of BCCH information is started.
+ *              Nine reports are received in the preamble. All four reports a
+ *              measurement report is send to RR.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR039()
+{
+  BEGIN_CASE ("bcch_reading_bs_pa_mfrms_5_alr039")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      measurement_reporting_configuration_alr030('D');
+      meas_rep_bs_pa_mfrms_5();
+
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_6()     );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_6()     );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_6()     );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_6()     );
+      SEND  ( mphc_data_ind_1()           );
+      SEND  ( mphc_data_ind_2()           );
+      SEND  ( mphc_data_ind_14()          );
+      SEND  ( mphc_data_ind_4()           );
+      SEND  ( mphc_data_ind_15()          );
+      SEND  ( mphc_data_ind_16()          );
+      SEND  ( mphc_data_ind_17()          );
+      SEND  ( mphc_data_ind_18()          );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR040-------------------------------
+ *
+ * Description:	Measurement reporting for the serving cell is tested. The multiframe
+ *              period is set to seven multiframes. It is exspected that the initial
+ *              report to RR is send after five reports of layer 1 and successive
+ *              reports are send to RR after three reports. The number of TDMA frames
+ *              between measurement reports to RR is 357 TDMA frames which is equal to
+ *              seven multiframes.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR040()
+{
+  BEGIN_CASE ("bcch_reading_bs_pa_mfrms_7_alr040")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      measurement_reporting_configuration_alr030('F');
+
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_3()     );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_9()     );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_9()     );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_9()     );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_9()     );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_data_ind_1()           );
+      SEND  ( mphc_data_ind_2()           );
+      SEND  ( mphc_data_ind_14()          );
+      SEND  ( mphc_data_ind_4()           );
+      SEND  ( mphc_data_ind_15()          );
+      SEND  ( mphc_data_ind_16()          );
+      SEND  ( mphc_data_ind_17()          );
+      SEND  ( mphc_data_ind_18()          );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR041-------------------------------
+ *
+ * Description:	Measurement reporting for the serving cell is tested. The multiframe
+ *              period is set to nine multiframes. It is exspected that the initial
+ *              report to RR is send after five reports of layer 1 and successive
+ *              reports are send to RR after two reports. The number of TDMA frames
+ *              between measurement reports to RR is 459 TDMA frames which is equal
+ *              to nine multiframes.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR041()
+{
+  BEGIN_CASE ("bcch_reading_bs_pa_mfrms_9_alr041")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      measurement_reporting_configuration_alr030('H');
+
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_7()     );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_12()    );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_12()    );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_12()    );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_12()    );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_data_ind_1()           );
+      SEND  ( mphc_data_ind_2()           );
+      SEND  ( mphc_data_ind_14()          );
+      SEND  ( mphc_data_ind_4()           );
+      SEND  ( mphc_data_ind_15()          );
+      SEND  ( mphc_data_ind_16()          );
+      SEND  ( mphc_data_ind_17()          );
+      SEND  ( mphc_data_ind_18()          );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR042-------------------------------
+ *
+ * Description:	The downlink timeout value is initialised with a value of 10
+ *              (bs_pa_mfrms equal to 9). For each invalid paging message the
+ *              counter is decremented by four. After three invalid
+ *              messages a downlink error shall be indicated to RR.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR042()
+{
+  BEGIN_CASE ("receive_invalid_paging_messages_alr042")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+
+      SEND  ( mphc_data_ind_19()   );
+      SEND  ( mphc_data_ind_19()   );
+      SEND  ( mphc_data_ind_19()   );
+      AWAIT ( mph_error_ind_2()    );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR043-------------------------------
+ *
+ * Description:	The downlink timeout value is initialised with a value of 10
+ *              (bs_pa_mfrms equal to 9). For each invalid paging message the
+ *              counter is decremented by four. For each valid paging
+ *              message the counter is incremented by one. It is checked that the
+ *              counter is not incremented more than the initial value.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR043()
+{
+  BEGIN_CASE ("test_upper_limit_of_downlink_timeout_value_alr043")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      SEND  ( mphc_data_ind_11()              );
+      AWAIT ( mphc_start_ccch_req_8()         );
+      AWAIT ( mphc_scell_nbcch_req_periodic() );
+      SEND  ( mphc_data_ind_11()              );
+      SEND  ( mphc_data_ind_11()              );
+      SEND  ( mphc_data_ind_19()              );
+      SEND  ( mphc_data_ind_19()              );
+      SEND  ( mphc_data_ind_19()              );
+      AWAIT ( mph_error_ind_2()               );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR044-------------------------------
+ *
+ * Description:	The idle mode is stopped if a normal cell selection is initiated.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR044()
+{
+  BEGIN_CASE ("stop_idle_mode_by_normal_cell_selection_alr044")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+
+      SEND  ( mph_power_req_1()              );
+      AWAIT ( mphc_stop_scell_bcch_req()     );
+      AWAIT ( mphc_stop_ccch_req()           );
+      AWAIT ( mphc_stop_rxlev_periodic_req() );
+      AWAIT ( mphc_stop_scell_bcch_req()     );
+      AWAIT ( mphc_init_l1_req_1()           );
+      SEND  ( mphc_init_l1_con_1()           );
+      AWAIT ( mphc_rxlev_req()               );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR046-------------------------------
+ *
+ * Description:	RR selects the channel 23 after reading the BCCH carrier.
+ * Variant B: with neighbourcell list (serving cell included)
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR046B()
+{
+  BEGIN_CASE ("definition_of_bcch_allocation_alr046b")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      definition_of_bcch_allocation_alr046('B');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR046-------------------------------
+ *
+ * Description:	RR selects the channel 23 after reading the BCCH carrier.
+ * Variant C: with empty neighbour cell list.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR046C()
+{
+  BEGIN_CASE ("definition_of_bcch_allocation_alr046c")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      definition_of_bcch_allocation_alr046('C');
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR048-------------------------------
+ *
+ * Description:	The BA list contains the serving cell 23 and
+ *              the neighbour cells 1, 14 and 124.
+ *              The fieldstrength is 56 for channel 23, 12 for channel 1,
+ *              44 for channel 14 and 25 for channel 124 (all values in GSM range).
+ *              The ranking for the neighbour cells is 14, 124 and at least channel 1.
+ *              Each reports contains two fieldstrength values per channel.
+ *              The multiframe period is set to 6. The first measurement report
+ *              is send to RR after five reports from PL. Then after each
+ *              three reports from PL a measurement report is send to RR.
+ *              Synchronisation to channel 14 fails.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR048()
+{
+  BEGIN_CASE ("synchronisation_to_neighbour_cells_failed_alr048")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      definition_of_bcch_allocation_alr046('A');
+
+      sync_to_ncell_14_fails_once();
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR053-------------------------------
+ *
+ * Description: ALR requests successive reading of BCCH for all neighbour cells.
+ *              This failed for channel 14.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR053()
+{
+  BEGIN_CASE ("reading_of_neighbour_cell_bcch_failed_alr053")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      definition_of_bcch_allocation_alr046('A');
+
+      ncell_bcch_read_fails_for_ncell_14();
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR057-------------------------------
+ *
+ * Description:	An immediate assignment reject for the mobile station is received.
+ *              Sending of channel request bursts is stopped. The mobile station
+ *              listens to the downlink CCCH. Thereafter an immediate assignment
+ *              message is received.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR057()
+{
+  BEGIN_CASE ("immediate_assignment_reject_for_the_mobile_station_alr057")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      start_of_sending_channel_request_messages_gsm_900__alr055();
+      SEND  ( mphc_data_ind_21()           );
+      AWAIT ( mph_unitdata_ind_11()        );
+      SEND  ( mph_random_access_req_2()    );
+      AWAIT ( mphc_stop_ra_req_1()         );
+      SEND  ( mphc_data_ind_22()           );
+      AWAIT ( mph_unitdata_ind_11()        );
+      SEND  ( mph_dedicated_req_1()        );
+      AWAIT ( mphc_stop_scell_bcch_req() );
+      AWAIT ( mphc_stop_ccch_req()       );
+      AWAIT ( mphc_immed_assign_req_1()    );
+      SEND  ( mphc_immed_assign_con_1()    );
+      AWAIT ( mph_dedicated_cnf_1(DEDI_RES_OK) );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR058-------------------------------
+ *
+ * Description:	After timeout of T3126 the mobile station goes back to idle mode.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR058()
+{
+  BEGIN_CASE ("t3126_expiry_back_to_idle_mode_alr058")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      start_of_sending_channel_request_messages_gsm_900__alr055();
+
+      SEND  ( mphc_ra_con_1()           );
+      AWAIT ( mph_random_access_cnf_1() );
+      SEND  ( mph_idle_req_6()          );
+      AWAIT ( mphc_stop_ra_req_1()      );
+      AWAIT ( mphc_start_ccch_req_10()  );
+      AWAIT ( mphc_scell_nbcch_req_full()  );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR061-------------------------------
+ *
+ * Description:	The BA list contains the serving cell 23 and the
+ *              neighbour cells 1, 14 and 124.
+ *              The fieldstrength is 56 for channel 23, 12 for channel 1,
+ *              44 for channel 14 and 25 for channel 124 (all values in GSM range).
+ *              The ranking for the neighbour cells is 14, 124 and channel 1.
+ *              Each reports contains two fieldstrength values per channel.
+ *              The multiframe period is set to 6. The first measurement report
+ *              is send to RR after five reports from PL. Then after each three
+ *              reports from PL a measurement report is send to RR. The NCC permitted
+ *              check for neighbour cell 124 fails. The cell shall be excluded
+ *              from further attempts.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR061()
+{
+  BEGIN_CASE ("ncell_synch_ncc_permitted_check_alr061")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      definition_of_bcch_allocation_alr046('D');
+
+      ncell_sync_ncc_permitted_check();
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR064-------------------------------
+ *
+ * Description:	During the extended measurement procedure the BSIC of
+ *              a carrier is successfully obtained.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR064()
+{
+  BEGIN_CASE ("extended_measurement_reporting_successful_end_alr064")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      measurement_reporting_configuration_alr030('H');
+      extended_measurement_reporting_start_procedure_alr062();
+      extended_measurement_reporting_successful_power_measurement_alr063();
+
+      SEND  ( mphc_ncell_sync_ind_8()           );
+      AWAIT ( mph_bsic_cnf_10()                 );
+      SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH) );
+
+      continue_page_mode_reorg_after_hplnm_search_procedure('A');
+
+      AWAIT ( mph_sync_ind_1()                  );
+    } HANDLE_DEACT;
+  }
+}
+
+
+/*------------------------Following is for ALR065-------------------------------
+ *
+ * Description:	The extended measurement procedure is stopped during the
+ *              power maesurement.
+ *--------------------------------------------------------------------------------*/
+
+T_CASE ALR065()
+{
+  BEGIN_CASE ("extended_measurement_reporting_premature_end_during_power_measurement_alr065")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      measurement_reporting_configuration_alr030('H');
+      extended_measurement_reporting_start_procedure_alr062();
+
+      SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH));
+      AWAIT ( mphc_stop_rxlev_req());
+
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_7)) ;
+      AWAIT ( mph_sync_ind_1());
+      SEND  ( mphc_stop_rxlev_con()) ;
+    } HANDLE_DEACT;
+  }
+
+}
+
+/*------------------------Following is for ALR066-------------------------------
+ *
+ * Description:	The extended measurement procedure is stopped during the
+ *              power maesurement.
+ *--------------------------------------------------------------------------------*/
+
+T_CASE ALR066()
+{
+  BEGIN_CASE ("extended_measurement_reporting_premature_end_during_power_measurement_alr066")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      measurement_reporting_configuration_alr030('H');
+      extended_measurement_reporting_start_procedure_alr062();
+
+      SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH));
+      AWAIT ( mphc_stop_rxlev_req());
+
+      SEND  ( mphc_stop_rxlev_con()) ;
+      AWAIT ( mph_sync_ind_1());
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR067-------------------------------
+ *
+ * Description:	The extended measurement procedure is stopped during the
+ *              carrier synchronosation attempt.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR067()
+{
+  BEGIN_CASE ("extended_measurement_reporting_premature_end_during_bsic_scan_alr067")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      measurement_reporting_configuration_alr030('H');
+      extended_measurement_reporting_start_procedure_alr062();
+      extended_measurement_reporting_successful_power_measurement_alr063();
+
+      SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH));
+
+      continue_page_mode_reorg_after_hplnm_search_procedure('A');
+
+      AWAIT ( mphc_stop_ncell_sync_req(CONST_1023));
+
+      SEND  ( mphc_ncell_sync_ind_8());
+      AWAIT ( mph_sync_ind_1());
+
+      SEND  ( mphc_stop_ncell_sync_con()) ;
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR068-------------------------------
+ *
+ * Description:	The extended measurement procedure is stopped during the
+ *              carrier synchronosation attempt.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR068()
+{
+  BEGIN_CASE ("extended_measurement_reporting_premature_end_during_bsic_scan_alr068")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      measurement_reporting_configuration_alr030('H');
+      extended_measurement_reporting_start_procedure_alr062();
+      extended_measurement_reporting_successful_power_measurement_alr063();
+
+      SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH));
+
+      continue_page_mode_reorg_after_hplnm_search_procedure('A');
+
+      AWAIT ( mphc_stop_ncell_sync_req(CONST_1023));
+
+      SEND  ( mphc_stop_ncell_sync_con()) ;
+      AWAIT ( mph_sync_ind_1());
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR069-------------------------------
+ *
+ * Description:	The extended measurement procedure is stopped
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR069()
+{
+  BEGIN_CASE ("extended_measurement_reporting_premature_end")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      measurement_reporting_configuration_alr030('H');
+      extended_measurement_reporting_start_procedure_alr062();
+
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_7)             );
+      AWAIT ( mphc_rxlev_req()     );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_7)             );
+      AWAIT ( mphc_rxlev_req()     );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_7)             );
+      AWAIT ( mphc_rxlev_req()     );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_7)             );
+      AWAIT ( mphc_rxlev_req()     );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_7)             );
+      AWAIT ( mph_ext_meas_cnf_1()                    );
+
+      SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH));
+      AWAIT ( mph_sync_ind_1());
+    } HANDLE_DEACT;
+  }
+}
+/*------------------------Following is for ALR070-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives an empty paging message.
+ *              The message content is not forwarded to RR.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR070()
+{
+  BEGIN_CASE ("paging_req_1_empty_paging_message_alr070")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+
+      SEND  ( mphc_data_ind_23()   );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR071-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual IMSI or TMSI. A paging indication is forwarded to RR.
+ * Variant A: IMSI mobile identity 1, any channel needed
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR071A()
+{
+  BEGIN_CASE ("paging_req_1_imsi_tmsi_for_ms_alr071a")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_1_imsi_tmsi_for_ms_alr071('A');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR071-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual IMSI or TMSI. A paging indication is forwarded to RR.
+ * Variant B: IMSI mobile identity 2, any channel needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR071B()
+{
+  BEGIN_CASE ("paging_req_1_imsi_tmsi_for_ms_alr071b")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_1_imsi_tmsi_for_ms_alr071('B');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR071-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual IMSI or TMSI. A paging indication is forwarded to RR.
+ * Variant C: TMSI mobile identity 1, TCH/F channel needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR071C()
+{
+  BEGIN_CASE ("paging_req_1_imsi_tmsi_for_ms_alr071c")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_1_imsi_tmsi_for_ms_alr071('C');
+    } HANDLE_DEACT;
+  }
+}
+/*------------------------Following is for ALR071-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual IMSI or TMSI. A paging indication is forwarded to RR.
+ * Variant D: TMSI mobile identity 2, TCH/F channel needed
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR071D()
+{
+  BEGIN_CASE ("paging_req_1_imsi_tmsi_for_ms_alr071d")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_1_imsi_tmsi_for_ms_alr071('D');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR071-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual IMSI or TMSI. A paging indication is forwarded to RR.
+ * Variant E: IMSI mobile identity 1, SDCCH channel needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR071E()
+{
+  BEGIN_CASE ("paging_req_1_imsi_tmsi_for_ms_alr071e")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_1_imsi_tmsi_for_ms_alr071('E');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR071-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual IMSI or TMSI. A paging indication is forwarded to RR.
+ * Variant F: IMSI mobile identity 2, SDCCH channel needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR071F()
+{
+  BEGIN_CASE ("paging_req_1_imsi_tmsi_for_ms_alr071f")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_1_imsi_tmsi_for_ms_alr071('F');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR071-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual IMSI or TMSI. A paging indication is forwarded to RR.
+ * Variant G: TMSI mobile identity 1, Dual Rate channel needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR071G()
+{
+  BEGIN_CASE ("paging_req_1_imsi_tmsi_for_ms_alr071g")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_1_imsi_tmsi_for_ms_alr071('G');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR071-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual IMSI or TMSI. A paging indication is forwarded to RR.
+ * Variant H: TMSI mobile identity 2, Dual Rate channel needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR071H()
+{
+  BEGIN_CASE ("paging_req_1_imsi_tmsi_for_ms_alr071h")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_1_imsi_tmsi_for_ms_alr071('H');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR071-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual IMSI or TMSI. A paging indication is forwarded to RR.
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR071I()
+{
+  BEGIN_CASE ("paging_req_1_imsi_tmsi_for_ms_alr071i")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      SEND  ( mphc_data_ind_24('I')        );
+      #ifdef GPRS
+      AWAIT ( mph_paging_ind_1('I')        );
+      #else // GPRS
+        AWAIT ( mph_paging_ind_1('A')        );
+      #endif // GPRS
+    } HANDLE_DEACT;
+  }
+}
+
+T_CASE ALR072A()
+{
+  BEGIN_CASE ("paging_req_1_not_for_ms_alr072a")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_1_not_for_ms_alr072('A');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR072-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives paging request type 1 messages.
+ *              The message content is not forwarded to RR, because the message
+ *              content doesn´t match to the MS identities.
+ * Variant B: wrong TMSI mobile identity 1
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR072B()
+{
+  BEGIN_CASE ("paging_req_1_not_for_ms_alr072b")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_1_not_for_ms_alr072('B');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR072-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives paging request type 1 messages.
+ *              The message content is not forwarded to RR, because the message
+ *              content doesn´t match to the MS identities.
+ * Variant C: wrong IMSI mobile identity 2
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR072C()
+{
+  BEGIN_CASE ("paging_req_1_not_for_ms_alr072c")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_1_not_for_ms_alr072('C');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR072-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives paging request type 1 messages.
+ *              The message content is not forwarded to RR, because the message
+ *              content doesn´t match to the MS identities.
+ * Variant D: wrong TMSI mobile identity 2
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR072D()
+{
+  BEGIN_CASE ("paging_req_1_not_for_ms_alr072d")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_1_not_for_ms_alr072('D');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR072-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives paging request type 1 messages.
+ *              The message content is not forwarded to RR, because the message
+ *              content doesn´t match to the MS identities.
+ * Variant E: wrong type mobile identity 2
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR072E()
+{
+  BEGIN_CASE ("paging_req_1_not_for_ms_alr072e")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_1_not_for_ms_alr072('E');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR073-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding to the
+ *              actual IMSI or TMSI. A paging indication is forwarded to RR.
+ *              The IMSI is less than 15 digits and the TMSI has only one valid byte,
+ *              but is signalled in different ways by the infrastructure
+ * Variant A: Short TMSI mobile identity 1, any channel needed, 1 byte length from the network
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR073A()
+{
+  BEGIN_CASE ("paging_req_1_short_imsi_tmsi_for_ms_alr073a")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_1_short_imsi_tmsi_for_ms_alr073('A');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR073-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding to the
+ *              actual IMSI or TMSI. A paging indication is forwarded to RR.
+ *              The IMSI is less than 15 digits and the TMSI has only one valid byte,
+ *              but is signalled in different ways by the infrastructure
+ * Variant B: Short TMSI mobile identity 2, TCH/F needed, 3 bytes length from the network
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR073B()
+{
+  BEGIN_CASE ("paging_req_1_short_imsi_tmsi_for_ms_alr073b")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_1_short_imsi_tmsi_for_ms_alr073('B');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR073-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding to the
+ *              actual IMSI or TMSI. A paging indication is forwarded to RR.
+ *              The IMSI is less than 15 digits and the TMSI has only one valid byte,
+ *              but is signalled in different ways by the infrastructure
+ * Variant C: Short IMSI mobile identity 1, SDCCH needed, 10 digits
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR073C()
+{
+  BEGIN_CASE ("paging_req_1_short_imsi_tmsi_for_ms_alr073c")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_1_short_imsi_tmsi_for_ms_alr073('C');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR073-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding to the
+ *              actual IMSI or TMSI. A paging indication is forwarded to RR.
+ *              The IMSI is less than 15 digits and the TMSI has only one valid byte,
+ *              but is signalled in different ways by the infrastructure
+ * Variant D: Short IMSI mobile identity 2, Dual Rate needed, 10 digits
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR073D()
+{
+  BEGIN_CASE ("paging_req_1_short_imsi_tmsi_for_ms_alr073d")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_1_short_imsi_tmsi_for_ms_alr073('D');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR073-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding to the
+ *              actual IMSI or TMSI. A paging indication is forwarded to RR.
+ *              The IMSI is less than 15 digits and the TMSI has only one valid byte,
+ *              but is signalled in different ways by the infrastructure
+ * Variant E: Short TMSI mobile identity 1, any channel needed, 2 bytes length from the network
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR073E()
+{
+  BEGIN_CASE ("paging_req_1_short_imsi_tmsi_for_ms_alr073e")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_1_short_imsi_tmsi_for_ms_alr073('E');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR073-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding to the
+ *              actual IMSI or TMSI. A paging indication is forwarded to RR.
+ *              The IMSI is less than 15 digits and the TMSI has only one valid byte,
+ *              but is signalled in different ways by the infrastructure
+ * Variant F: Short TMSI mobile identity 2, TCH/F needed, 4 bytes length from the network
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR073F()
+{
+  BEGIN_CASE ("paging_req_1_short_imsi_tmsi_for_ms_alr073f")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_1_short_imsi_tmsi_for_ms_alr073('F');
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR074-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives an empty paging message.
+ *              The message content is not forwarded to RR.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR074()
+{
+  BEGIN_CASE ("paging_req_2_empty_paging_message_alr074")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      SEND  (mphc_data_ind_27()    );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR075-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 or 2.
+ *              A paging indication is forwarded to RR.
+ * Variant A: TMSI mobile identity 1, any channel needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR075A()
+{
+  BEGIN_CASE ("paging_req_2_tmsi_for_ms_mobile_identity_1_or_2__alr075a")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_tmsi_for_ms_mobile_identity_1_or_2__alr075('A');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR075-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 or 2.
+ *              A paging indication is forwarded to RR.
+ * Variant B: TMSI mobile identity 1, SDCCH needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR075B()
+{
+  BEGIN_CASE ("paging_req_2_tmsi_for_ms_mobile_identity_1_or_2__alr075b")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_tmsi_for_ms_mobile_identity_1_or_2__alr075('B');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR075-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 or 2.
+ *              A paging indication is forwarded to RR.
+ * Variant C: TMSI mobile identity 1, TCH/F needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR075C()
+{
+  BEGIN_CASE ("paging_req_2_tmsi_for_ms_mobile_identity_1_or_2__alr075c")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_tmsi_for_ms_mobile_identity_1_or_2__alr075('C');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR075-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 or 2.
+ *              A paging indication is forwarded to RR.
+ * Variant D: TMSI mobile identity 1, Dual Rate needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR075D()
+{
+  BEGIN_CASE ("paging_req_2_tmsi_for_ms_mobile_identity_1_or_2__alr075d")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_tmsi_for_ms_mobile_identity_1_or_2__alr075('D');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR075-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 or 2.
+ *              A paging indication is forwarded to RR.
+ * Variant E: TMSI mobile identity 2, any channel needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR075E()
+{
+  BEGIN_CASE ("paging_req_2_tmsi_for_ms_mobile_identity_1_or_2__alr075e")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_tmsi_for_ms_mobile_identity_1_or_2__alr075('E');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR075-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 or 2.
+ *              A paging indication is forwarded to RR.
+ * Variant F: TMSI mobile identity 2, SDCCH needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR075F()
+{
+  BEGIN_CASE ("paging_req_2_tmsi_for_ms_mobile_identity_1_or_2__alr075f")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_tmsi_for_ms_mobile_identity_1_or_2__alr075('F');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR075-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 or 2.
+ *              A paging indication is forwarded to RR.
+ * Variant G: TMSI mobile identity 2, TCH/F needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR075G()
+{
+  BEGIN_CASE ("paging_req_2_tmsi_for_ms_mobile_identity_1_or_2__alr075g")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_tmsi_for_ms_mobile_identity_1_or_2__alr075('G');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR075-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 or 2.
+ *              A paging indication is forwarded to RR.
+ * Variant H: TMSI mobile identity 2, Dual Rate needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR075H()
+{
+  BEGIN_CASE ("paging_req_2_tmsi_for_ms_mobile_identity_1_or_2__alr075h")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_tmsi_for_ms_mobile_identity_1_or_2__alr075('H');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR076-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives paging request type 2 messages.
+ *              The message content is not forwarded to RR,
+ *              because the message content doesn´t match to the MS identities.
+ ---------------------------------------------------------------------------------*/
+T_CASE ALR076()
+{
+  BEGIN_CASE ("paging_req_2_not_for_ms_alr076")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+
+      SEND  ( mphc_data_ind_29()   );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR077-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging request type 2 message
+ *              corresponding to the actual IMSI or TMSI in information element in
+ *              the information element mobile identity 3. A paging indication is
+ *              forwarded to RR.
+ * Variant A: IMSI mobile identity 3, any channel needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR077A()
+{
+  BEGIN_CASE ("paging_req_2_imsi_tmsi_for_ms_mobile_identity_3__alr077a")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_imsi_tmsi_for_ms_mobile_identity_3__alr077('A');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR077-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging request type 2 message
+ *              corresponding to the actual IMSI or TMSI in information element in
+ *              the information element mobile identity 3. A paging indication is
+ *              forwarded to RR.
+ * Variant B: IMSI mobile identity 3, SDCCH needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR077B()
+{
+  BEGIN_CASE ("paging_req_2_imsi_tmsi_for_ms_mobile_identity_3__alr077b")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_imsi_tmsi_for_ms_mobile_identity_3__alr077('B');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR077-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging request type 2 message
+ *              corresponding to the actual IMSI or TMSI in information element in
+ *              the information element mobile identity 3. A paging indication is
+ *              forwarded to RR.
+ * Variant C: IMSI mobile identity 3, TCH/F needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR077C()
+{
+  BEGIN_CASE ("paging_req_2_imsi_tmsi_for_ms_mobile_identity_3__alr077c")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_imsi_tmsi_for_ms_mobile_identity_3__alr077('C');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR077-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging request type 2 message
+ *              corresponding to the actual IMSI or TMSI in information element in
+ *              the information element mobile identity 3. A paging indication is
+ *              forwarded to RR.
+ * Variant D: IMSI mobile identity 3, Dual Rate needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR077D()
+{
+  BEGIN_CASE ("paging_req_2_imsi_tmsi_for_ms_mobile_identity_3__alr077d")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_imsi_tmsi_for_ms_mobile_identity_3__alr077('D');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR077-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging request type 2 message
+ *              corresponding to the actual IMSI or TMSI in information element in
+ *              the information element mobile identity 3. A paging indication is
+ *              forwarded to RR.
+ * Variant E: IMSI mobile identity 3, no channel indication
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR077E()
+{
+  BEGIN_CASE ("paging_req_2_imsi_tmsi_for_ms_mobile_identity_3__alr077e")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_imsi_tmsi_for_ms_mobile_identity_3__alr077('E');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR077-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging request type 2 message
+ *              corresponding to the actual IMSI or TMSI in information element in
+ *              the information element mobile identity 3. A paging indication is
+ *              forwarded to RR.
+ * Variant F: TMSI mobile identity 3, any channel needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR077F()
+{
+  BEGIN_CASE ("paging_req_2_imsi_tmsi_for_ms_mobile_identity_3__alr077f")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_imsi_tmsi_for_ms_mobile_identity_3__alr077('F');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR077-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging request type 2 message
+ *              corresponding to the actual IMSI or TMSI in information element in
+ *              the information element mobile identity 3. A paging indication is
+ *              forwarded to RR.
+ * Variant G: TMSI mobile identity 3, SDCCH needed,
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR077G()
+{
+  BEGIN_CASE ("paging_req_2_imsi_tmsi_for_ms_mobile_identity_3__alr077g")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_imsi_tmsi_for_ms_mobile_identity_3__alr077('G');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR077-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging request type 2 message
+ *              corresponding to the actual IMSI or TMSI in information element in
+ *              the information element mobile identity 3. A paging indication is
+ *              forwarded to RR.
+ * Variant H: TMSI mobile identity 3, TCH/F needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR077H()
+{
+  BEGIN_CASE ("paging_req_2_imsi_tmsi_for_ms_mobile_identity_3__alr077h")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_imsi_tmsi_for_ms_mobile_identity_3__alr077('H');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR077-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging request type 2 message
+ *              corresponding to the actual IMSI or TMSI in information element in
+ *              the information element mobile identity 3. A paging indication is
+ *              forwarded to RR.
+ * Variant I: TMSI mobile identity 3, Dual Rate needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR077I()
+{
+  BEGIN_CASE ("paging_req_2_imsi_tmsi_for_ms_mobile_identity_3__alr077i")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_imsi_tmsi_for_ms_mobile_identity_3__alr077('I');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR077-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging request type 2 message
+ *              corresponding to the actual IMSI or TMSI in information element in
+ *              the information element mobile identity 3. A paging indication is
+ *              forwarded to RR.
+ * Variant J: TMSI mobile identity 3, no channel indication
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR077J()
+{
+  BEGIN_CASE ("paging_req_2_imsi_tmsi_for_ms_mobile_identity_3__alr077j")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_imsi_tmsi_for_ms_mobile_identity_3__alr077('J');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR078-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging request type 2 message
+ *              corresponding to the actual IMSI or TMSI in information element in
+ *              the information element mobile identity 3. A paging indication is
+ *              forwarded to RR. The IMSI is less than 15 digits and the TMSI has only
+ *              one valid byte, but is signalled in different ways by the infrastructure
+ * Variant A: Short IMSI mobile identity 3, any channel needed, 10 digits
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR078A()
+{
+  BEGIN_CASE ("paging_req_2_short_imsi_tmsi_for_ms_mobile_identity_3__alr078a")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_short_imsi_tmsi_for_ms_mobile_identity_3__alr078('A');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR078-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging request type 2 message
+ *              corresponding to the actual IMSI or TMSI in information element in
+ *              the information element mobile identity 3. A paging indication is
+ *              forwarded to RR. The IMSI is less than 15 digits and the TMSI has only
+ *              one valid byte, but is signalled in different ways by the infrastructure
+ * Variant B: Short TMSI mobile identity 3, SDCCH needed, 1 byte from the network
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR078B()
+{
+  BEGIN_CASE ("paging_req_2_short_imsi_tmsi_for_ms_mobile_identity_3__alr078b")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_short_imsi_tmsi_for_ms_mobile_identity_3__alr078('B');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR078-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging request type 2 message
+ *              corresponding to the actual IMSI or TMSI in information element in
+ *              the information element mobile identity 3. A paging indication is
+ *              forwarded to RR. The IMSI is less than 15 digits and the TMSI has only
+ *              one valid byte, but is signalled in different ways by the infrastructure
+ * Variant C: Short TMSI mobile identity 3, TCH/F needed, 2 bytes from the network
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR078C()
+{
+  BEGIN_CASE ("paging_req_2_short_imsi_tmsi_for_ms_mobile_identity_3__alr078c")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_short_imsi_tmsi_for_ms_mobile_identity_3__alr078('C');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR078-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging request type 2 message
+ *              corresponding to the actual IMSI or TMSI in information element in
+ *              the information element mobile identity 3. A paging indication is
+ *              forwarded to RR. The IMSI is less than 15 digits and the TMSI has only
+ *              one valid byte, but is signalled in different ways by the infrastructure
+ * Variant D: Short TMSI mobile identity 3, Dual Rate needed, 3 bytes from the network
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR078D()
+{
+  BEGIN_CASE ("paging_req_2_short_imsi_tmsi_for_ms_mobile_identity_3__alr078d")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_short_imsi_tmsi_for_ms_mobile_identity_3__alr078('D');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR078-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging request type 2 message
+ *              corresponding to the actual IMSI or TMSI in information element in
+ *              the information element mobile identity 3. A paging indication is
+ *              forwarded to RR. The IMSI is less than 15 digits and the TMSI has only
+ *              one valid byte, but is signalled in different ways by the infrastructure
+ * Variant E: Short TMSI mobile identity 3, No channel indication, 4 bytes from the network
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR078E()
+{
+  BEGIN_CASE ("paging_req_2_short_imsi_tmsi_for_ms_mobile_identity_3__alr078e")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_2_short_imsi_tmsi_for_ms_mobile_identity_3__alr078('E');
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR079-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives an empty paging message.
+ *              The message content is not forwarded to RR.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR079()
+{
+  BEGIN_CASE ("paging_req_3_empty_paging_message_alr079")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+
+      SEND  ( mphc_data_ind_32()   );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR080-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 to 4.
+ *              A paging indication is forwarded to RR.
+ * Variant A: TMSI mobile identity 1, any channel needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR080A()
+{
+  BEGIN_CASE ("paging_req_3_tmsi_for_ms_alr080a")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_3_tmsi_for_ms_alr080('A');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR080-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 to 4.
+ *              A paging indication is forwarded to RR.
+ * Variant B: TMSI mobile identity 1, SDCCH needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR080B()
+{
+  BEGIN_CASE ("paging_req_3_tmsi_for_ms_alr080b")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_3_tmsi_for_ms_alr080('B');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR080-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 to 4.
+ *              A paging indication is forwarded to RR.
+ * Variant C: TMSI mobile identity 1, TCH/F needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR080C()
+{
+  BEGIN_CASE ("paging_req_3_tmsi_for_ms_alr080c")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_3_tmsi_for_ms_alr080('C');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR080-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 to 4.
+ *              A paging indication is forwarded to RR.
+ * Variant D: TMSI mobile identity 1, Dual Rate needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR080D()
+{
+  BEGIN_CASE ("paging_req_3_tmsi_for_ms_alr080d")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_3_tmsi_for_ms_alr080('D');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR080-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 to 4.
+ *              A paging indication is forwarded to RR.
+ * Variant E: TMSI mobile identity 2, any channel needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR080E()
+{
+  BEGIN_CASE ("paging_req_3_tmsi_for_ms_alr080e")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_3_tmsi_for_ms_alr080('E');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR080-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 to 4.
+ *              A paging indication is forwarded to RR.
+ * Variant F: TMSI mobile identity 2, SDCCH needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR080F()
+{
+  BEGIN_CASE ("paging_req_3_tmsi_for_ms_alr080f")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_3_tmsi_for_ms_alr080('F');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR080-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 to 4.
+ *              A paging indication is forwarded to RR.
+ * Variant G: TMSI mobile identity 2, TCH/F needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR080G()
+{
+  BEGIN_CASE ("paging_req_3_tmsi_for_ms_alr080g")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_3_tmsi_for_ms_alr080('G');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR080-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 to 4.
+ *              A paging indication is forwarded to RR.
+ * Variant H: TMSI mobile identity 2, Dual Rate needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR080H()
+{
+  BEGIN_CASE ("paging_req_3_tmsi_for_ms_alr080h")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_3_tmsi_for_ms_alr080('H');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR080-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 to 4.
+ *              A paging indication is forwarded to RR.
+ * Variant I: TMSI mobile identity 3, any channel needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR080I()
+{
+  BEGIN_CASE ("paging_req_3_tmsi_for_ms_alr080i")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_3_tmsi_for_ms_alr080('I');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR080-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 to 4.
+ *              A paging indication is forwarded to RR.
+ * Variant J: TMSI mobile identity 3, SDCCH needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR080J()
+{
+  BEGIN_CASE ("paging_req_3_tmsi_for_ms_alr080j")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_3_tmsi_for_ms_alr080('J');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR080-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 to 4.
+ *              A paging indication is forwarded to RR.
+ * Variant K: TMSI mobile identity 3, TCH/F needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR080K()
+{
+  BEGIN_CASE ("paging_req_3_tmsi_for_ms_alr080k")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_3_tmsi_for_ms_alr080('K');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR080-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 to 4.
+ *              A paging indication is forwarded to RR.
+ * Variant L: TMSI mobile identity 3, Dual Rate needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR080L()
+{
+  BEGIN_CASE ("paging_req_3_tmsi_for_ms_alr080l")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_3_tmsi_for_ms_alr080('L');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR080-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 to 4.
+ *              A paging indication is forwarded to RR.
+ * Variant M: TMSI mobile identity 3, no channel indication
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR080M()
+{
+  BEGIN_CASE ("paging_req_3_tmsi_for_ms_alr080m")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_3_tmsi_for_ms_alr080('M');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR080-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 to 4.
+ *              A paging indication is forwarded to RR.
+ * Variant N: TMSI mobile identity 4, any channel needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR080N()
+{
+  BEGIN_CASE ("paging_req_3_tmsi_for_ms_alr080n")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_3_tmsi_for_ms_alr080('N');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR080-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 to 4.
+ *              A paging indication is forwarded to RR.
+ * Variant O: TMSI mobile identity 4, SDCCH needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR080O()
+{
+  BEGIN_CASE ("paging_req_3_tmsi_for_ms_alr080o")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_3_tmsi_for_ms_alr080('O');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR080-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 to 4.
+ *              A paging indication is forwarded to RR.
+ * Variant P: TMSI mobile identity 4, TCH/F needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR080P()
+{
+  BEGIN_CASE ("paging_req_3_tmsi_for_ms_alr080p")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_3_tmsi_for_ms_alr080('P');
+    } HANDLE_DEACT;
+  }
+}
+/*------------------------Following is for ALR080-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 to 4.
+ *              A paging indication is forwarded to RR.
+ * Variant Q: TMSI mobile identity 4, Dual Rate needed
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR080Q()
+{
+  BEGIN_CASE ("paging_req_3_tmsi_for_ms_alr080q")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_3_tmsi_for_ms_alr080('Q');
+    } HANDLE_DEACT;
+  }
+}
+/*------------------------Following is for ALR080-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives a paging message corresponding
+ *              to the actual TMSI in the information elements mobile identity 1 to 4.
+ *              A paging indication is forwarded to RR.
+ * Variant R: TMSI mobile identity 4, no channel indication
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR080R()
+{
+  BEGIN_CASE ("paging_req_3_tmsi_for_ms_alr080r")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      paging_req_3_tmsi_for_ms_alr080('R');
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR081-------------------------------
+ *
+ * Description:	The MS is in idle mode. It receives paging request type 3 messages.
+ *              The message content is not forwarded to RR, because the message
+ *              content doesn´t match to the MS identities.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR081()
+{
+  BEGIN_CASE ("paging_req_3_not_for_ms_alr081")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+
+      SEND  ( mphc_data_ind_34()   );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR082-------------------------------
+ *
+ * Description:	For a multiframe period of five multiframes it is expected that
+ *              all 25 reports from layer 1 reading of BCCH information is started.
+ *              Nine reports are received in the preamble. All four reports a
+ *              measurement report is send to RR. Changed System Information
+ *              Messages are forwarded to RR.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR082()
+{
+  BEGIN_CASE ("bcch_reading_changed_sys_infos_alr082")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      measurement_reporting_configuration_alr030('D');
+      meas_rep_bs_pa_mfrms_5();
+
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_6()     );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_6()     );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_6()     );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_6()     );
+      SEND  ( mphc_data_ind_1()           );
+      SEND  ( mphc_data_ind_2()           );
+      SEND  ( mphc_data_ind_35()          );
+      AWAIT ( mph_unitdata_ind_si1_chg(ARFCN_23)       );
+      SEND  ( mphc_data_ind_4()           );
+      SEND  ( mphc_data_ind_15()          );
+      SEND  ( mphc_data_ind_1()           );
+      AWAIT ( mph_unitdata_ind_si1(ARFCN_23)        );
+      SEND  ( mphc_data_ind_17()          );
+      SEND  ( mphc_data_ind_18()          );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR086-------------------------------
+ *
+ * Description:	RR starts a full list power measurement.
+ *              No suitable channel is available.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR086()
+{
+  BEGIN_CASE ("initiation_by_rr_no_channels_available_alr086")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+
+      SEND  ( mph_power_req_2()    );
+      AWAIT ( mphc_rxlev_req()   );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2)   );
+      AWAIT ( mphc_rxlev_req()   );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2)   );
+      AWAIT ( mphc_rxlev_req()   );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2)   );
+      AWAIT ( mphc_rxlev_req()   );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2)   );
+      AWAIT ( mphc_rxlev_req()   );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2)   );
+      AWAIT ( mph_power_cnf_2()    );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR089-------------------------------
+ *
+ * Description:	All synchronization attempts to the available channels fail. RR
+ *              is informed by an error indication with the cause no BCCH available.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR089()
+{
+  BEGIN_CASE ("find_bcch_carrier_all_channels_failed_then_error_indication_alr089")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      find_bcch_carrier_second_channel_alr088();
+
+      SEND  ( mphc_ncell_sync_ind_failed(ARFCN_14)  );
+      AWAIT ( mph_bsic_cnf_failed(ARFCN_14)        );
+      SEND  ( mph_bsic_req(ARFCN_124)         );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124)  );
+      SEND  ( mphc_ncell_sync_ind_failed(ARFCN_124) );
+      AWAIT ( mph_bsic_cnf_failed(ARFCN_124)        );
+      SEND  ( mph_bsic_req(ARFCN_1)        );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1)  );
+      SEND  ( mphc_ncell_sync_ind_failed(ARFCN_1) );
+      AWAIT ( mph_bsic_cnf_failed(ARFCN_1)        );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR095-------------------------------
+ *
+ * Description:	RR rejects the BCCH carrier. No further channel is available.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR095()
+{
+  BEGIN_CASE ("rr_rejects_bcch_carrier_no_further_channel_available_alr095")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      find_bcch_carrier_second_channel_alr088();
+      read_bcch_data_alr091();
+      rr_rejects_bcch_carrier_try_fourth_channel_alr094();
+
+      SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH)             );
+      continue_page_mode_reorg_after_hplnm_search_procedure('B');
+
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1) );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR100-------------------------------
+ *
+ * Description:	The successful case of the EMO procedure is performed.
+ *              No interfering signals are received.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR100()
+{
+  BEGIN_CASE ("emo_normal_case_alr100")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      start_of_sending_channel_request_messages_gsm_900__alr055();
+      immediate_assignment_for_the_mobile_station_alr056();
+
+      SEND  ( mph_emo_req_1()           );
+      AWAIT ( mphc_update_ba_list_1()   );
+      SEND  ( mphc_meas_report_1()      );
+      AWAIT ( mph_emo_meas_ind_1()      );
+      SEND  ( mph_neighbourcell_req_2() );
+      AWAIT ( mphc_update_ba_list_2()   );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR101-------------------------------
+ *
+ * Description:	The successful case of the EMO procedure is performed.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR101()
+{
+  BEGIN_CASE ("emo_delayed_invalid_and_duplicated_ba_id_values_alr101")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      start_of_sending_channel_request_messages_gsm_900__alr055();
+      immediate_assignment_for_the_mobile_station_alr056();
+
+      SEND  ( mph_emo_req_1()           );
+      AWAIT ( mphc_update_ba_list_1()   );
+      SEND  ( mphc_meas_report_2()      );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1)   );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124)   );
+      AWAIT ( mph_measurement_ind_20()  );
+      SEND  ( mph_emo_req_2()           );
+      AWAIT ( mphc_update_ba_list_3()   );
+      SEND  ( mphc_meas_report_1()      );
+      SEND  ( mphc_meas_report_3()      );
+      AWAIT ( mph_emo_meas_ind_2()      );
+      SEND  ( mph_neighbourcell_req_2() );
+      AWAIT ( mphc_update_ba_list_2()   );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR101-------------------------------
+ *
+ * Description:This test checks the scenario when a new strong cell is reported, an
+ * all ongoing LIST SYNC REQ is stopped. A SYNC REQ for the new cell is sent. As
+ * soon as sync_ind for this new cell is received, The Interupted LIST SYNC REQ is 
+ * again.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR102()
+{
+  BEGIN_CASE ("ALR102: Synchronization to new strong cell synch confirmation in DEDICATED state")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      start_of_sending_channel_request_messages_gsm_900__alr055();
+      immediate_assignment_for_the_mobile_station_alr056();
+      SEND  ( mph_neighbourcell_req_2() );
+      AWAIT ( mphc_update_ba_list_2()   );
+
+      SEND  ( mphc_meas_report_4()      );
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_124));
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_1) );
+
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,25)  );
+
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_1)   );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_124) );
+
+      // tim_ncsync expiry
+      wait_ncsync_dedicated_102(20);
+      AWAIT ( mphc_ncell_list_sync_req_1d()      );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_1)   );
+
+      SEND  ( mphc_meas_report_5()              );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19)  );
+      AWAIT ( mphc_stop_ncell_sync_req_all()    );
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_14)   );
+
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19)  );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_14) );
+
+      AWAIT ( mphc_ncell_list_sync_req_1e()     );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_124) );
+
+      // tim_ncsync expiry
+      wait_ncsync_dedicated_102a(20);
+      AWAIT ( mphc_ncell_list_sync_req_1f()     );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19)  );
+
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_1)   );
+
+      SEND  ( mphc_meas_report_5()              );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19)  );
+
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_124) );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_14)  );   
+
+      SEND  ( mphc_meas_report_5()              );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19)  );  
+
+      SEND  ( mphc_meas_report_4()      );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19)  ); 
+
+
+
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR101-------------------------------
+ *
+ * Description:This test checks the scenario when a new strong cell is reported, an
+ * all ongoing LIST SYNC REQ is stopped. A SYNC REQ for the new cell is sent. As
+ * soon as sync_ind for this new cell is received, The Interupted LIST SYNC REQ is sent
+ * again. This case checks condition when more than one NCELL Resync request was pending
+ * when the new storng cell was reported.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR103()
+{
+  BEGIN_CASE ("ALR103: Synchronization to new strong cell synch confirmation in DEDICATED state")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      start_of_sending_channel_request_messages_gsm_900__alr055();
+      immediate_assignment_for_the_mobile_station_alr056();
+      SEND  ( mph_neighbourcell_req_2() );
+      AWAIT ( mphc_update_ba_list_2()   );
+
+      SEND  ( mphc_meas_report_4()      );
+
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_124)   );
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_1) );
+
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19)  );
+
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_1)   );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_124) );
+
+      // tim_ncsync expiry
+      wait_ncsync_dedicated_102(20);
+      AWAIT ( mphc_ncell_list_sync_req_1d()      );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19)  );
+
+      SEND  ( mphc_meas_report_5()              );
+
+      AWAIT ( mphc_stop_ncell_sync_req_all()    );
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_14)   );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19)  );
+
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_14) );
+
+      AWAIT ( mphc_ncell_list_sync_req_1d()      );
+
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_1)   );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_124) );
+
+      // tim_ncsync expiry
+      wait_ncsync_dedicated_102(20);
+      AWAIT ( mphc_ncell_list_sync_req_1h()      );
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR101-------------------------------
+ *
+ * Description:This test checks the scenario when a new strong cell is reported, an
+ * all ongoing LIST SYNC REQ is stopped. A SYNC REQ for the new cell is sent. As
+ * soon as sync_ind for this new cell is received, The Interupted LIST SYNC REQ is sent
+ * again. This case checks the boundry condition when maximum 6 cells are included in
+ * the list sync request.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR104()
+{
+  BEGIN_CASE ("emo_delayed_invalid_and_duplicated_ba_id_values_alr101")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      start_of_sending_channel_request_messages_gsm_900__alr055();
+      immediate_assignment_for_the_mobile_station_alr056();
+      SEND  ( mph_neighbourcell_req_2a() );
+      AWAIT ( mphc_update_ba_list_2a()   );
+
+      SEND  ( mphc_meas_report_6()      );
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_1)   );
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_11) );
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_15) );
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_20) );
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_24) );
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_25) );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19)  );
+
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_1)   );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_11)   );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_15)   );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_20)   );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_24)   );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_25)   );
+
+      /*  tim_ncsync expiry */
+      wait_ncsync_dedicated_102b(20);
+      AWAIT ( mphc_ncell_list_sync_req_6()      );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19)  );
+
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_1)   );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_11)   );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_15)   );
+
+      SEND  ( mphc_meas_report_6a()      );
+
+      AWAIT ( mphc_stop_ncell_sync_req_all()    );
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_26)   );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19)  );
+
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_26)   );
+
+
+      AWAIT ( mphc_ncell_list_sync_req_6a()      );
+
+
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+/*------------------------Following is for ALR101-------------------------------
+ *
+ * Description:This test checks the scenario when a new strong cell is reported, an
+ * all ongoing LIST SYNC REQ is stopped. A SYNC REQ for the new cell is sent. As
+ * soon as sync_ind for this new cell is received, The Interupted LIST SYNC REQ is sent
+ * again. This case checks the condition when one of the synchronized cell is replaced
+ * by new stong cell.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR105()
+{
+  BEGIN_CASE ("emo_delayed_invalid_and_duplicated_ba_id_values_alr101")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      start_of_sending_channel_request_messages_gsm_900__alr055();
+      immediate_assignment_for_the_mobile_station_alr056();
+      SEND  ( mph_neighbourcell_req_2a() );
+      AWAIT ( mphc_update_ba_list_2a()   );
+
+      SEND  ( mphc_meas_report_6()      );
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_1)   );
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_11) );
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_15) );
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_20) );
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_24) );
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_25) );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19)  );
+
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_1)   );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_11)   );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_15)   );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_20)   );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_24)   );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_25)   );
+
+      /*  tim_ncsync expiry */
+      wait_ncsync_dedicated_102b(20);
+      AWAIT ( mphc_ncell_list_sync_req_6()      );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19)  );
+
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_1)   );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_11)   );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_15)   );
+
+
+      SEND  ( mphc_meas_report_6()      );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19)  );
+
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_25)   );
+
+      SEND  ( mphc_meas_report_6a()      );
+      AWAIT ( mphc_stop_ncell_sync_req_all()    );
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_26)   );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19)  );
+
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_26)   );
+
+      AWAIT ( mphc_ncell_list_sync_req_6a()      );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_20)   );
+      SEND  ( mphc_ncell_sync_ind_fn(ARFCN_24)   );
+
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR150-------------------------------
+ *
+ * Description:	A non-synchronized handover for the mobile station is
+ *              configured without starting time.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR150()
+{
+  BEGIN_CASE ("non_synchronized_handover_alr150")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      meas_ind_with_start_sync_followed_by_rach_procedure();
+      immediate_assignment_for_the_mobile_station_alr056();
+
+      SEND  ( mph_dedicated_req_2() );
+      AWAIT ( mphc_async_ho_req_1(HOT_REGULAR) );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR152-------------------------------
+ *
+ * Description:	The type approval testcase 26.6.13.8 is performed.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR152()
+{
+  BEGIN_CASE ("fta_26_6_13_8_alr152")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      meas_ind_with_start_sync_followed_by_rach_procedure();
+      immediate_assignment_for_the_mobile_station_alr056();
+
+      SEND  ( mph_freq_redef_req_2()        );
+      AWAIT ( mphc_change_frequency_2()     );
+      SEND  ( mph_dedicated_req_5()         );
+      AWAIT ( mphc_async_ho_req_2()         );
+      SEND  ( mphc_async_ho_con_1()         );
+      SEND  ( mphc_handover_finished_1(HO_COMPLETE) );
+      AWAIT ( mph_dedicated_cnf_1(DEDI_RES_OK)      );
+      SEND  ( mph_dedicated_fail_req_1()    );
+      AWAIT ( mphc_handover_fail_req_1()    );
+      SEND  ( mphc_handover_fail_con_1()    );
+      AWAIT ( mph_dedicated_fail_cnf_1()    );
+      SEND  ( mphc_change_frequency_con_1() );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR153-------------------------------
+ *
+ * Description:	The MS is in dedicated mode. It receives a system info
+ *              type 5 message (forwarded to RR), a system info type 5bis
+ *              message (forwarded to RR), a system info type 6 message
+ *              (forwarded to RR), an I-frame for SMS (forwarded to DL),
+ *              the first system info type 5 message again (compared and
+ *              not forwarded by ALR) and a changed system info type 6
+ *              message (forwarded to RR).
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR153()
+{
+  BEGIN_CASE ("sacch_downlink_messages_alr153")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      rr_select_second_channel_alr012('A');
+
+      SEND  ( mph_random_access_req_1()        );
+      AWAIT ( mphc_stop_rxlev_periodic_req()   );
+      AWAIT ( mphc_stop_scell_bcch_req()       );
+      AWAIT ( mphc_scell_nbcch_req_full()      );
+      AWAIT ( mphc_ra_req_1()                  );
+      SEND  ( mphc_ra_con_1()                  );
+      AWAIT ( mph_random_access_cnf_1()        );
+      AWAIT ( mphc_ra_req_2()                  );
+      SEND  ( mphc_data_ind_36()               );
+      AWAIT ( mph_unitdata_ind_15()            );
+      SEND  ( mph_dedicated_req_3()            );
+      AWAIT ( mphc_stop_scell_bcch_req()       );
+      AWAIT ( mphc_stop_ccch_req()             );
+      AWAIT ( mphc_stop_ra_req_1()             );
+      AWAIT ( mphc_immed_assign_req_2()        );
+      SEND  ( mphc_immed_assign_con_1()        );
+      AWAIT ( mph_dedicated_cnf_1(DEDI_RES_OK) );
+      SEND  ( mph_freq_redef_req_1()           );
+      AWAIT ( mphc_change_frequency_1()        );
+      SEND  ( mph_dedicated_req_4()            );
+      AWAIT ( mphc_channel_assign_req_1()      );
+      SEND  ( mphc_channel_assign_con_1()      );
+      AWAIT ( mph_dedicated_cnf_1(DEDI_RES_OK) );
+      SEND  ( mph_dedicated_fail_req_1()       );
+      AWAIT ( mphc_channel_assign_req_2()      );
+      SEND  ( mphc_channel_assign_con_1()      );
+      AWAIT ( mph_dedicated_fail_cnf_1()       );
+      SEND  ( mphc_data_ind_37()               );
+      AWAIT ( mph_unitdata_ind_16()            );
+      SEND  ( mphc_data_ind_38()               );
+      AWAIT ( mph_unitdata_ind_17()            );
+      SEND  ( mphc_data_ind_39()               );
+      AWAIT ( mph_unitdata_ind_18()            );
+      SEND  ( mphc_data_ind_40()               );
+      AWAIT ( ph_data_ind_1()                  );
+      SEND  ( mphc_data_ind_37()               );
+      SEND  ( mphc_data_ind_41()               );
+      AWAIT ( mph_unitdata_ind_19()            );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR154-------------------------------
+ *
+ * Description:	A handover is performed. It is checked that the serving cell
+ *              channel numbers are correctly set.
+ * Variant A:	AMR not signalled
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR154A()
+{
+  BEGIN_CASE ("handover_serving_cell_parameter_alr154a")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      meas_ind_with_start_sync_followed_by_rach_procedure();
+      immediate_assignment_for_the_mobile_station_alr056();
+      handover_serving_cell_parameter_alr154('A');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR154-------------------------------
+ *
+ * Description:	A handover is performed. It is checked that the serving cell
+ *              channel numbers are correctly set.
+ * Variant B:	AMR signalled
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR154B()
+{
+  BEGIN_CASE ("handover_serving_cell_parameter_alr154b")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      meas_ind_with_start_sync_followed_by_rach_procedure();
+      immediate_assignment_for_the_mobile_station_alr056();
+
+      handover_serving_cell_parameter_alr154('B');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR154-------------------------------
+ *
+ * Description:	A handover is performed. The target cell has been sync
+ *
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR154C()
+{
+  BEGIN_CASE ("handover_target_cell_synchronized")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      meas_ind_with_start_sync_followed_by_rach_procedure();
+      immediate_assignment_for_the_mobile_station_alr056();
+      handover_serving_cell_parameter_alr154('C');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR154-------------------------------
+ *
+ * Description:	A handover is performed. The target cell has not been sync
+ *
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR154D()
+{
+  BEGIN_CASE ("handover_target_cell_not_synchronized")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      meas_ind_with_start_sync_followed_by_rach_procedure();
+      /*Take MS to dedicated state*/
+      immediate_assignment_for_the_mobile_station_alr056();
+      /* Start Handover*/
+      SEND   (mph_dedicated_req_6('D'));
+      #ifdef  FF_EGPRS
+        AWAIT ( mphc_async_ho_req_3('D') );
+        SEND  ( mphc_handover_finished_1(HO_SYNC_FAIL) );
+        AWAIT ( mph_dedicated_cnf_1(DEDI_RES_SYNC_FAIL));
+      #else // FF_EGPRS
+        AWAIT ( mph_dedicated_cnf_1(DEDI_RES_CELL_NOT_SYNC));
+      #endif  // FF_EGPRS
+    } HANDLE_DEACT;
+  }
+}
+
+#ifdef FF_EGPRS
+/*------------------------Following is for ALR155-------------------------------
+ *
+ * Description: Blind Handover-success case
+ *
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR155()
+{
+  BEGIN_CASE ("Blind Handover-success case")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      meas_ind_with_start_sync_followed_by_rach_procedure();
+      /*Take MS to dedicated state*/
+      immediate_assignment_for_the_mobile_station_alr056();
+      /* Start Handover*/
+      SEND   (mph_dedicated_req_6('D'));
+      AWAIT ( mphc_async_ho_req_3('D') );
+      SEND  ( mphc_async_ho_con_1()        );
+      SEND  ( mphc_handover_finished_1(HO_COMPLETE) );
+      AWAIT ( mph_dedicated_cnf_1(DEDI_RES_OK));
+      /*Verify that timing info is updated*/
+      SEND (mphc_meas_report_4() );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124)       );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_1,0x19)           );
+      SEND (mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1) );
+      SEND (mphc_meas_report_4() );
+      AWAIT ( mph_measurement_ind_bho_1(ARFCN_1,0x19)           );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR156-------------------------------
+ *
+ * Description: Blind Handover-Failure case
+ *
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR156()
+{
+  BEGIN_CASE ("Blind Handover-Failure case")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      meas_ind_with_start_sync_followed_by_rach_procedure();
+      /*Take MS to dedicated state*/
+      immediate_assignment_for_the_mobile_station_alr056();
+      /*Timing before handover*/
+      SEND(mphc_meas_report_5());
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1)       );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124)       );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19)           );
+      /* Start Handover*/
+      SEND   (mph_dedicated_req_6('D'));
+      AWAIT (mphc_stop_ncell_sync_req_dummy() );
+      AWAIT ( mphc_async_ho_req_3('D') );
+      SEND  ( mphc_async_ho_con_1()        );
+      SEND  ( mphc_handover_finished_1(HO_SYNC_FAIL) );
+      AWAIT ( mph_dedicated_cnf_1(DEDI_RES_SYNC_FAIL));
+      /*HO failed : Revert to old channels*/
+      SEND  ( mph_dedicated_fail_req_1()    );
+      AWAIT ( mphc_handover_fail_req_1()    );
+      SEND  ( mphc_handover_fail_con_1()    );
+      AWAIT ( mph_dedicated_fail_cnf_1()    );
+      /*Verify that timing info has not changed*/
+      SEND(mphc_meas_report_5());
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1)       );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124)       );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19)           );
+      SEND (mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1) );
+    } HANDLE_DEACT;
+  }
+}
+#endif // FF_EGPRS
+
+/*------------------------Following is for ALR157-------------------------------
+ *
+ * Description:	This test case checks a fix for bug reported with issue #12103
+ *              The BA list contains the serving cell 23 and
+ *              the neighbour cells 1, 14 and 124.
+ *              The fieldstrength is 56 for channel 23, 12 for channel 1,
+ *              44 for channel 14 and 25 for channel 124 (all values in GSM range).
+ *              The ranking for the neighbour cells is 14, 124 and at least channel 1.
+ *              Each reports contains two fieldstrength values per channel.
+ *              The multiframe period is set to 6. The first measurement report
+ *              is send to RR after five reports from PL. Then after each
+ *              three reports from PL a measurement report is send to RR.
+ *              One synchronisation attempt to channel 14 fails and is repeated (ALR048)
+ *              Then a connection is established and a non synchroneous handover
+ *              is performed, which fails. The handover is repeated later
+ *              (and fails again). The second handover must use the same timing
+ *              information as the first one.
+ *              Later the call is released and RR decides to start a cell
+ *              reselection on serving cell 23
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR157()
+{
+  BEGIN_CASE ("handover_fails_alr157")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      definition_of_bcch_allocation_alr046('A');
+      sync_to_ncell_14_fails_once();
+
+      SEND  ( mph_random_access_req_1()          );
+      AWAIT ( mphc_stop_rxlev_periodic_req()     );
+      AWAIT ( mphc_stop_scell_bcch_req()         );
+      AWAIT ( mphc_scell_nbcch_req_full()        );
+      AWAIT ( mphc_ra_req_1()                    );
+      SEND  ( mphc_ra_con_1()                    );
+      AWAIT ( mph_random_access_cnf_1()          );
+      AWAIT ( mphc_ra_req_2()                    );
+      immediate_assignment_for_the_mobile_station_alr056();
+      SEND  ( mph_neighbourcell_req_4('A') );
+      AWAIT ( mphc_update_ba_list_2()    );
+      MUTE  (500);
+      SEND  ( mph_dedicated_req_6('C') );
+      AWAIT ( mphc_async_ho_req_3('C') );
+      SEND  ( mphc_async_ho_con_1()        );
+      SEND  ( mphc_handover_finished_1(HO_TIMEOUT));
+      AWAIT ( mph_dedicated_cnf_1(DEDI_RES_TIMEOUT));
+      SEND  ( mph_dedicated_fail_req_1()    );
+      AWAIT ( mphc_handover_fail_req_1()    );
+      SEND  ( mphc_handover_fail_con_1()    );
+      AWAIT ( mph_dedicated_fail_cnf_1()    );
+      MUTE (1000);
+      SEND  ( mph_dedicated_req_6('C') );
+      AWAIT ( mphc_async_ho_req_3('C') );
+      SEND  ( mphc_async_ho_con_1()        );
+      SEND  ( mphc_handover_finished_1(HO_TIMEOUT));
+      AWAIT ( mph_dedicated_cnf_1(DEDI_RES_TIMEOUT));
+      SEND  ( mph_dedicated_fail_req_1()    );
+      AWAIT ( mphc_handover_fail_req_1()    );
+      SEND  ( mphc_handover_fail_con_1()    );
+      AWAIT ( mph_dedicated_fail_cnf_1()    );
+      MUTE (1000);
+      SEND  ( mph_stop_dedicated_req()      );
+      AWAIT ( mphc_stop_dedicated_req()     );
+      SEND  ( mphc_stop_dedicated_con()     );
+      AWAIT ( mph_stop_dedicated_cnf()      );
+      SEND  ( mph_idle_req_5 ('E')          );
+      AWAIT ( mphc_new_scell_req_1()        );
+    } HANDLE_DEACT;
+  }
+}
+/*------------------------Following is for ALR158-------------------------------
+ *
+ * Description:	This test case checks a fix for bug reported with issue #16068
+ *              The BA list contains the serving cell 23 and
+ *              the neighbour cells 1, 14 and 124.
+ *              The fieldstrength is 56 for channel 23, 12 for channel 1,
+ *              44 for channel 14 and 25 for channel 124 (all values in GSM range).
+ *              The ranking for the neighbour cells is 14, 124 and at least channel 1.
+ *              Each reports contains two fieldstrength values per channel.
+ *              The multiframe period is set to 6. The first measurement report
+ *              is send to RR after five reports from PL. Then after each
+ *              three reports from PL a measurement report is send to RR.
+ *              One synchronisation attempt to channel 14 fails and is repeated (ALR048)
+ *              Then a connection is established and a non synchroneous handover
+ *              to cell 124 is performed, which succeeds.
+ *              The new BA list no longer contains the (strong) cell 14.
+ *              The confirmation of neighbour cell synchronization must not
+ *              include the cell 14, but only cells belonging to the BA list
+ *              For any reason the synchronization of cell 23 lasts very long.
+ *              Therefore it is't included into the MPH_MEASUREMENT_IND 10 seconds
+ *              later. Again 10 seconds later the synchonization attempt is stopped
+ *              and a new one is started.
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR158()
+{
+  BEGIN_CASE ("handover_fails_alr158")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      definition_of_bcch_allocation_alr046('A');
+      sync_to_ncell_14_fails_once();
+
+      SEND  ( mph_random_access_req_1()          );
+      AWAIT ( mphc_stop_rxlev_periodic_req()     );
+      AWAIT ( mphc_stop_scell_bcch_req()         );
+      AWAIT ( mphc_scell_nbcch_req_full()        );
+      AWAIT ( mphc_ra_req_1()                    );
+      SEND  ( mphc_ra_con_1()                    );
+      AWAIT ( mph_random_access_cnf_1()          );
+      AWAIT ( mphc_ra_req_2()                    );
+      immediate_assignment_for_the_mobile_station_alr056();
+      SEND  ( mph_neighbourcell_req_4('A')       );
+      AWAIT ( mphc_update_ba_list_2()            );
+
+      MUTE  (500);
+      SEND  ( mph_dedicated_req_6('E')           );
+      AWAIT ( mphc_async_ho_req_3('E')           );
+      SEND  ( mphc_async_ho_con_1()              );
+      SEND  ( mphc_handover_finished_1(HO_COMPLETE));
+      AWAIT ( mph_dedicated_cnf_1(DEDI_RES_OK)   );
+      SEND  ( mph_neighbourcell_req_1('A')       );
+      AWAIT ( mphc_update_ba_list_8()            );
+      wait_ncsync_dedicated(18);
+      AWAIT ( mphc_ncell_list_sync_req_1b()      );
+      AWAIT ( mph_measurement_ind_34()           );
+      SEND  ( mphc_ncell_sync_ind_3a()           );
+
+      wait_ncsync_dedicated(20);
+      AWAIT ( mph_measurement_ind_34()           );
+      MUTE (500);
+      wait_ncsync_dedicated(22);
+      AWAIT ( mphc_stop_ncell_sync_req_all()     );
+      AWAIT ( mphc_ncell_list_sync_req_1b()      );
+      AWAIT ( mph_measurement_ind_34()           );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR160-------------------------------
+ *
+ * Description:	A handover is performed. Before the handover there was a large
+ *              BA list of 20 entries in use. After the handover a different list
+ *              of further 20 enries is received. The overflow case of the ALR
+ *              BA list is tested
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR160()
+{
+  BEGIN_CASE ("handover_full_ba_list_alr160")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      meas_ind_with_start_sync_followed_by_rach_procedure();
+      immediate_assignment_for_the_mobile_station_alr056();
+      neighbour_cell_in_dedicated_alr155();
+      handover_serving_cell_parameter_alr154('B');
+      neighbour_cell_after_ho_alr156();
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+
+/*------------------------Following is for ALR202-------------------------------
+ *
+ * Description:	RR starts a cell selection. No channel is available.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR202()
+{
+  BEGIN_CASE ("initiation_by_rr_no_channels_available_alr202")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_dcs_1800__alr200();
+      SEND  ( mph_power_req_3()    );
+      AWAIT ( mphc_init_l1_req_3() );
+      SEND  ( mphc_init_l1_con_1() );
+      AWAIT ( mphc_rxlev_req()   );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2)   );
+      AWAIT ( mphc_rxlev_req()   );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2)   );
+      AWAIT ( mphc_rxlev_req()   );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2)   );
+      AWAIT ( mphc_rxlev_req()   );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2)   );
+      AWAIT ( mphc_rxlev_req()   );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2)   );
+      AWAIT ( mph_power_cnf_2()    );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR205-------------------------------
+ *
+ * Description:	All synchronization attempts to the available channels are failed.
+ *              RR is informed by an error indication with the cause no
+ *              BCCH available.
+ ---------------------------------------------------------------------------------*/
+
+T_CASE ALR205()
+{
+  BEGIN_CASE ("find_bcch_carrier_all_channels_failed_then_error_indication_alr205")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr201();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr204();
+
+      SEND  ( mphc_network_sync_ind_failed(ARFCN_580) );
+      AWAIT ( mph_bsic_cnf_failed(ARFCN_580_STD_1800) );
+      SEND  ( mph_bsic_req(ARFCN_885_STD_1800)        );
+      AWAIT ( mphc_network_sync_req(ARFCN_885, SM_WIDE_MODE)        );
+      SEND  ( mphc_network_sync_ind_failed(ARFCN_885) );
+      AWAIT ( mph_bsic_cnf_failed(ARFCN_885_STD_1800) );
+      SEND  ( mph_bsic_req(ARFCN_512_STD_1800)        );
+      AWAIT ( mphc_network_sync_req(ARFCN_512, SM_WIDE_MODE)        );
+      SEND  ( mphc_network_sync_ind_failed(ARFCN_512) );
+      AWAIT ( mph_bsic_cnf_failed(ARFCN_512_STD_1800) );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR208-------------------------------
+ *
+ * Description:	A failed BCCH data block is read.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR208()
+{
+  BEGIN_CASE ("read_failed_bcch_data_alr208")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr201();
+      find_bcch_carrier_first_channel_alr203();
+      read_bcch_data_alr207();
+
+      SEND  ( mphc_data_ind_46()   );
+      AWAIT ( mph_error_ind_4()    );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR211-------------------------------
+ *
+ * Description:	RR rejects the BCCH carrier. No further channel is available.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR211()
+{
+  BEGIN_CASE ("rr_rejects_bcch_carrier_no_further_channel_available_alr211")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr201();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr204();
+      find_bcch_carrier_second_channel_alr206();
+      rr_rejects_bcch_carrier_try_third_channel_alr209();
+      rr_rejects_bcch_carrier_try_fourth_channel_alr210();
+
+      SEND  ( mph_bsic_req(NOT_PRESENT_16BIT)     );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR212-------------------------------
+ *
+ * Description:	RR selects the channel 14 after reading the BCCH carrier.
+ * Variant A: with neighbourcell list
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR212A()
+{
+  BEGIN_CASE ("rr_select_second_channel_alr212a")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr201();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr204();
+      find_bcch_carrier_second_channel_alr206();
+      rr_select_second_channel_alr212('A');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR212-------------------------------
+ *
+ * Description:	RR selects the channel 14 after reading the BCCH carrier.
+ * Variant B: with empty neighbour cell list
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR212B()
+{
+  BEGIN_CASE ("rr_select_second_channel_alr212b")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr201();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr204();
+      find_bcch_carrier_second_channel_alr206();
+      rr_select_second_channel_alr212('B');
+    } HANDLE_DEACT;
+  }
+}
+/*------------------------Following is for ALR212-------------------------------
+ *
+ * Description:	RR selects the channel 14 after reading the BCCH carrier.
+ * Variant C: with neighbourcell list, but non-combined CCCH
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR212C()
+{
+  BEGIN_CASE ("rr_select_second_channel_alr212c")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr201();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr204();
+      find_bcch_carrier_second_channel_alr206();
+      rr_select_second_channel_alr212('C');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR215-------------------------------
+ *
+ * Description:	RR has started a cell selection. During power measurements a
+ *              new activation of cell selection is started by RR.
+ *              The power measurement is restarted.
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR215()
+{
+  BEGIN_CASE ("re_initiation_of_cell_selection_during_measurements_alr215")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_dcs_1800__alr200();
+
+      SEND  ( mph_power_req_3()     );
+      AWAIT ( mphc_init_l1_req_3()  );
+      SEND  ( mphc_init_l1_con_1()  );
+      AWAIT ( mphc_rxlev_req()    );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_3_1800)    );
+      AWAIT ( mphc_rxlev_req()    );
+      SEND  ( mph_power_req_3()     );
+      AWAIT ( mphc_stop_rxlev_req() );
+      AWAIT ( mphc_init_l1_req_3()  );
+      SEND  ( mphc_init_l1_con_1()  );
+      AWAIT ( mphc_rxlev_req()    );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_3_1800)    );
+      AWAIT ( mphc_rxlev_req()    );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_3_1800)    );
+      AWAIT ( mphc_rxlev_req()    );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_3_1800)    );
+      AWAIT ( mphc_rxlev_req()    );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_3_1800)    );
+      AWAIT ( mphc_rxlev_req()    );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_3_1800)    );
+      AWAIT ( mph_power_cnf_4()     );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR217-------------------------------
+ *
+ * Description:	During BCCH reading RR restarts a cell selection. This
+ *              leads to a new full power measurement cycle.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR217()
+{
+  BEGIN_CASE ("re_initiation_of_cell_selection_during_bcch_reading_alr217")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr201();
+      find_bcch_carrier_first_channel_alr203();
+      read_bcch_data_alr207();
+
+      SEND  ( mph_sync_req(CS_STOP_BCCH_READING)             );
+      AWAIT ( mphc_stop_scell_bcch_req() );
+      SEND  ( mph_power_req_3()            );
+      AWAIT ( mphc_init_l1_req_3()         );
+      SEND  ( mphc_init_l1_con_1()         );
+      AWAIT ( mphc_rxlev_req()           );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_3_1800)           );
+      AWAIT ( mphc_rxlev_req()           );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_3_1800)           );
+      AWAIT ( mphc_rxlev_req()           );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_3_1800)           );
+      AWAIT ( mphc_rxlev_req()           );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_3_1800)           );
+      AWAIT ( mphc_rxlev_req()           );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_3_1800)           );
+      AWAIT ( mph_power_cnf_4()            );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR244-------------------------------
+ *
+ * Description:	RR selects the channel 23 after reading the BCCH carrier.
+ *            	The idle mode is stopped if a normal cell selection is initiated.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR244()
+{
+  BEGIN_CASE ("stop_idle_mode_by_normal_cell_selection_alr244")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr201();
+      find_bcch_carrier_first_channel_alr203();
+
+      SEND  ( mph_classmark_req_1()              );
+      SEND  ( mph_idle_req_8()                   );
+      AWAIT ( mphc_stop_scell_bcch_req()         );
+      AWAIT ( mphc_start_ccch_req_2()            );
+      AWAIT ( mphc_scell_nbcch_req_full()        );
+      SEND  ( mph_identity_req_1()               );
+      SEND  ( mph_cbch_req_1()                   );
+      SEND  ( mph_neighbourcell_req_6()          );
+      AWAIT ( mphc_rxlev_periodic_req_6()        );
+      SEND  ( mph_power_req_3()                  );
+      AWAIT ( mphc_stop_scell_bcch_req()         );
+      AWAIT ( mphc_stop_ccch_req()               );
+      AWAIT ( mphc_stop_rxlev_periodic_req()     );
+      AWAIT ( mphc_stop_scell_bcch_req()         );
+      AWAIT ( mphc_init_l1_req_3()               );
+      SEND  ( mphc_init_l1_con_1()               );
+      AWAIT ( mphc_rxlev_req()                   );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------------------------------------------------------------
+ *
+ * Description:	The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. L1 cannot find any cells therefore MM
+ *              receives a PLMN list with the current PLMN.
+ *
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR250()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, empty power cnf")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_3);
+
+      SEND  ( mph_power_req_2()  );
+      AWAIT ( mphc_rxlev_req() );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2) );
+      AWAIT ( mphc_rxlev_req() );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2) );
+      AWAIT ( mphc_rxlev_req() );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2) );
+      AWAIT ( mphc_rxlev_req() );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2) );
+      AWAIT ( mphc_rxlev_req() );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2) );
+      AWAIT ( mph_power_cnf_2()  );
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------------------------------------------------------------
+ *
+ * Description:	The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. The measurement results from L1 only contains a cell
+ *              which is in the BA list and not in the stored BCCH list. Therefore
+ *              it will be given low priority. For a parallel PLMN search only
+ *              high and mid priority cells are synchronized therefore MM
+ *              receives a PLMN list with the current PLMN.
+ *
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR251()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, only ncell")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_3);
+
+      SEND  ( mph_power_req_2()           );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8) );
+      AWAIT ( mph_power_cnf_one_ncell()   );
+      SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH)            );
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------------------------------------------------------------
+ *
+ * Description:	The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. L1 cannot synchronize to the cells therefore MM
+ *              receives a PLMN list with the current PLMN.
+ *
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR252()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, sync fails")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_3);
+
+      SEND  ( mph_power_req_2()                     );
+      AWAIT ( mphc_rxlev_req()                      );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)           );
+      AWAIT ( mphc_rxlev_req()                      );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)           );
+      AWAIT ( mphc_rxlev_req()                      );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)           );
+      AWAIT ( mphc_rxlev_req()                      );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)           );
+      AWAIT ( mphc_rxlev_req()                      );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)           );
+      AWAIT ( mph_power_cnf_one_ncell()             ); // for ALR its no ncell,
+                                                        // so just use the same as above
+      SEND  ( mph_bsic_req(ARFCN_32)                );
+      //AWAIT ( mphc_network_sync_req(ARFCN_32)        );
+      //SEND  ( mphc_network_sync_ind_failed(ARFCN_32) );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32) );
+      SEND  ( mphc_ncell_sync_ind_failed(ARFCN_32)  );
+      AWAIT ( mph_bsic_cnf_failed(ARFCN_32)         );
+      SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH)                      );
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. L1 synchronizes to the cells and the BCCH is read.
+ *              MM receives one PLMN.
+ *
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR253()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, one PLMN found")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_3);
+
+      SEND  ( mph_power_req_2()                               );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mph_power_cnf_one_ncell()                       ); // for ALR its no ncell,
+                                                                 // so just use the same as above
+      SEND  ( mph_bsic_req(ARFCN_32)                          );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)           );
+      SEND  ( mphc_ncell_sync_ind_cell32()                    );
+      AWAIT ( mph_bsic_cnf_cell32()                           );
+      AWAIT ( mphc_ncell_bcch_req_cell32(NCELL_BCCH_SI_3_4)   );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_32)               );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_32)                  );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_32)              );
+      SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH)               );
+      MUTE  ( 500 );
+
+    } HANDLE_DEACT;
+  }
+}
+
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the power-cnf the search is aborted.
+ *              by a call.
+ *
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR254()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, power-cnf, abort due to call")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_3);
+
+      SEND  ( mph_power_req_2()                               );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+
+      abort_search_due_to_mo_call(VAR_PLMN_POWER_CNF);
+
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the power-cnf the search is aborted.
+ *              due to a transition to leaving PIM.
+ *
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR255()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, power-cnf, abort due to leaving PIM")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_3);
+
+      SEND  ( mph_power_req_2()                               );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+
+      abort_search_due_to_leaving_pim(VAR_PLMN_POWER_CNF);
+
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the power-cnf the search is aborted.
+ *              due to a cell reselection.
+ *
+ *-------------------------------------------------------------------------------*/
+#if defined GPRS
+T_CASE ALR256()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, power-cnf, abort due to a cell reselection")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_3);
+
+      nc_pbcch_initial_sync(); // this is needed for doing the cell resel correctly
+
+      SEND  ( mph_power_req_2()           );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8) );
+      AWAIT ( mphc_rxlev_req()            );
+
+      abort_search_due_to_cell_resel(VAR_PLMN_POWER_CNF);
+
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+#endif //GPRS
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the power-cnf the search is aborted.
+ *              due to a cell selection.
+ *
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR257()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, power-cnf, abort due to a cell selection")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_3);
+
+      SEND  ( mph_power_req_2()           );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8) );
+      AWAIT ( mphc_rxlev_req()            );
+
+      abort_search_due_to_cell_sel(VAR_PLMN_POWER_CNF);
+
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+
+/*-------------------------------------------------------------------------------
+ *
+ * The two testcases are different in RR but for ALR there is no difference
+ * between MO and MT call.
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the power-cnf the search is aborted.
+ *              due to a CS paging on PCCCH.
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the power-cnf the search is aborted.
+ *              due to a CS paging on CCCH.
+ *
+ *-------------------------------------------------------------------------------*/
+
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the bsic-cnf the search is aborted
+ *              due to a call.
+ *
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR258()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, bsic-cnf, abort due to call")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_3);
+
+      SEND  ( mph_power_req_2()                               );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mph_power_cnf_one_ncell()                       ); // for ALR its no ncell,
+                                                                 // so just use the same as above
+      SEND  ( mph_bsic_req(ARFCN_32)                          );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)           );
+
+      abort_search_due_to_mo_call(VAR_PLMN_BSIC_CNF);
+
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the bsic-cnf the search is aborted
+ *              due to a leaving PIM.
+ *
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR259()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, bsic-cnf, abort due to leaving PIM")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_3);
+
+      SEND  ( mph_power_req_2()                               );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mph_power_cnf_one_ncell()                       ); // for ALR its no ncell,
+                                                                 // so just use the same as above
+      SEND  ( mph_bsic_req(ARFCN_32)                          );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)           );
+
+      abort_search_due_to_leaving_pim(VAR_PLMN_BSIC_CNF);
+
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the bsic-cnf the search is aborted.
+ *              due to a cell reselection.
+ *
+ *-------------------------------------------------------------------------------*/
+#if defined GPRS
+T_CASE ALR260()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, bsic-cnf, abort due to a cell reselection")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_3);
+
+      nc_pbcch_initial_sync(); // this is needed for doing the cell resel correctly
+
+      SEND  ( mph_power_req_2()                               );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mph_power_cnf_one_ncell()                       ); // for ALR its no ncell,
+                                                                 // so just use the same as above
+      SEND  ( mph_bsic_req(ARFCN_32)                          );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)           );
+
+      abort_search_due_to_cell_resel(VAR_PLMN_BSIC_CNF);
+
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+#endif //GPRS
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the bsic-cnf the search is aborted.
+ *              due to a cell selection.
+ *
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR261()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, bsic-cnf, abort due to a cell selection")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_3);
+
+      SEND  ( mph_power_req_2()                               );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mph_power_cnf_one_ncell()                       ); // for ALR its no ncell,
+                                                                 // so just use the same as above
+      SEND  ( mph_bsic_req(ARFCN_32)                          );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)           );
+
+      abort_search_due_to_cell_sel(VAR_PLMN_BSIC_CNF);
+
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+/*-------------------------------------------------------------------------------
+ *
+ * The two testcases are different in RR but for ALR there is no difference
+ * between MO and MT call.
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the bsic-cnf the search is aborted.
+ *              due to a CS paging on CCCH
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the bsic-cnf the search is aborted.
+ *              due to a CS paging on PCCCH
+ *
+ *-------------------------------------------------------------------------------*/
+
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the SIs the search is aborted due
+ *              to call
+ *
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR262()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, SI reading, abort due to call")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_3);
+
+      SEND  ( mph_power_req_2()                               );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mph_power_cnf_one_ncell()                       );
+
+      SEND  ( mph_bsic_req(ARFCN_32)                          );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)           );
+      SEND  ( mphc_ncell_sync_ind_cell32()                    );
+      AWAIT ( mph_bsic_cnf_cell32()                           );
+      AWAIT ( mphc_ncell_bcch_req_cell32(NCELL_BCCH_SI_3_4)   );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_32)               );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_32)                  );
+
+      abort_search_due_to_mo_call(VAR_PLMN_SI);
+
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the SIs the search is aborted due
+ *              to leaving PIM
+ *
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR263()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, SI reading, abort due to leaving PIM")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_3);
+
+      SEND  ( mph_power_req_2()                               );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mph_power_cnf_one_ncell()                       );
+
+      SEND  ( mph_bsic_req(ARFCN_32)                          );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)           );
+      SEND  ( mphc_ncell_sync_ind_cell32()                    );
+      AWAIT ( mph_bsic_cnf_cell32()                           );
+      AWAIT ( mphc_ncell_bcch_req_cell32(NCELL_BCCH_SI_3_4)   );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_32)               );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_32)                  );
+
+      abort_search_due_to_leaving_pim(VAR_PLMN_SI);
+
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the SIs the search is aborted due
+ *              to cell reselection
+ *
+ *-------------------------------------------------------------------------------*/
+#if defined GPRS
+T_CASE ALR264()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, SI reading, abort due to cell reselection")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_3);
+
+      nc_pbcch_initial_sync(); // this is needed for doing the cell resel correctly
+
+      SEND  ( mph_power_req_2()                               );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mph_power_cnf_one_ncell()                       );
+
+      SEND  ( mph_bsic_req(ARFCN_32)                          );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)           );
+      SEND  ( mphc_ncell_sync_ind_cell32()                    );
+      AWAIT ( mph_bsic_cnf_cell32()                           );
+      AWAIT ( mphc_ncell_bcch_req_cell32(NCELL_BCCH_SI_3_4)   );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_32)               );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_32)                  );
+
+      abort_search_due_to_cell_resel(VAR_PLMN_SI);
+
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+#endif //GPRS
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the SIs the search is aborted due
+ *              to cell selection
+ *
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR265()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, SI reading, abort due to cell selection")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_3);
+
+      SEND  ( mph_power_req_2()                               );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mph_power_cnf_one_ncell()                       );
+
+      SEND  ( mph_bsic_req(ARFCN_32)                          );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)           );
+      SEND  ( mphc_ncell_sync_ind_cell32()                    );
+      AWAIT ( mph_bsic_cnf_cell32()                           );
+      AWAIT ( mphc_ncell_bcch_req_cell32(NCELL_BCCH_SI_3_4)   );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_32)               );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_32)                  );
+
+      abort_search_due_to_cell_sel(VAR_PLMN_SI);
+
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the power-cnf the CCCH reading is
+ *              configured.
+ *
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR266()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, power-cnf, CCCH reading is configured")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_1);
+
+      SEND  ( mph_power_req_2()                               );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+#if defined GPRS
+      SEND  ( mph_mon_ctrl_req(START_MON_CCCH)                );
+      AWAIT ( mphc_start_ccch_req_8()                         );
+#endif //GPRS
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mph_power_cnf_one_ncell()                       );
+
+      SEND  ( mph_bsic_req(ARFCN_32)                          );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)           );
+      SEND  ( mphc_ncell_sync_ind_cell32()                    );
+      AWAIT ( mph_bsic_cnf_cell32()                           );
+      AWAIT ( mphc_ncell_bcch_req_cell32(NCELL_BCCH_SI_3_4)   );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_32)               );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_32)                  );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_32)              );
+      SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH)               );
+
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the power-cnf the CCCH reading is
+ *              configured.
+ *
+ *-------------------------------------------------------------------------------*/
+#if defined GPRS
+T_CASE ALR267()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, power-cnf, CCCH reading is configured II")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_3);
+
+      SEND  ( mph_power_req_2()                               );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+
+      SEND  ( mph_mon_ctrl_req(START_MON_CCCH)                );
+
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+
+      SEND  ( mph_mon_ctrl_req(STOP_MON_CCCH)                 );
+      AWAIT ( mphc_stop_ccch_req()                            );
+
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mph_power_cnf_one_ncell()                       );
+
+      SEND  ( mph_bsic_req(ARFCN_32)                          );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)           );
+      SEND  ( mphc_ncell_sync_ind_cell32()                    );
+      AWAIT ( mph_bsic_cnf_cell32()                           );
+      AWAIT ( mphc_ncell_bcch_req_cell32(NCELL_BCCH_SI_3_4)   );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_32)               );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_32)                  );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_32)              );
+      SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH)               );
+
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+#endif //GPRS
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the bsic-cnf the CCCH reading is
+ *              configured.
+ *
+ *-------------------------------------------------------------------------------*/
+#if defined GPRS
+T_CASE ALR268()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, bsic-cnf, CCCH reading is configured")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_1);
+
+      SEND  ( mph_power_req_2()                               );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mph_power_cnf_one_ncell()                       );
+
+      SEND  ( mph_bsic_req(ARFCN_32)                          );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)           );
+
+      SEND  ( mph_mon_ctrl_req(START_MON_CCCH)                );
+      AWAIT ( mphc_start_ccch_req_8()                         );
+
+      SEND  ( mphc_ncell_sync_ind_cell32()                    );
+      AWAIT ( mph_bsic_cnf_cell32()                           );
+      AWAIT ( mphc_ncell_bcch_req_cell32(NCELL_BCCH_SI_3_4)   );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_32)               );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_32)                  );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_32)              );
+      SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH)               );
+
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+#endif //GPRS
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the SIs the CCCH reading is
+ *              configured.
+ *
+ *-------------------------------------------------------------------------------*/
+
+#if defined GPRS
+T_CASE ALR269()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, SI reading, CCCH reading is configured")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_1);
+
+      SEND  ( mph_power_req_2()                               );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mphc_rxlev_req()                                );
+
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                     );
+      AWAIT ( mph_power_cnf_one_ncell()                       );
+
+      SEND  ( mph_bsic_req(ARFCN_32)                          );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)           );
+
+      SEND  ( mphc_ncell_sync_ind_cell32()                    );
+      AWAIT ( mph_bsic_cnf_cell32()                           );
+      AWAIT ( mphc_ncell_bcch_req_cell32(NCELL_BCCH_SI_3_4)   );
+
+      SEND  ( mph_mon_ctrl_req(START_MON_CCCH)                );
+      AWAIT ( mphc_start_ccch_req_8()                         );
+
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_32)               );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_32)                  );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_32)              );
+
+      SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH)               );
+
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+#endif //GPRS
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the power-cnf GRR updates the
+ *              list of best ncells.
+ *
+ *-------------------------------------------------------------------------------*/
+#if defined GPRS
+T_CASE ALR270()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, power-cnf, ncell list updated")
+  {
+    int i = 0;
+    U16 c1[] = { ARFCN_124, ARFCN_32,          ARFCN_124 };
+    U16 c2[] = { ARFCN_25,  NOT_PRESENT_16BIT, ARFCN_32  };
+
+    for (;i<sizeof(c1)/sizeof(c1[0]);i++) {
+      tdc_trace("Configuration i=%d, Cell1=%d Cell2=%d", i, c1[i], c2[i]);
+      TRAP_FOR_DEACT {
+        filter_and_routings_gsm_900__alr000();
+        initiation_by_rr_4_channels_available_alr001();
+        find_bcch_carrier_first_channel_alr003();
+        read_bcch_data_alr007();
+        rr_select_first_channel_gprs_pbcch(VAR_NMO_1);
+
+        SEND  ( mph_neighbourcell_req_plmn_search(c1[i])             );
+        AWAIT ( mphc_ncell_sync_req_initial(c1[i])                   );
+        if(i != 1) {
+          SEND  ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1)                            );
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],1)         );
+        }
+        if(i == 1) {
+          SEND  ( mphc_ncell_sync_ind_cell32()                       );
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],3)         );
+        }
+
+        SEND  ( mph_power_req_2()                                    );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+
+        SEND  ( mph_neighbourcell_req_plmn_search(NOT_PRESENT_16BIT) );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mph_power_cnf_one_ncell()                            );
+
+        SEND  ( mph_bsic_req(ARFCN_32)                               );
+        AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)                );
+
+        SEND  ( mphc_ncell_sync_ind_cell32()                         );
+        AWAIT ( mph_bsic_cnf_cell32()                                );
+        AWAIT ( mphc_ncell_bcch_req_cell32(NCELL_BCCH_SI_3_4)        );
+        SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_32)                    );
+        AWAIT ( mph_unitdata_ind_si3(ARFCN_32)                       );
+        AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_32)                   );
+        SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH)                    );
+
+        MUTE  ( 500 );
+      } HANDLE_DEACT;
+    }
+  }
+}
+#endif //GPRS
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the power-cnf GRR updates the
+ *              list of best ncells.
+ *
+ *-------------------------------------------------------------------------------*/
+
+#if defined GPRS
+T_CASE ALR271()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, power-cnf, ncell list updated")
+  {
+    int i = 0;
+    U16 c1[] = { ARFCN_124, ARFCN_32,          ARFCN_124 };
+    U16 c2[] = { ARFCN_25,  NOT_PRESENT_16BIT, ARFCN_32  };
+
+    for (;i<sizeof(c1)/sizeof(c1[0]);i++) {
+      tdc_trace("Configuration i=%d, Cell1=%d Cell2=%d", i, c1[i], c2[i]);
+      TRAP_FOR_DEACT {
+        filter_and_routings_gsm_900__alr000();
+        initiation_by_rr_4_channels_available_alr001();
+        find_bcch_carrier_first_channel_alr003();
+        read_bcch_data_alr007();
+        rr_select_first_channel_gprs_pbcch(VAR_NMO_1);
+
+        SEND  ( mph_neighbourcell_req_plmn_search(c1[i])             );
+        AWAIT ( mphc_ncell_sync_req_initial(c1[i])                   );
+        if(i != 1) {
+          SEND  ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1)                            );
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],1)         );
+        }
+        if(i == 1) {
+          SEND  ( mphc_ncell_sync_ind_cell32()                       );
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],3)         );
+        }
+
+        SEND  ( mph_power_req_2()                                    );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+
+        SEND  ( mph_neighbourcell_req_plmn_search(c1[i],c2[i])       );
+        if(i==0) SEND  ( mphc_ncell_sync_req_initial(ARFCN_25));
+        if(i==3) SEND  ( mphc_ncell_sync_req_initial(ARFCN_32));
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mph_power_cnf_one_ncell()                            );
+
+        SEND  ( mph_bsic_req(ARFCN_32)                               );
+        AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)                );
+
+        SEND  ( mphc_ncell_sync_ind_cell32()                         );
+        AWAIT ( mph_bsic_cnf_cell32()                                );
+        AWAIT ( mphc_ncell_bcch_req_cell32(NCELL_BCCH_SI_3_4)        );
+        SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_32)                    );
+        AWAIT ( mph_unitdata_ind_si3(ARFCN_32)                       );
+        AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_32)                   );
+        SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH)                    );
+
+        MUTE  ( 500 );
+      } HANDLE_DEACT;
+    }
+  }
+}
+#endif //GPRS
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the power-cnf GRR updates the
+ *              list of best ncells.
+ *
+ *-------------------------------------------------------------------------------*/
+
+#if defined GPRS
+T_CASE ALR272()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, power-cnf, ncell list updated")
+  {
+    int i = 0;
+    U16 c1[] = { ARFCN_124, ARFCN_32,          ARFCN_124 };
+    U16 c2[] = { ARFCN_25,  NOT_PRESENT_16BIT, ARFCN_32  };
+
+    for (;i<sizeof(c1)/sizeof(c1[0]);i++) {
+      tdc_trace("Configuration i=%d, Cell1=%d Cell2=%d", i, c1[i], c2[i]);
+      TRAP_FOR_DEACT {
+        filter_and_routings_gsm_900__alr000();
+        initiation_by_rr_4_channels_available_alr001();
+        find_bcch_carrier_first_channel_alr003();
+        read_bcch_data_alr007();
+        rr_select_first_channel_gprs_pbcch(VAR_NMO_1);
+
+        SEND  ( mph_neighbourcell_req_plmn_search(c1[i])                  );
+        AWAIT ( mphc_ncell_sync_req_initial(c1[i])                        );
+        SEND  ( mphc_ncell_sync_ind_failed(c1[i])                         );
+        if(i != 1) {
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],NOT_PRESENT_8BIT) );
+        }
+        if(i == 1) {
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],NOT_PRESENT_8BIT) );
+        }
+
+        SEND  ( mph_power_req_2()                                         );
+        AWAIT ( mphc_rxlev_req()                                          );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                               );
+        AWAIT ( mphc_rxlev_req()                                          );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                               );
+        AWAIT ( mphc_rxlev_req()                                          );
+
+        SEND  ( mph_neighbourcell_req_plmn_search(NOT_PRESENT_16BIT)      );
+        AWAIT ( mph_measurement_ind_plmn_search  (c1[i],MPH_BSIC_UNKNOWN) );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                               );
+        AWAIT ( mphc_rxlev_req()                                          );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                               );
+        AWAIT ( mphc_rxlev_req()                                          );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                               );
+        AWAIT ( mph_power_cnf_one_ncell()                                 );
+
+        SEND  ( mph_bsic_req(ARFCN_32)                                    );
+        AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)                     );
+
+        SEND  ( mphc_ncell_sync_ind_cell32()                              );
+        AWAIT ( mph_bsic_cnf_cell32()                                     );
+        AWAIT ( mphc_ncell_bcch_req_cell32(NCELL_BCCH_SI_3_4)             );
+        SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_32)                         );
+        AWAIT ( mph_unitdata_ind_si3(ARFCN_32)                            );
+        AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_32)                        );
+        SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH)                         );
+
+        MUTE  ( 500 );
+      } HANDLE_DEACT;
+    }
+  }
+}
+#endif //GPRS
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the power-cnf GRR updates the
+ *              list of best ncells.
+ *
+ *-------------------------------------------------------------------------------*/
+
+#if defined GPRS
+T_CASE ALR273()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, power-cnf, ncell list updated")
+  {
+    int i = 0;
+    U16 c1[] = { ARFCN_124, ARFCN_32,          ARFCN_124 };
+    U16 c2[] = { ARFCN_25,  NOT_PRESENT_16BIT, ARFCN_32  };
+
+    for (;i<sizeof(c1)/sizeof(c1[0]);i++) {
+      tdc_trace("Configuration i=%d, Cell1=%d Cell2=%d", i, c1[i], c2[i]);
+      TRAP_FOR_DEACT {
+        filter_and_routings_gsm_900__alr000();
+        initiation_by_rr_4_channels_available_alr001();
+        find_bcch_carrier_first_channel_alr003();
+        read_bcch_data_alr007();
+        rr_select_first_channel_gprs_pbcch(VAR_NMO_1);
+
+        SEND  ( mph_neighbourcell_req_plmn_search(c1[i])                  );
+        AWAIT ( mphc_ncell_sync_req_initial(c1[i])                        );
+        SEND  ( mphc_ncell_sync_ind_failed(c1[i])                         );
+        if(i != 1) {
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],NOT_PRESENT_8BIT) );
+        }
+        if(i == 1) {
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],NOT_PRESENT_8BIT) );
+        }
+
+        SEND  ( mph_power_req_2()                                    );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+
+        SEND  ( mph_neighbourcell_req_plmn_search(c1[i],c2[i])       );
+        MUTE  (500);
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mph_power_cnf_one_ncell()                            );
+
+        SEND  ( mph_bsic_req(ARFCN_32)                               );
+        AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)                );
+
+        SEND  ( mphc_ncell_sync_ind_cell32()                         );
+        AWAIT ( mph_bsic_cnf_cell32()                                );
+        AWAIT ( mphc_ncell_bcch_req_cell32(NCELL_BCCH_SI_3_4)        );
+        SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_32)                    );
+        AWAIT ( mph_unitdata_ind_si3(ARFCN_32)                       );
+        AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_32)                   );
+        SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH)                    );
+
+        MUTE  ( 500 );
+      } HANDLE_DEACT;
+    }
+  }
+}
+#endif //GPRS
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the bsic-cnf GRR updates the
+ *              list of best ncells.
+ *
+ *-------------------------------------------------------------------------------*/
+
+#if defined GPRS
+T_CASE ALR274()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, bsic-cnf, ncell list updated")
+  {
+    int i = 0;
+    U16 c1[] = { ARFCN_124, ARFCN_32,          ARFCN_124 };
+
+    for (;i<sizeof(c1)/sizeof(c1[0]);i++) {
+      tdc_trace("Configuration i=%d, Cell1=%d", i, c1[i]);
+      TRAP_FOR_DEACT {
+        filter_and_routings_gsm_900__alr000();
+        initiation_by_rr_4_channels_available_alr001();
+        find_bcch_carrier_first_channel_alr003();
+        read_bcch_data_alr007();
+        rr_select_first_channel_gprs_pbcch(VAR_NMO_1);
+
+        START_TIMEOUT(9500);
+
+        SEND  ( mph_neighbourcell_req_plmn_search(c1[i])             );
+        AWAIT ( mphc_ncell_sync_req_initial(c1[i])                   );
+        if(i != 1) {
+          SEND  ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1)                            );
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],1)         );
+        }
+        if(i == 1) {
+          SEND  ( mphc_ncell_sync_ind_cell32()                       );
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],3)         );
+        }
+
+        SEND  ( mph_power_req_2()                                    );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mph_power_cnf_one_ncell()                            );
+
+        SEND  ( mph_bsic_req(ARFCN_32)                               );
+        AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)                );
+
+        SEND  ( mph_neighbourcell_req_plmn_search(NOT_PRESENT_16BIT) );
+
+        SEND  ( mphc_ncell_sync_ind_cell32()                         );
+        AWAIT ( mph_bsic_cnf_cell32()                                );
+        AWAIT ( mphc_ncell_bcch_req_cell32(NCELL_BCCH_SI_3_4)        );
+        SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_32)                    );
+        AWAIT ( mph_unitdata_ind_si3(ARFCN_32)                       );
+        AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_32)                   );
+        SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH)                    );
+
+        WAIT_TIMEOUT();
+        /*This message is sent when GRR inform RR with RRGRR_NCELL_SYNC_REQ(SYNC_RECONFIRM)
+        GRR maintain the 10 sec timer through measurement counter*/
+        SEND  ( mph_neighbourcell_req_sync_reconfirm()             );
+        // here C1 should be removed
+        AWAIT ( mph_measurement_ind_plmn_search(c1[i],MPH_BSIC_UNKNOWN));
+
+        MUTE  ( 500 );
+      } HANDLE_DEACT;
+    }
+  }
+}
+#endif //GPRS
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the bsic-cnf GRR updates the
+ *              list of best ncells.
+ *
+ *-------------------------------------------------------------------------------*/
+
+#if defined GPRS
+T_CASE ALR275()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, bsic-cnf, ncell list updated")
+  {
+    int i = 0;
+    U16 c1[] = { ARFCN_124, ARFCN_32,          ARFCN_124 };
+    U16 c2[] = { ARFCN_25,  NOT_PRESENT_16BIT, ARFCN_32  };
+
+    for (;i<sizeof(c1)/sizeof(c1[0]);i++) {
+      tdc_trace("Configuration i=%d, Cell1=%d Cell2=%d", i, c1[i], c2[i]);
+      TRAP_FOR_DEACT {
+        filter_and_routings_gsm_900__alr000();
+        initiation_by_rr_4_channels_available_alr001();
+        find_bcch_carrier_first_channel_alr003();
+        read_bcch_data_alr007();
+        rr_select_first_channel_gprs_pbcch(VAR_NMO_1);
+
+        START_TIMEOUT(10000);
+
+        SEND  ( mph_neighbourcell_req_plmn_search(c1[i])             );
+        AWAIT ( mphc_ncell_sync_req_initial(c1[i])                   );
+        if(i != 1) {
+          SEND  ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1)                            );
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],1)         );
+        }
+        if(i == 1) {
+          SEND  ( mphc_ncell_sync_ind_cell32()                       );
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],3)         );
+        }
+
+        SEND  ( mph_power_req_2()                                    );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mph_power_cnf_one_ncell()                            );
+
+        SEND  ( mph_bsic_req(ARFCN_32)                               );
+        AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)                );
+
+        SEND  ( mph_neighbourcell_req_plmn_search(c1[i],c2[i])       );
+        MUTE  (500);
+
+        SEND  ( mphc_ncell_sync_ind_cell32()                         );
+        AWAIT ( mph_bsic_cnf_cell32()                                );
+        AWAIT ( mphc_ncell_bcch_req_cell32(NCELL_BCCH_SI_3_4)        );
+        SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_32)                    );
+        AWAIT ( mph_unitdata_ind_si3(ARFCN_32)                       );
+        if(i==3) SEND ( mphc_ncell_sync_ind_cell32() );
+        AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_32)                   );
+        SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH)                    );
+
+
+        WAIT_TIMEOUT();
+        if(i==0) {
+          /*This message mph_neighbourcell_req_sync_reconfirm is sent when GRR 
+          inform RR with RRGRR_NCELL_SYNC_REQ(SYNC_RECONFIRM)
+          GRR maintain the 10 sec timer through measurement counter*/
+          SEND  ( mph_neighbourcell_req_sync_reconfirm()             );
+          AWAIT ( mphc_ncell_list_sync_req_cell32d()                 );
+          SEND  ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1)                  );
+          AWAIT ( mphc_ncell_sync_req_initial(ARFCN_25)              );
+          SEND  ( mphc_ncell_sync_ind (ARFCN_25)                     );
+          AWAIT ( mph_measurement_ind_plmn_search(c2[i],1)           );
+        }
+        if(i==1) {
+          SEND  ( mph_neighbourcell_req_sync_reconfirm()             );
+          AWAIT ( mphc_ncell_list_sync_req_cell32a()    );
+        }
+        if(i==2) {
+          SEND  ( mph_neighbourcell_req_sync_reconfirm()             );
+          AWAIT ( mphc_ncell_list_sync_req_cell32d()       );
+          SEND  ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1)                  );
+          AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)    );
+          SEND  ( mphc_ncell_sync_ind_cell32()             );
+          AWAIT ( mph_measurement_ind_plmn_search(c2[i],3) );
+        }
+
+        MUTE  ( 500 );
+      } HANDLE_DEACT;
+    }
+  }
+}
+#endif //GPRS
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the bsic-cnf GRR updates the
+ *              list of best ncells.
+ *
+ *-------------------------------------------------------------------------------*/
+
+#if defined GPRS
+T_CASE ALR276()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, bsic-cnf, ncell list updated")
+  {
+    int i = 0;
+    U16 c1[] = { ARFCN_124, ARFCN_32,          ARFCN_124 };
+    U16 c2[] = { ARFCN_25,  NOT_PRESENT_16BIT, ARFCN_32  };
+
+    for (;i<sizeof(c1)/sizeof(c1[0]);i++) {
+      tdc_trace("Configuration i=%d, Cell1=%d Cell2=%d", i, c1[i], c2[i]);
+      TRAP_FOR_DEACT {
+        filter_and_routings_gsm_900__alr000();
+        initiation_by_rr_4_channels_available_alr001();
+        find_bcch_carrier_first_channel_alr003();
+        read_bcch_data_alr007();
+        rr_select_first_channel_gprs_pbcch(VAR_NMO_1);
+
+        SEND  ( mph_neighbourcell_req_plmn_search(c1[i])                  );
+        AWAIT ( mphc_ncell_sync_req_initial(c1[i])                        );
+        SEND  ( mphc_ncell_sync_ind_failed(c1[i])                         );
+        if(i != 1) {
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],NOT_PRESENT_8BIT) );
+        }
+        if(i == 1) {
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],NOT_PRESENT_8BIT) );
+        }
+
+        SEND  ( mph_power_req_2()                                         );
+        AWAIT ( mphc_rxlev_req()                                          );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                               );
+        AWAIT ( mphc_rxlev_req()                                          );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                               );
+        AWAIT ( mphc_rxlev_req()                                          );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                               );
+        AWAIT ( mphc_rxlev_req()                                          );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                               );
+        AWAIT ( mphc_rxlev_req()                                          );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                               );
+        AWAIT ( mph_power_cnf_one_ncell()                                 );
+
+        SEND  ( mph_bsic_req(ARFCN_32)                                    );
+        AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)                     );
+
+        SEND  ( mph_neighbourcell_req_plmn_search(NOT_PRESENT_16BIT)      );
+        AWAIT ( mph_measurement_ind_plmn_search  (c1[i],MPH_BSIC_UNKNOWN) );
+
+        SEND  ( mphc_ncell_sync_ind_cell32()                              );
+        AWAIT ( mph_bsic_cnf_cell32()                                     );
+        AWAIT ( mphc_ncell_bcch_req_cell32(NCELL_BCCH_SI_3_4)             );
+        SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_32)                         );
+        AWAIT ( mph_unitdata_ind_si3(ARFCN_32)                            );
+        AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_32)                        );
+        SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH)                         );
+
+        MUTE  ( 500 );
+      } HANDLE_DEACT;
+    }
+  }
+}
+#endif //GPRS
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the bsic-cnf GRR updates the
+ *              list of best ncells.
+ *
+ *-------------------------------------------------------------------------------*/
+
+#if defined GPRS
+T_CASE ALR277()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, bsic-cnf, ncell list updated")
+  {
+    int i = 0;
+    U16 c1[] = { ARFCN_124, ARFCN_32,          ARFCN_124 };
+    U16 c2[] = { ARFCN_25,  NOT_PRESENT_16BIT, ARFCN_32  };
+
+    for (;i<sizeof(c1)/sizeof(c1[0]);i++) {
+      tdc_trace("Configuration i=%d, Cell1=%d Cell2=%d", i, c1[i], c2[i]);
+      TRAP_FOR_DEACT {
+        filter_and_routings_gsm_900__alr000();
+        initiation_by_rr_4_channels_available_alr001();
+        find_bcch_carrier_first_channel_alr003();
+        read_bcch_data_alr007();
+        rr_select_first_channel_gprs_pbcch(VAR_NMO_1);
+
+        START_TIMEOUT(10000);
+
+        SEND  ( mph_neighbourcell_req_plmn_search(c1[i])                  );
+        AWAIT ( mphc_ncell_sync_req_initial(c1[i])                        );
+        SEND  ( mphc_ncell_sync_ind_failed(c1[i])                         );
+        if(i != 1) {
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],NOT_PRESENT_8BIT) );
+        }
+        if(i == 1) {
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],NOT_PRESENT_8BIT) );
+        }
+
+        SEND  ( mph_power_req_2()                                    );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mph_power_cnf_one_ncell()                            );
+
+        SEND  ( mph_bsic_req(ARFCN_32)                               );
+        AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)                );
+
+        SEND  ( mph_neighbourcell_req_plmn_search(c1[i],c2[i])       );
+        MUTE  ( 500 );
+
+        SEND  ( mphc_ncell_sync_ind_cell32()                         );
+        AWAIT ( mph_bsic_cnf_cell32()                                );
+        AWAIT ( mphc_ncell_bcch_req_cell32(NCELL_BCCH_SI_3_4)        );
+        SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_32)                    );
+        AWAIT ( mph_unitdata_ind_si3(ARFCN_32)                       );
+        AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_32)                   );
+        SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH)                    );
+
+        WAIT_TIMEOUT();
+        if(i==0) {
+          /*This message mph_neighbourcell_req_sync_reconfirm is sent when GRR 
+          inform RR with RRGRR_NCELL_SYNC_REQ(SYNC_RECONFIRM)
+          GRR maintain the 10 sec timer through measurement counter*/
+          SEND  ( mph_neighbourcell_req_sync_reconfirm()   );
+          AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124)   );
+          AWAIT ( mphc_ncell_sync_req_initial(ARFCN_25)    );
+          SEND  ( mphc_ncell_sync_ind (ARFCN_25)           );
+          AWAIT ( mph_measurement_ind_plmn_search(c2[i],1) );
+        }
+        if(i==1) {
+          SEND  ( mph_neighbourcell_req_sync_reconfirm()   );
+          AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)    );
+        }
+        if(i==2) {
+          SEND  ( mph_neighbourcell_req_sync_reconfirm()   );
+          AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124)   );
+          AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)    );
+          SEND  ( mphc_ncell_sync_ind_cell32()             );
+          AWAIT ( mph_measurement_ind_plmn_search(c2[i],3) );
+        }
+
+        MUTE  ( 500 );
+      } HANDLE_DEACT;
+    }
+  }
+}
+#endif //GPRS
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the SIs GRR updates the
+ *              list of best ncells.
+ *
+ *-------------------------------------------------------------------------------*/
+
+#if defined GPRS
+T_CASE ALR278()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, SI reading, ncell list updated")
+  {
+    int i = 0;
+    U16 c1[] = { ARFCN_124, ARFCN_32,          ARFCN_124 };
+    U16 c2[] = { ARFCN_25,  NOT_PRESENT_16BIT, ARFCN_32  };
+
+    for (;i<sizeof(c1)/sizeof(c1[0]);i++) {
+      tdc_trace("Configuration i=%d, Cell1=%d Cell2=%d", i, c1[i], c2[i]);
+      TRAP_FOR_DEACT {
+        filter_and_routings_gsm_900__alr000();
+        initiation_by_rr_4_channels_available_alr001();
+        find_bcch_carrier_first_channel_alr003();
+        read_bcch_data_alr007();
+        rr_select_first_channel_gprs_pbcch(VAR_NMO_1);
+
+        SEND  ( mph_neighbourcell_req_plmn_search(c1[i])             );
+        AWAIT ( mphc_ncell_sync_req_initial(c1[i])                   );
+        if(i != 1) {
+          SEND  ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1)                            );
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],1)         );
+        }
+        if(i == 1) {
+          SEND  ( mphc_ncell_sync_ind_cell32()                       );
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],3)         );
+        }
+
+        SEND  ( mph_power_req_2()                                    );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mph_power_cnf_one_ncell()                            );
+
+        SEND  ( mph_bsic_req(ARFCN_32)                               );
+        AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)                );
+
+        SEND  ( mphc_ncell_sync_ind_cell32()                         );
+        AWAIT ( mph_bsic_cnf_cell32()                                );
+        AWAIT ( mphc_ncell_bcch_req_cell32(NCELL_BCCH_SI_3_4)        );
+        SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_32)                    );
+
+        SEND  ( mph_neighbourcell_req_plmn_search(NOT_PRESENT_16BIT) );
+
+        AWAIT ( mph_unitdata_ind_si3(ARFCN_32)                       );
+        AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_32)                   );
+
+        SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH)                    );
+
+        MUTE  ( 500 );
+      } HANDLE_DEACT;
+    }
+  }
+}
+#endif //GPRS
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the Sis GRR updates the
+ *              list of best ncells.
+ *
+ *-------------------------------------------------------------------------------*/
+
+#if defined GPRS
+T_CASE ALR279()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, SI reading, ncell list updated")
+  {
+    int i = 0;
+    U16 c1[] = { ARFCN_124, ARFCN_32,          ARFCN_124 };
+    U16 c2[] = { ARFCN_25,  NOT_PRESENT_16BIT, ARFCN_32  };
+
+    for (;i<sizeof(c1)/sizeof(c1[0]);i++) {
+      tdc_trace("Configuration i=%d, Cell1=%d Cell2=%d", i, c1[i], c2[i]);
+      TRAP_FOR_DEACT {
+        filter_and_routings_gsm_900__alr000();
+        initiation_by_rr_4_channels_available_alr001();
+        find_bcch_carrier_first_channel_alr003();
+        read_bcch_data_alr007();
+        rr_select_first_channel_gprs_pbcch(VAR_NMO_1);
+
+        SEND  ( mph_neighbourcell_req_plmn_search(c1[i])             );
+        AWAIT ( mphc_ncell_sync_req_initial(c1[i])                   );
+        if(i != 1) {
+          SEND  ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1)                            );
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],1)         );
+        }
+        if(i == 1) {
+          SEND  ( mphc_ncell_sync_ind_cell32()                       );
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],3)         );
+        }
+
+        SEND  ( mph_power_req_2()                                    );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mph_power_cnf_one_ncell()                            );
+
+        SEND  ( mph_bsic_req(ARFCN_32)                               );
+        AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)                );
+
+        SEND  ( mphc_ncell_sync_ind_cell32()                         );
+        AWAIT ( mph_bsic_cnf_cell32()                                );
+        AWAIT ( mphc_ncell_bcch_req_cell32(NCELL_BCCH_SI_3_4)        );
+
+        SEND  ( mph_neighbourcell_req_plmn_search(c1[i],c2[i])       );
+        MUTE  ( 500 );
+
+        SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_32)                    );
+        AWAIT ( mph_unitdata_ind_si3(ARFCN_32)                       );
+        AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_32)                   );
+        SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH)                    );
+
+        MUTE  ( 500 );
+      } HANDLE_DEACT;
+    }
+  }
+}
+#endif //GPRS
+
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the SIs GRR updates the
+ *              list of best ncells.
+ *
+ *-------------------------------------------------------------------------------*/
+
+#if defined GPRS
+T_CASE ALR280()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, SI reading, ncell list updated")
+  {
+    int i = 0;
+    U16 c1[] = { ARFCN_124, ARFCN_32,          ARFCN_124 };
+    U16 c2[] = { ARFCN_25,  NOT_PRESENT_16BIT, ARFCN_32  };
+
+    for (;i<sizeof(c1)/sizeof(c1[0]);i++) {
+      tdc_trace("Configuration i=%d, Cell1=%d Cell2=%d", i, c1[i], c2[i]);
+      TRAP_FOR_DEACT {
+        filter_and_routings_gsm_900__alr000();
+        initiation_by_rr_4_channels_available_alr001();
+        find_bcch_carrier_first_channel_alr003();
+        read_bcch_data_alr007();
+        rr_select_first_channel_gprs_pbcch(VAR_NMO_1);
+
+        SEND  ( mph_neighbourcell_req_plmn_search(c1[i])                  );
+        AWAIT ( mphc_ncell_sync_req_initial(c1[i])                        );
+        SEND  ( mphc_ncell_sync_ind_failed(c1[i])                         );
+        if(i != 1) {
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],NOT_PRESENT_8BIT) );
+        }
+        if(i == 1) {
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],NOT_PRESENT_8BIT) );
+        }
+
+        SEND  ( mph_power_req_2()                                         );
+        AWAIT ( mphc_rxlev_req()                                          );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                               );
+        AWAIT ( mphc_rxlev_req()                                          );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                               );
+        AWAIT ( mphc_rxlev_req()                                          );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                               );
+        AWAIT ( mphc_rxlev_req()                                          );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                               );
+        AWAIT ( mphc_rxlev_req()                                          );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                               );
+        AWAIT ( mph_power_cnf_one_ncell()                                 );
+
+        SEND  ( mph_bsic_req(ARFCN_32)                                    );
+        AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)                     );
+
+        SEND  ( mphc_ncell_sync_ind_cell32()                              );
+        AWAIT ( mph_bsic_cnf_cell32()                                     );
+        AWAIT ( mphc_ncell_bcch_req_cell32(NCELL_BCCH_SI_3_4)             );
+        SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_32)                         );
+        AWAIT ( mph_unitdata_ind_si3(ARFCN_32)                            );
+        AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_32)                        );
+
+        SEND  ( mph_neighbourcell_req_plmn_search(NOT_PRESENT_16BIT)      );
+        AWAIT ( mph_measurement_ind_plmn_search  (c1[i],MPH_BSIC_UNKNOWN) );
+
+        SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH)                         );
+
+        MUTE  ( 500 );
+      } HANDLE_DEACT;
+    }
+  }
+}
+#endif //GPRS
+/*-------------------------------------------------------------------------------
+ *
+ * Description: The MS is camped on a cell with PBCCH. Then MM starts a parallel
+ *              PLMN search. While waiting for the Sis GRR updates the
+ *              list of best ncells.
+ *
+ *-------------------------------------------------------------------------------*/
+
+#if defined GPRS
+T_CASE ALR281()
+{
+  BEGIN_CASE ("PBCCH, parallel PLMN search, SI reading, ncell list updated")
+  {
+    int i = 0;
+    U16 c1[] = { ARFCN_124, ARFCN_32,          ARFCN_124 };
+    U16 c2[] = { ARFCN_25,  NOT_PRESENT_16BIT, ARFCN_32  };
+
+    for (;i<sizeof(c1)/sizeof(c1[0]);i++) {
+      tdc_trace("Configuration i=%d, Cell1=%d Cell2=%d", i, c1[i], c2[i]);
+      TRAP_FOR_DEACT {
+        filter_and_routings_gsm_900__alr000();
+        initiation_by_rr_4_channels_available_alr001();
+        find_bcch_carrier_first_channel_alr003();
+        read_bcch_data_alr007();
+        rr_select_first_channel_gprs_pbcch(VAR_NMO_1);
+
+        SEND  ( mph_neighbourcell_req_plmn_search(c1[i])                  );
+        AWAIT ( mphc_ncell_sync_req_initial(c1[i])                        );
+        SEND  ( mphc_ncell_sync_ind_failed(c1[i])                         );
+        if(i != 1) {
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],NOT_PRESENT_8BIT) );
+        }
+        if(i == 1) {
+          AWAIT ( mph_measurement_ind_plmn_search  (c1[i],NOT_PRESENT_8BIT) );
+        }
+
+        SEND  ( mph_power_req_2()                                    );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mphc_rxlev_req()                                     );
+
+        SEND  ( mphc_rxlev_ind(RXLEV_IDX_8)                          );
+        AWAIT ( mph_power_cnf_one_ncell()                            );
+
+        SEND  ( mph_bsic_req(ARFCN_32)                               );
+        AWAIT ( mphc_ncell_sync_req_initial(ARFCN_32)                );
+
+        SEND  ( mphc_ncell_sync_ind_cell32()                         );
+        AWAIT ( mph_bsic_cnf_cell32()                                );
+        AWAIT ( mphc_ncell_bcch_req_cell32(NCELL_BCCH_SI_3_4)        );
+        SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_32)                    );
+        AWAIT ( mph_unitdata_ind_si3(ARFCN_32)                       );
+        AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_32)                   );
+
+        SEND  ( mph_neighbourcell_req_plmn_search(c1[i],c2[i])       );
+        MUTE  ( 500 );
+
+        SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH)                    );
+
+        MUTE  ( 500 );
+      } HANDLE_DEACT;
+    }
+  }
+}
+#endif  // GPRS
+
+/*------------------------Following is for ALR602-------------------------------
+ *
+ * Description:	RR starts a cell selection. No channel is available.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR602()
+{
+  BEGIN_CASE ("initiation_by_rr_no_channels_available_alr602")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_dualband_gsm_900_dcs_1800__alr600();
+
+      SEND  ( mph_power_req_4()    );
+      AWAIT ( mphc_init_l1_req_4() );
+      SEND  ( mphc_init_l1_con_1() );
+      AWAIT ( mphc_rxlev_req()   );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2_DUAL)   );
+      AWAIT ( mphc_rxlev_req()   );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2_DUAL)   );
+      AWAIT ( mphc_rxlev_req()   );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2_DUAL)   );
+      AWAIT ( mphc_rxlev_req()   );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2_DUAL)   );
+      AWAIT ( mphc_rxlev_req()   );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2_DUAL)   );
+      AWAIT ( mph_power_cnf_2()    );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR605-------------------------------
+ *
+ * Description:	All synchronization attempts to the available channels are failed.
+ *              RR is informed by an error indication with the cause no BCCH available.
+ ---------------------------------------------------------------------------------*/
+
+T_CASE ALR605()
+{
+  BEGIN_CASE ("find_bcch_carrier_all_channels_failed_then_error_indication_alr605")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_8_channels_available_alr601();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr604();
+
+      SEND  ( mphc_network_sync_ind_failed(ARFCN_637) );
+      AWAIT ( mph_bsic_cnf_failed(ARFCN_637_STD_DUAL) );
+
+      SEND  ( mph_bsic_req(ARFCN_14_STD_DUAL)         );
+      AWAIT ( mphc_network_sync_req(ARFCN_14, SM_WIDE_MODE)         );
+      SEND  ( mphc_network_sync_ind_failed(ARFCN_14)  );
+      AWAIT ( mph_bsic_cnf_failed(ARFCN_14_STD_DUAL)  );
+
+      SEND  ( mph_bsic_req(ARFCN_580_STD_DUAL)        );
+      AWAIT ( mphc_network_sync_req(ARFCN_580, SM_WIDE_MODE)        );
+      SEND  ( mphc_network_sync_ind_failed(ARFCN_580) );
+      AWAIT ( mph_bsic_cnf_failed(ARFCN_580_STD_DUAL) );
+
+      SEND  ( mph_bsic_req(ARFCN_124_STD_DUAL)        );
+      AWAIT ( mphc_network_sync_req(ARFCN_124, SM_WIDE_MODE)        );
+      SEND  ( mphc_network_sync_ind_failed(ARFCN_124) );
+      AWAIT ( mph_bsic_cnf_failed(ARFCN_124_STD_DUAL) );
+
+      SEND  ( mph_bsic_req(ARFCN_885_STD_DUAL)        );
+      AWAIT ( mphc_network_sync_req(ARFCN_885, SM_WIDE_MODE)        );
+      SEND  ( mphc_network_sync_ind_failed(ARFCN_885) );
+      AWAIT ( mph_bsic_cnf_failed(ARFCN_885_STD_DUAL) );
+
+      SEND  ( mph_bsic_req(ARFCN_512_STD_DUAL)        );
+      AWAIT ( mphc_network_sync_req(ARFCN_512, SM_WIDE_MODE)        );
+      SEND  ( mphc_network_sync_ind_failed(ARFCN_512) );
+      AWAIT ( mph_bsic_cnf_failed(ARFCN_512_STD_DUAL) );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR608-------------------------------
+ *
+ * Description:	A failed BCCH data block is read.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR608()
+{
+  BEGIN_CASE ("read_failed_bcch_data_alr608")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_8_channels_available_alr601();
+      find_bcch_carrier_first_channel_alr603();
+      read_bcch_data_alr607();
+
+      SEND  ( mphc_data_ind_5()    );
+      AWAIT ( mph_error_ind_1()    );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR611-------------------------------
+ *
+ * Description:	RR rejects the BCCH carrier. The next best channel (channel 14) is
+ *              selected for synchronizing to frequency correction burst and
+ *              synchron burst. RR rejects the BCCH carrier. The next best
+ *              channel (channel 580) is selected for synchronizing to
+ *              frequency correction burst and synchron burst.
+ *              RR rejects the BCCH carrier. No further channel is available.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR611()
+{
+  BEGIN_CASE ("rr_rejects_bcch_carrier_no_further_channel_available_alr611")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_8_channels_available_alr601();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr604();
+      find_bcch_carrier_second_channel_alr606();
+
+      SEND  ( mph_bsic_req(ARFCN_14_STD_DUAL)            );
+      AWAIT ( mphc_stop_scell_bcch_req() );
+      AWAIT ( mphc_network_sync_req(ARFCN_14, SM_NARROW_MODE)    );
+      SEND  ( mphc_network_sync_ind_6()    );
+      AWAIT ( mph_bsic_cnf_34()            );
+      AWAIT ( mphc_new_scell_req_2()       );
+      SEND  ( mphc_new_scell_con_1()       );
+      AWAIT ( mphc_scell_nbcch_req_full()     );
+      SEND  ( mphc_data_ind_49()           );
+      AWAIT ( mph_unitdata_ind_si1(ARFCN_14)        );
+      SEND  ( mph_bsic_req(ARFCN_580_STD_DUAL)            );
+      AWAIT ( mphc_stop_scell_bcch_req() );
+      AWAIT ( mphc_network_sync_req(ARFCN_580, SM_NARROW_MODE)    );
+      SEND  ( mphc_network_sync_ind_14()   );
+      AWAIT ( mph_bsic_cnf_35()            );
+      AWAIT ( mphc_new_scell_req_6()       );
+      SEND  ( mphc_new_scell_con_1()       );
+      AWAIT ( mphc_scell_nbcch_req_full()     );
+      SEND  ( mphc_data_ind_50()           );
+      AWAIT ( mph_unitdata_ind_si1(ARFCN_580)        );
+      SEND  ( mph_bsic_req(NOT_PRESENT_16BIT)             );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR612-------------------------------
+ *
+ * Description:	RR selects the channel 637 after reading the BCCH carrier.
+ * Variant A: with neighbourcell list
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR612A()
+{
+  BEGIN_CASE ("rr_select_second_channel_alr612a")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_8_channels_available_alr601();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr604();
+      find_bcch_carrier_second_channel_alr606();
+      rr_select_second_channel_alr612('A');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR612-------------------------------
+ *
+ * Description:	RR selects the channel 637 after reading the BCCH carrier.
+ * Variant B: with empty neighbour cell list
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR612B()
+{
+  BEGIN_CASE ("rr_select_second_channel_alr612b")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_8_channels_available_alr601();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr604();
+      find_bcch_carrier_second_channel_alr606();
+      rr_select_second_channel_alr612('B');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR615-------------------------------
+ *
+ * Description:	RR has started a cell selection. During power measurements
+ *              a new activation of cell selection is started by RR.
+ *              The power measurement is restarted.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR615()
+{
+  BEGIN_CASE ("re_initiation_of_cell_selection_during_measurements_alr615")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_dualband_gsm_900_dcs_1800__alr600();
+
+      SEND  ( mph_power_req_4()     );
+      AWAIT ( mphc_init_l1_req_4()  );
+      SEND  ( mphc_init_l1_con_1()  );
+      AWAIT ( mphc_rxlev_req()    );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_DUAL)    );
+      AWAIT ( mphc_rxlev_req()    );
+      SEND  ( mph_power_req_4()     );
+      AWAIT ( mphc_stop_rxlev_req() );
+      AWAIT ( mphc_init_l1_req_4()  );
+      SEND  ( mphc_init_l1_con_1()  );
+      AWAIT ( mphc_rxlev_req()    );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_DUAL)    );
+      AWAIT ( mphc_rxlev_req()    );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_DUAL)    );
+      AWAIT ( mphc_rxlev_req()    );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_DUAL)    );
+      AWAIT ( mphc_rxlev_req()    );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_DUAL)    );
+      AWAIT ( mphc_rxlev_req()    );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_DUAL)    );
+      AWAIT ( mph_power_cnf_5()     );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR617-------------------------------
+ *
+ * Description:	During BCCH reading RR restarts a cell selection. This leads
+ *              to a new full power measurement cycle.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR617()
+{
+  BEGIN_CASE ("re_initiation_of_cell_selection_during_bcch_reading_alr617")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_8_channels_available_alr601();
+      find_bcch_carrier_first_channel_alr603();
+      read_bcch_data_alr607();
+
+      SEND  ( mph_sync_req(CS_STOP_BCCH_READING)             );
+      AWAIT ( mphc_stop_scell_bcch_req() );
+      SEND  ( mph_power_req_4()            );
+      AWAIT ( mphc_init_l1_req_4()         );
+      SEND  ( mphc_init_l1_con_1()         );
+      AWAIT ( mphc_rxlev_req()           );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_DUAL)           );
+      AWAIT ( mphc_rxlev_req()           );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_DUAL)           );
+      AWAIT ( mphc_rxlev_req()           );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_DUAL)           );
+      AWAIT ( mphc_rxlev_req()           );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_DUAL)           );
+      AWAIT ( mphc_rxlev_req()           );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_DUAL)           );
+      AWAIT ( mph_power_cnf_5()            );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR644-------------------------------
+ *
+ * Description:	RR selects the channel 23 after reading the BCCH carrier.
+ *            	The idle mode is stopped if a normal cell selection is initiated.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR644()
+{
+  BEGIN_CASE ("stop_idle_mode_by_normal_cell_selection_alr644")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_8_channels_available_alr601();
+      find_bcch_carrier_first_channel_alr603();
+
+      SEND  ( mph_classmark_req_3()          );
+      SEND  ( mph_idle_req_10()              );
+      AWAIT ( mphc_stop_scell_bcch_req()     );
+      AWAIT ( mphc_start_ccch_req_10()       );
+      AWAIT ( mphc_scell_nbcch_req_full()    );
+      SEND  ( mph_identity_req_1()           );
+      SEND  ( mph_cbch_req_1()               );
+      SEND  ( mph_neighbourcell_req_8()      );
+      AWAIT ( mphc_rxlev_periodic_req_8()    );
+      SEND  ( mph_power_req_4()              );
+      AWAIT ( mphc_stop_scell_bcch_req()     );
+      AWAIT ( mphc_stop_ccch_req()           );
+      AWAIT ( mphc_stop_rxlev_periodic_req() );
+      AWAIT ( mphc_stop_scell_bcch_req()     );
+      AWAIT ( mphc_init_l1_req_4()           );
+      SEND  ( mphc_init_l1_con_1()           );
+      AWAIT ( mphc_rxlev_req()               );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR650-------------------------------
+ *
+ * Description:	The multiband parameter is set to 0, that means the neighbourcells
+ *              are ranked after the fieldstrength. The serving cell is 23
+ *              (that means in the GSM 900 frequency band). The neighbourcell list
+ *              contains eight channels : 1, 14, 25, 124, 512 580, 637 and 885.
+ *              It is expected, that ALR starts synchronization to the six
+ *              strongest cells 637, 25, 14, 512, 580, 885. This channels must
+ *              be included in the measurement report to RR.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR650()
+{
+  BEGIN_CASE ("multiband_0_serving_cell_is_gsm_900_8_channels_alr650")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_8_channels_available_alr601();
+      find_bcch_carrier_first_channel_alr603();
+      read_bcch_data_alr607();
+
+      SEND  ( mph_classmark_req_3()                  );
+      SEND  ( mph_idle_req_11()                      );
+      AWAIT ( mphc_stop_scell_bcch_req()             );
+      AWAIT ( mphc_start_ccch_req_9()                );
+      AWAIT ( mphc_scell_nbcch_req_full()            );
+      SEND  ( mph_neighbourcell_req_9()              );
+      AWAIT ( mphc_rxlev_periodic_req_9()            );
+
+      ncell_reporting_multiband_0_scell_is_gsm900();
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR651-------------------------------
+ *
+ * Description:	The multiband parameter is set to 0, that means the neighbourcells
+ *              are ranked after the fieldstrength. The serving cell is 578
+ *              (that means in the DCS 1800 frequency band). The neighbourcell list
+ *              contains eight channels : 1, 14, 25, 124, 512 580, 637 and 885. It is
+ *              expected, that ALR starts synchronization to the six strongest cells
+ *              14, 25, 512, 580, 637, 885. These channels must be included in
+ *              the measurement report to RR.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR651()
+{
+  BEGIN_CASE ("multiband_0_serving_cell_is_dcs_1800_8_channels_alr651")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_8_channels_available_alr601();
+      find_bcch_carrier_first_channel_alr603();
+      read_bcch_data_alr607();
+
+      SEND  ( mph_classmark_req_3()                  );
+      SEND  ( mph_idle_req_12()                      );
+      AWAIT ( mphc_stop_scell_bcch_req()             );
+      AWAIT ( mphc_start_ccch_req_9()                );
+      AWAIT ( mphc_scell_nbcch_req_full()            );
+      SEND  ( mph_neighbourcell_req_9()              );
+      AWAIT ( mphc_rxlev_periodic_req_10()           );
+
+      ncell_reporting_multiband_0_scell_is_gsm1800();
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR652-------------------------------
+ *
+ * Description:	The multiband parameter is set to 1, that means at least one of
+ *              the neighbourcells is member of the non-serving cell band
+ *              (that means in the DCS 1800 frequency band). The serving cell
+ *              is 23 (that means in the GSM 900 frequency band). The neighbourcell
+ *              list contains eight channels : 1, 11, 14, 25,87, 124, 512 and 885.
+ *              It is expected, that ALR starts synchronization to the six
+ *              cells 14, 87, 25, 11, 1 and 512. This channels must be included
+ *              in the measurement report to RR. ALR shall not synchronize to 885,
+ *              although the cell has a better fieldstrength than most channels
+ *              of the GSM 900 frequency band.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR652()
+{
+  BEGIN_CASE ("multiband_1_serving_cell_is_gsm_900_8_channels_alr652")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_8_channels_available_alr601();
+      find_bcch_carrier_first_channel_alr603();
+      read_bcch_data_alr607();
+
+      SEND  ( mph_classmark_req_3()         );
+      SEND  ( mph_idle_req_11()             );
+      AWAIT ( mphc_stop_scell_bcch_req()    );
+      AWAIT ( mphc_start_ccch_req_9()       );
+      AWAIT ( mphc_scell_nbcch_req_full()   );
+      SEND  ( mph_neighbourcell_req_10()    );
+      AWAIT ( mphc_rxlev_periodic_req_11()  );
+
+      ncell_reporting_multiband_1_scell_is_gsm900();
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR653-------------------------------
+ *
+ * Description:	The multiband parameter is set to 1, that at least one of the
+ *              neighbourcells is member of the non-serving cell band (that means
+ *              in the DCS 1800 frequency band). The serving cell is 23 (that means
+ *              in the GSM 900 frequency band). The neighbourcell list contains four
+ *              channels : 1, 14, 512 and 885. It is expected, that ALR starts
+ *              synchronization to the six cells 1, 14, 512 and 885.
+ *              This channels must be included in the measurement report to RR.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR653()
+{
+  BEGIN_CASE ("multiband_1_serving_cell_is_gsm_900_4_channels_alr653")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_8_channels_available_alr601();
+      find_bcch_carrier_first_channel_alr603();
+      read_bcch_data_alr607();
+
+      SEND  ( mph_classmark_req_3()         );
+      SEND  ( mph_idle_req_11()             );
+      AWAIT ( mphc_stop_scell_bcch_req()    );
+      AWAIT ( mphc_start_ccch_req_9()       );
+      AWAIT ( mphc_scell_nbcch_req_full()   );
+      SEND  ( mph_neighbourcell_req_11()    );
+      AWAIT ( mphc_rxlev_periodic_req_12()  );
+
+      ncell_reporting_multiband_1_scell_is_gsm900_4ch();
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR654-------------------------------
+ *
+ * Description:	The multiband parameter is set to 1, that at least one of the
+ *              neighbourcells is member of the non-serving cell band (that means
+ *              in the GSM 900 frequency band). The serving cell is 637 (that means
+ *              in the DCS 1800 frequency band). The neighbourcell list contains eight
+ *              channels: 1, 14, 512, 513, 600, 700, 810 and 885. It is expected,
+ *              that ALR starts synchronization to the six cells 14, 513, 600,
+ *              700, 810 and 885. This channels must be included in the measurement
+ *              report to RR. ALR shall not synchronize to 1, although the cell has
+ *              a better fieldstrength than the most channels of the DCS 1800
+ *              frequency band.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR654()
+{
+  BEGIN_CASE ("multiband_1_serving_cell_is_dcs_1800_8_channels_alr654")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_8_channels_available_alr601();
+      find_bcch_carrier_first_channel_alr603();
+      read_bcch_data_alr607();
+
+      SEND  ( mph_classmark_req_3()                  );
+      SEND  ( mph_idle_req_13()                      );
+      AWAIT ( mphc_stop_scell_bcch_req()             );
+      AWAIT ( mphc_start_ccch_req_9()                );
+      AWAIT ( mphc_scell_nbcch_req_full()            );
+      SEND  ( mph_neighbourcell_req_12()             );
+      AWAIT ( mphc_rxlev_periodic_req_13()           );
+      SEND  ( mphc_rxlev_periodic_ind_7()            );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14)  );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_700) );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_600) );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_513) );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_810) );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_885) );
+      SEND  ( mphc_rxlev_periodic_ind_7()            );
+      AWAIT ( mph_measurement_ind_26()               );
+      SEND  ( mphc_ncell_sync_ind (ARFCN_14)         );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_14)         );
+      SEND  ( mphc_ncell_sync_ind (ARFCN_700)        );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_700)        );
+      SEND  ( mphc_ncell_sync_ind (ARFCN_600)        );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_600)        );
+      SEND  ( mphc_ncell_sync_ind (ARFCN_513)        );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_513)        );
+      SEND  ( mphc_ncell_sync_ind (ARFCN_810)        );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_810)        );
+      SEND  ( mphc_ncell_sync_ind (ARFCN_885)        );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_885)        );
+      SEND  ( mphc_rxlev_periodic_ind_7()            );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_14)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14)     );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_700)     );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_700)    );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_600)     );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_600)    );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_513)     );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_513)    );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_810)     );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_810)    );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_885)     );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_885)    );
+      SEND  ( mphc_rxlev_periodic_ind_7()            );
+      SEND  ( mphc_rxlev_periodic_ind_7()            );
+      AWAIT ( mph_measurement_ind_27()               );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_14)         );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_513)        );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_600)        );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_700)        );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_810)        );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_885)        );
+      SEND  ( mphc_rxlev_periodic_ind_7()            );
+      SEND  ( mphc_rxlev_periodic_ind_7()            );
+      SEND  ( mphc_rxlev_periodic_ind_7()            );
+      AWAIT ( mph_measurement_ind_27()               );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR655-------------------------------
+ *
+ * Description:	The multiband parameter is set to 1, that at least one of the
+ *              neighbourcells is member of the non-serving cell band (that means
+ *              in the GSM 900 frequency band). The serving cell is 637 (that means
+ *              in the DCS 1800 frequency band). The neighbourcell list contains
+ *              four channels: 1, 14, 512 and 885. It is expected, that ALR starts
+ *              synchronization to the six cells 1, 14, 512 and 885. This channels
+ *              must be included in the measurement report to RR.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR655()
+{
+  BEGIN_CASE ("multiband_1_serving_cell_is_dcs_1800_4_channels_alr655")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_8_channels_available_alr601();
+      find_bcch_carrier_first_channel_alr603();
+      read_bcch_data_alr607();
+
+      SEND  ( mph_classmark_req_3()                  );
+      SEND  ( mph_idle_req_13()                      );
+      AWAIT ( mphc_stop_scell_bcch_req()             );
+      AWAIT ( mphc_start_ccch_req_9()                );
+      AWAIT ( mphc_scell_nbcch_req_full()            );
+      SEND  ( mph_neighbourcell_req_11()             );
+      AWAIT ( mphc_rxlev_periodic_req_14()           );
+      SEND  ( mphc_rxlev_periodic_ind_8()            );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14)  );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_512) );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_885) );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1)   );
+      SEND  ( mphc_rxlev_periodic_ind_8()            );
+      AWAIT ( mph_measurement_ind_26()               );
+      SEND  ( mphc_ncell_sync_ind (ARFCN_14)                );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_14)                );
+      SEND  ( mphc_ncell_sync_ind (ARFCN_512)               );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_512)               );
+      SEND  ( mphc_ncell_sync_ind (ARFCN_885)               );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_885)               );
+      SEND  ( mphc_ncell_sync_ind (ARFCN_1)               );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_1)               );
+      SEND  ( mphc_rxlev_periodic_ind_8()            );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_14)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14)     );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_512)     );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_512)    );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_885)     );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_885)    );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_1)       );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1)      );
+      SEND  ( mphc_rxlev_periodic_ind_8()            );
+      SEND  ( mphc_rxlev_periodic_ind_8()            );
+      AWAIT ( mph_measurement_ind_28()               );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_1)          );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_14)         );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_512)        );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_885)        );
+      SEND  ( mphc_rxlev_periodic_ind_8()            );
+      SEND  ( mphc_rxlev_periodic_ind_8()            );
+      SEND  ( mphc_rxlev_periodic_ind_8()            );
+      AWAIT ( mph_measurement_ind_28()               );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR700-------------------------------
+ *
+ * Description:	The idle mode is configured with Paging Reorganisation. After
+ *              reception of the paging mode Paging Reorganisation no change
+ *              occurs (received with an immediate assignment extended
+ *              message. Then the mobile is paged with a paging request 2 message.
+ *              It is expected that the paging is detected by the mobile.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR700()
+{
+  BEGIN_CASE ("page_mode_change_according_26_6_2_3_1_alr700")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+
+      SEND  ( mphc_data_ind_51()              );
+      SEND  ( mphc_data_ind_52()              );
+      AWAIT ( mph_paging_ind_7()              );
+      AWAIT ( mphc_start_ccch_req_8()         );
+      AWAIT ( mphc_scell_nbcch_req_periodic() );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR701-------------------------------
+ *
+ * Description:	A handover is performed. It is checked that the serving cell
+ *              channel numbers are correctly set.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR701()
+{
+  BEGIN_CASE ("channel_mode_modify_request_amr_half_rate_alr701")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      start_of_sending_channel_request_messages_gsm_900__alr055();
+      immediate_assignment_for_the_mobile_station_alr056();
+
+      SEND  ( mph_channel_mode_req_1()         );
+      AWAIT ( mphc_channel_mode_modify_req_1() );
+      SEND  ( mphc_channel_mode_modify_con_1() );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR800-------------------------------
+ *
+ * Description:	The CBCH channel is configured. Then MMI requests reading of CBCH
+ *              for the message identifier 3, 7 and 11 to 13.
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR800A()
+{
+  BEGIN_CASE ("configuration_cbch_followed_by_mmi_request_alr800a")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      configuration_cbch_followed_by_mmi_request_alr800('A');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR800-------------------------------
+ *
+ * Description:	The CBCH channel is configured. Then MMI requests reading of CBCH
+ *              for the message identifier 3, 7 and 11 to 13.
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR800B()
+{
+  BEGIN_CASE ("configuration_cbch_followed_by_mmi_request_alr800b")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      configuration_cbch_followed_by_mmi_request_alr800('B');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR801-------------------------------
+ *
+ * Description:	MMI requests reading of CBCH for the message identifier
+ *              3, 7 and 11 to 13. Then the CBCH channel is configured and
+ *              reading of CBCH starts.
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR801B()
+{
+  BEGIN_CASE ("mmi_request_followed_by_configuration_of_cbch_alr801b")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      mmi_request_followed_by_configuration_of_cbch_alr801('B');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR801-------------------------------
+ *
+ * Description:	MMI requests reading of CBCH for the message identifier
+ *              3, 7 and 11 to 13. Then the CBCH channel is configured and
+ *              reading of CBCH starts.
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR801C()
+{
+  BEGIN_CASE ("mmi_request_followed_by_configuration_of_cbch_alr801c")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      mmi_request_followed_by_configuration_of_cbch_alr801('C');
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR802-------------------------------
+ *
+ * Description:	ALR receives a NULL message. No further reaction is expected.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR802()
+{
+  BEGIN_CASE ("reception_of_null_message_alr802")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      mmi_request_followed_by_configuration_of_cbch_alr801('A');
+      SEND  ( mphc_data_ind_53()   );
+      MUTE(3000);
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR803-------------------------------
+ *
+ * Description:	ALR receives an expected CBCH message. The content is forwarded
+ *              to MMI.
+ * Variant A: single message identifier (7)
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR803A()
+{
+  BEGIN_CASE ("reception_of_expected_cbch_message_alr803a")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      mmi_request_followed_by_configuration_of_cbch_alr801('A');
+      COMMAND("PL REDIRECT MMI TAP");
+      reception_of_expected_cbch_message_alr803('A');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR803-------------------------------
+ *
+ * Description:	ALR receives an expected CBCH message. The content is forwarded
+ *              to MMI.
+ * Variant B: message identifier specified by range (11), lower boundary
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR803B()
+{
+  BEGIN_CASE ("reception_of_expected_cbch_message_alr803b")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      mmi_request_followed_by_configuration_of_cbch_alr801('A');
+      COMMAND("PL REDIRECT MMI TAP");
+      reception_of_expected_cbch_message_alr803('B');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR803-------------------------------
+ *
+ * Description:	ALR receives an expected CBCH message. The content is forwarded
+ *              to MMI.
+ * Variant C: message identifier specified by range (12), middle of the range
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR803C()
+{
+  BEGIN_CASE ("reception_of_expected_cbch_message_alr803c")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      mmi_request_followed_by_configuration_of_cbch_alr801('A');
+      COMMAND("PL REDIRECT MMI TAP");
+      reception_of_expected_cbch_message_alr803('C');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR803-------------------------------
+ *
+ * Description:	ALR receives an expected CBCH message. The content is forwarded
+ *              to MMI.
+ * Variant D: message identifier specified by range (13), upper boundary
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR803D()
+{
+  BEGIN_CASE ("reception_of_expected_cbch_message_alr803d")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      mmi_request_followed_by_configuration_of_cbch_alr801('A');
+      COMMAND("PL REDIRECT MMI TAP");
+      reception_of_expected_cbch_message_alr803('D');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR804-------------------------------
+ *
+ * Description:	ALR receives an unexpected CBCH message. No reaction is expected
+ *              after receiving the first block.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR804()
+{
+  BEGIN_CASE ("reception_of_unexpected_cbch_message_alr804")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      mmi_request_followed_by_configuration_of_cbch_alr801('A');
+
+      SEND  ( mphc_data_ind_58()   );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR805-------------------------------
+ *
+ * Description:	ALR receives an unscheduled SCHEDULE message. The content is used
+ *              for going into DRX mode.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR805()
+{
+  BEGIN_CASE ("reception_of_unscheduled_schedule_message_alr805")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      mmi_request_followed_by_configuration_of_cbch_alr801('A');
+
+      SEND  ( mphc_data_ind_59()         );
+      AWAIT ( mphc_cbch_info_req_1()     );
+      SEND  ( mphc_data_ind_60()         );
+      SEND  ( mphc_data_ind_61()         );
+      SEND  ( mphc_data_ind_62()         );
+      AWAIT ( mphc_cbch_schedule_req_3() );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR806-------------------------------
+ *
+ * Description:	to test handling of update number in CBCH messages
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR806()
+{
+  BEGIN_CASE ("handling_of_update_number_in_normal_cbch_NO_drx_state_alr806")
+  {
+   TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      mmi_request_followed_by_configuration_of_cbch_alr801('A');
+      COMMAND("PL REDIRECT MMI TAP");
+      reception_of_expected_cbch_message_alr803('A');
+      AWAIT ( mphc_cbch_info_req_2());
+
+      /* valid update number checked */
+      reception_of_expected_cbch_message_alr803('E');
+      AWAIT ( mphc_cbch_info_req_2());
+
+      /* invalid update number checked */
+      SEND  ( mphc_data_ind_54('F'));
+      MUTE  ( 500 );
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+/*------------------------Following is for ALR807-------------------------------
+ *
+ * Description:	to test handling of invalid sequence numbers
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR807()
+{
+  BEGIN_CASE ("handling_of__invalid_sequence_number_in_normal_cbch_in_no_drx_state_alr807")
+  {
+   TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      mmi_request_followed_by_configuration_of_cbch_alr801('A');
+      COMMAND("PL REDIRECT MMI TAP");
+
+      /* TB0 of Normal CBCH */
+      SEND  ( mphc_data_ind_54('A'));
+      AWAIT ( mphc_cbch_info_req_1());
+      /* Invalid sequence number in Normal CBCH */
+      SEND  ( mphc_data_ind_66());
+      AWAIT ( mphc_cbch_info_req_2()    );
+
+      reception_of_expected_cbch_message_alr803('A');
+
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR808-------------------------------
+ *
+ * Description:	to test handling of inverted sequence numbers
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR808()
+{
+  BEGIN_CASE ("handling_of_inverted_sequence_number_in_normal_cbch_in_no_drx_state_alr808")
+  {
+   TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      mmi_request_followed_by_configuration_of_cbch_alr801('A');
+      COMMAND("PL REDIRECT MMI TAP");
+
+      /* TB0 of Normal CBCH message*/
+      SEND  ( mphc_data_ind_54('A'));
+      AWAIT ( mphc_cbch_info_req_1());
+      /* TB3 of Normal CBCH message*/
+      SEND  ( mphc_data_ind_57());
+      AWAIT ( mphc_cbch_info_req_2());
+
+      /* TB0 of Normal CBCH message*/
+      SEND  ( mphc_data_ind_54('A'));
+      AWAIT ( mphc_cbch_info_req_1());
+      /* TB2 of Normal CBCH message*/
+      SEND  ( mphc_data_ind_56());
+      AWAIT ( mphc_cbch_info_req_2());
+
+      reception_of_expected_cbch_message_alr803('A');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR809-------------------------------
+ *
+ * Description:	to test handling of invalid sequence numbers in first CBCH Schedule message
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR809()
+{
+  BEGIN_CASE ("handling_of__invalid_sequence_number_in_cbch_schedule_message_in_NO_drx_state_alr809")
+  {
+   TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      mmi_request_followed_by_configuration_of_cbch_alr801('A');
+      COMMAND("PL REDIRECT MMI TAP");
+
+      /* TB0 of CBCH Schedule message*/
+      SEND  ( mphc_data_ind_67());
+      AWAIT ( mphc_cbch_info_req_1());
+      /* TB1 of CBCH Schedule message*/
+      SEND  ( mphc_data_ind_60());
+      /* invalid sequence number */
+      SEND  ( mphc_data_ind_66());
+      AWAIT ( mphc_cbch_info_req_2());
+
+      reception_of_cbch_schedule_message_alr809('A');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR810-------------------------------
+ *
+ * Description:	to test handling of inverted sequence numbers
+ *                         on a CBCH Schedule message in NO_DRX states
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR810()
+{
+  BEGIN_CASE ("handling_of_inverted_sequence_number_in_cbch_schedule_message_in_NO_drx_state_alr810")
+  {
+   TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      mmi_request_followed_by_configuration_of_cbch_alr801('A');
+      COMMAND("PL REDIRECT MMI TAP");
+      /* TB0 of CBCH Schedule message*/
+      SEND  ( mphc_data_ind_67());
+      AWAIT ( mphc_cbch_info_req_1());
+      /* TB3 of CBCH Schedule message*/
+      SEND  ( mphc_data_ind_62());
+      AWAIT ( mphc_cbch_info_req_2());
+
+      /* TB0 of CBCH Schedule message*/
+      SEND  ( mphc_data_ind_67());
+      AWAIT ( mphc_cbch_info_req_1());
+      /* TB2 of CBCH Schedule message*/
+      SEND  ( mphc_data_ind_61());
+      AWAIT ( mphc_cbch_info_req_2());
+
+      reception_of_cbch_schedule_message_alr809('A');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR811-------------------------------
+ *
+ * Description:	Enter DRX state
+ *				1) Receive CBCH messages as per to new CBCH blocks specified in
+ *				the CBCH Schedule new message bitmap
+ *				2) A scheduled CBCH Schedule message is recvd with invalid sequence number
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR811()
+{
+  BEGIN_CASE ("handling_of__invalid_sequence_number_in_cbch_schedule_message_in_drx_state_alr811")
+  {
+   TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      mmi_request_followed_by_configuration_of_cbch_alr801('A');
+      COMMAND("PL REDIRECT MMI TAP");
+      /* Enter DRX State */
+      reception_of_cbch_schedule_message_alr809('A');
+
+      /* Reception of 4 Normal CBCH message, some marked NEW and some OLD*/
+      reception_of_expected_cbch_message_alr803('A');
+      AWAIT ( mphc_cbch_info_req_2());
+      SEND  ( mphc_data_ind_54('A'));
+      SEND  ( mphc_data_ind_54('A'));
+      SEND  ( mphc_data_ind_54('A'));
+      SEND  ( mphc_data_ind_54('A'));
+
+      /* CBCH schedule message expected */
+      MUTE(2000);
+
+      /* TB0 of CBCH Schedule message*/
+      SEND  ( mphc_data_ind_67());
+      AWAIT ( mphc_cbch_info_req_1());
+      SEND  ( mphc_data_ind_60());
+      /* invalid sequence number */
+      SEND  ( mphc_data_ind_66());
+      AWAIT ( mphc_cbch_info_req_2());
+      AWAIT ( mphc_cbch_schedule_req_1());
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR812-------------------------------
+ *
+ * Description:	Enter DRX state
+ *				1) Receive CBCH messages as per to new CBCH blocks specified in
+ *				the CBCH Schedule new message bitmap
+ *				2) A scheduled CBCH Schedule message is recvd with inverted sequence number
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR812()
+{
+  BEGIN_CASE ("handling_of_inverted_sequence_number_in_cbch_schedule_message_in_drx_state_alr812")
+  {
+   TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      mmi_request_followed_by_configuration_of_cbch_alr801('A');
+      COMMAND("PL REDIRECT MMI TAP");
+      /* Enter DRX State */
+      reception_of_cbch_schedule_message_alr809('A');
+
+      /* Reception of 5 Normal CBCH message, some marked NEW and some OLD*/
+      reception_of_expected_cbch_message_alr803('A');
+      AWAIT ( mphc_cbch_info_req_2());
+      SEND  ( mphc_data_ind_54('A'));
+      SEND  ( mphc_data_ind_54('A'));
+      SEND  ( mphc_data_ind_54('A'));
+      SEND  ( mphc_data_ind_54('A'));
+
+      /* CBCH schedule message expected */
+      MUTE (2000);
+
+
+      /* TB0 of CBCH Schedule message*/
+      SEND  ( mphc_data_ind_67());
+      AWAIT ( mphc_cbch_info_req_1());
+      SEND  ( mphc_data_ind_60());
+      /* inverted sequence number */
+      SEND  ( mphc_data_ind_62());
+      AWAIT ( mphc_cbch_info_req_2());
+      AWAIT ( mphc_cbch_schedule_req_1());
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR813-------------------------------
+ *
+ * Description:	Enter DRX state
+ *				1) invalid sequence number in normal cbch
+ *				2) inverted sequence number in normal cbch
+ *				3) Check entry into 2nd DRX mode
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR813()
+{
+  BEGIN_CASE ("handling_of_error_in_sequence_number_in_normal_cbch_in_drx_state_alr813")
+  {
+   TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      mmi_request_followed_by_configuration_of_cbch_alr801('A');
+      COMMAND("PL REDIRECT MMI TAP");
+      /* Enter DRX */
+      reception_of_cbch_schedule_message_alr809('A');
+
+      /* invalid sequence error */
+      SEND  ( mphc_data_ind_54('A'));
+      AWAIT ( mphc_cbch_info_req_1());
+      SEND  ( mphc_data_ind_66());
+      AWAIT ( mphc_cbch_info_req_2()    );
+
+      /* inverted sequence number */
+      SEND  ( mphc_data_ind_54('A'));
+      AWAIT ( mphc_cbch_info_req_1());
+      SEND  ( mphc_data_ind_56());
+      AWAIT ( mphc_cbch_info_req_2());
+
+      reception_of_expected_cbch_message_alr803('A');
+      AWAIT ( mphc_cbch_info_req_2());
+      SEND  ( mphc_data_ind_54('A'));
+      SEND  ( mphc_data_ind_54('A'));
+      MUTE  (2000);
+
+      /* Entry into 2nd DRX mode */
+      reception_of_cbch_schedule_message_alr809('B');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR814-------------------------------
+ *
+ * Description:	Enter DRX state
+ * 				1) handling of cb_error_ind
+ *				2) Check entry into 2nd DRX mode
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR814()
+{
+  BEGIN_CASE ("handling_of_errors_in_L2_frame_in_normal_cbch_in_drx_state_alr814")
+  {
+   TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      mmi_request_followed_by_configuration_of_cbch_alr801('A');
+      COMMAND("PL REDIRECT MMI TAP");
+      /* Enter DRX */
+      reception_of_cbch_schedule_message_alr809('A');
+
+      SEND  ( mphc_data_ind_54('A'));
+      AWAIT ( mphc_cbch_info_req_1());
+      /* error_flag = TURE */
+      SEND  ( mphc_data_ind_68('A'));
+      AWAIT ( mphc_cbch_info_req_2()    );
+
+      reception_of_expected_cbch_message_alr803('A');
+      AWAIT ( mphc_cbch_info_req_2());
+      SEND  ( mphc_data_ind_54('A'));
+      SEND  ( mphc_data_ind_54('A'));
+      SEND  ( mphc_data_ind_54('A'));
+      MUTE  (2000);
+
+      /* Entry into 2nd DRX mode */
+      reception_of_cbch_schedule_message_alr809('B');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR815-------------------------------
+ *
+ * Description:	Enter DRX state
+ * 				1) handling of inverted sequence error in unscheduled schedule message
+ *                         2) handling of invalid sequence error in unscheduled schedule message
+ *				3) Check entry into 2nd DRX mode
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR815()
+{
+  BEGIN_CASE ("handling_of_error_in_unscheduled_cbch_schedule_message_in_drx_state_alr815")
+  {
+   TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      mmi_request_followed_by_configuration_of_cbch_alr801('A');
+      COMMAND("PL REDIRECT MMI TAP");
+
+      /* Enter DRX State */
+      reception_of_cbch_schedule_message_alr809('A');
+
+      /* inverted sequence number in an unscheduled schedule message */
+      SEND  ( mphc_data_ind_59()         );
+      AWAIT ( mphc_cbch_info_req_1()     );
+      SEND  ( mphc_data_ind_61()         );
+      AWAIT ( mphc_cbch_info_req_2()    );
+
+      /* invalid sequence number in an unscheduled schedule message */
+      SEND  ( mphc_data_ind_59()         );
+      AWAIT ( mphc_cbch_info_req_1()     );
+      SEND  ( mphc_data_ind_66()         );
+      AWAIT ( mphc_cbch_info_req_2()    );
+
+      reception_of_expected_cbch_message_alr803('A');
+      AWAIT ( mphc_cbch_info_req_2());
+      SEND  ( mphc_data_ind_54('A'));
+      SEND  ( mphc_data_ind_54('A'));
+      MUTE  (2000);
+
+
+      /* Entry into 2nd DRX  */
+      reception_of_cbch_schedule_message_alr809('B');
+    } HANDLE_DEACT;
+  }
+}
+/*------------------------Following is for ALR816-------------------------------
+ *
+ * Description:	Enter DRX state
+ * 				1) Recv all new messages
+ *				2) Recv a NORMAL CBCH message when a scheduled schedule message is
+ *                             expected
+ *                         3) NO_DRX_STATE should be entered
+ *                         4) Recv a CBCH Schedule message
+ *                         5) Enter DRX mode (First DRX )
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR816()
+{
+  BEGIN_CASE ("handling_of_missing_scheduled_cbch_schedule_message_816")
+  {
+   TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      mmi_request_followed_by_configuration_of_cbch_alr801('A');
+      COMMAND("PL REDIRECT MMI TAP");
+
+      /* Enter DRX */
+      reception_of_cbch_schedule_message_alr809('A');
+
+      /* Recv 5 Scheduled Normal CBCH messages */
+      reception_of_expected_cbch_message_alr803('A');
+      AWAIT ( mphc_cbch_info_req_2());
+      SEND  ( mphc_data_ind_54('A'));
+      SEND  ( mphc_data_ind_54('A'));
+      SEND  ( mphc_data_ind_54('A'));
+      SEND  ( mphc_data_ind_54('A'));
+
+
+      /* CBCH Schedule message expected */
+      MUTE  (2000);
+
+      /* Normal CBCH message recvd instead of CBCH Schedule message */
+      SEND  ( mphc_data_ind_54('A'));
+      /* Enter NO DRX State */
+      AWAIT ( mphc_cbch_schedule_req_1());
+
+      /* Enter DRX mode (First DRX ) */
+      reception_of_cbch_schedule_message_alr809('A');
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR817-------------------------------
+ *
+ * Description:	Enter DRX state
+ *				1) invalid sequence number in normal cbch
+ *				2) inverted sequence number in normal cbch
+ *                         3) reception of messages in extended CBCH channel, NOR_DRX mode
+ *				4) Check entry into 2nd DRX mode for normal CBCH Channel
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR817()
+{
+  BEGIN_CASE ("simultaneous_operation_of_normal_and_extended_cbch_channels_alr817")
+  {
+   TRAP_FOR_DEACT {
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_failed_then_second_channel_alr004();
+      find_bcch_carrier_second_channel_alr006();
+      mmi_request_followed_by_configuration_of_cbch_alr801('A');
+      COMMAND("PL REDIRECT MMI TAP");
+      /* Enter DRX */
+      reception_of_cbch_schedule_message_alr809('A');
+
+      /* invalid sequence error in NORMAL CBCH*/
+      SEND  ( mphc_data_ind_54('A'));
+      AWAIT ( mphc_cbch_info_req_1());
+      SEND  ( mphc_data_ind_66());
+      AWAIT ( mphc_cbch_info_req_2()    );
+
+      /* inverted sequence number in NORMAL CBCH*/
+      SEND  ( mphc_data_ind_54('A'));
+      AWAIT ( mphc_cbch_info_req_1());
+      SEND  ( mphc_data_ind_56());
+      AWAIT ( mphc_cbch_info_req_2());
+
+      /* reception of message in extended CBCH channel */
+      SEND  ( mphc_data_ind_69() );
+      AWAIT ( mphc_cbch_info_req_3()    );
+      SEND  ( mphc_data_ind_70()        );
+      SEND  ( mphc_data_ind_71()        );
+      SEND  ( mphc_data_ind_72()        );
+      AWAIT ( mmi_cbch_ind_1('B')   );
+      AWAIT ( mphc_cbch_info_req_2());
+
+      /* NORMAL CBCH */
+      reception_of_expected_cbch_message_alr803('A');
+      AWAIT ( mphc_cbch_info_req_2());
+
+      /* error reading extended CBCH channel */
+      SEND  ( mphc_data_ind_68('B'));
+
+      /* Normal CBCH, message already read*/
+      SEND  ( mphc_data_ind_54('A'));
+      SEND  ( mphc_data_ind_54('A'));
+      MUTE  (2000);
+
+      /* Entry into 2nd DRX mode in NORMAL CBCH*/
+      reception_of_cbch_schedule_message_alr809('B');
+    } HANDLE_DEACT;
+  }
+}
+
+T_CASE ALR818()
+{
+  char variant = 'A';
+  BEGIN_CASE ("geographical_scope_handling_in_cbch_messages_alr818")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      SEND  ( mphc_data_ind_73());
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_23, CELL_IDENT_2));
+      definition_of_bcch_allocation_alr046('A');
+      SEND  ( mphc_data_ind_73());
+
+      /* SCELL = ARFCN_23 */
+
+      COMMAND("PL REDIRECT MMI TAP");
+
+      /* configure CBCH reading*/
+      SEND  ( mmi_cbch_req_2(variant));
+      SEND  ( mph_cbch_req_3(variant));
+      AWAIT ( mphc_config_cbch_req_2(variant));
+      AWAIT ( mphc_cbch_schedule_req_1());
+      AWAIT ( mphc_cbch_schedule_req_2());
+
+      /* reception of message id = 11 . Scope = CELL_WIDE ONLY */
+      reception_of_expected_cbch_message_alr803('B');
+      AWAIT ( mphc_cbch_info_req_2());
+
+      /* reception of message id = 7 . Scope = Location Area Wide */
+      SEND  ( mphc_data_ind_54('G'));
+      AWAIT ( mphc_cbch_info_req_1());
+      SEND  ( mphc_data_ind_55());
+      SEND  ( mphc_data_ind_56());
+      SEND  ( mphc_data_ind_57());
+      AWAIT ( mmi_cbch_ind_1('F'));
+      AWAIT ( mphc_cbch_info_req_2());
+
+      /* Measurements and NCell sync/Bcch reading */
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14));
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124));
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1));
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      AWAIT ( mph_measurement_ind_13());
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      SEND  ( mphc_ncell_sync_ind (ARFCN_14));
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_14));
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_14));
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14));
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      SEND  ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1));
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_124, FN_OFF_ARFCN_124, TIME_ALIGNMT_124));
+      SEND  ( mphc_ncell_sync_ind_3());
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_1, FN_OFF_ARFCN_1, TIME_ALIGNMT_1));
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_124));
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_124));
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_1));
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1));
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      AWAIT ( mph_measurement_ind_14());
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_1));
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_14));
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_124));
+
+      wait_ncsync_idle_2_14(6);
+      
+      AWAIT ( mphc_ncell_list_sync_req_1a());
+      AWAIT ( mph_measurement_ind_14());
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      AWAIT ( mph_measurement_ind_14());
+
+      SEND  ( mphc_ncell_sync_ind (ARFCN_14));
+      SEND  ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1));
+      SEND  ( mphc_ncell_sync_ind_3());
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      AWAIT ( mph_measurement_ind_14());
+
+      /* Cell Reselection to ARFCN_14, same Location area as ARFCN_23 */
+      SEND  ( mph_idle_req_15());
+      AWAIT ( mphc_stop_scell_bcch_req());
+      AWAIT  ( mphc_stop_ccch_req());
+      AWAIT ( mphc_stop_rxlev_periodic_req());
+      AWAIT ( mphc_stop_scell_bcch_req());
+      AWAIT ( mphc_stop_cbch_req());
+      AWAIT ( mphc_new_scell_req_10());
+      SEND  ( mphc_new_scell_con_1());
+      AWAIT ( mphc_start_ccch_req_5());
+      AWAIT ( mphc_scell_nbcch_req_full());
+      SEND  ( mphc_data_ind_63());
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_14));
+      AWAIT ( mphc_start_ccch_req_12());
+      SEND  ( mphc_data_ind_64());
+      AWAIT ( mph_unitdata_ind_si1(ARFCN_14));
+      SEND  ( mphc_data_ind_11());
+      AWAIT ( mphc_start_ccch_req_13());
+      SEND  ( mphc_data_ind_65());
+      AWAIT ( mph_unitdata_ind_si2(ARFCN_14));
+      SEND  ( mph_idle_req_16());
+      AWAIT ( mphc_stop_scell_bcch_req());
+      AWAIT ( mphc_scell_nbcch_req_periodic());
+      AWAIT ( mphc_rxlev_periodic_req_15());
+
+      /* Start CBCH reading on the new SC */
+      SEND  ( mph_cbch_req_3(variant));
+      AWAIT ( mphc_config_cbch_req_2(variant));
+      AWAIT ( mphc_cbch_schedule_req_1());
+      AWAIT ( mphc_cbch_schedule_req_2());
+
+
+      SEND  ( mph_neighbourcell_req_13());
+      AWAIT ( mphc_rxlev_periodic_req_16());
+
+      /* reception of message id = 7 . Scope = Location Area Wide.
+      This message was already read in the same LA.
+      ALR should not read TC 1 ,2 and 3*/
+      SEND  ( mphc_data_ind_54('G'));
+      MUTE(1000);
+
+      /* Resend CBCH message_id = 11 */
+      reception_of_expected_cbch_message_alr803('B');
+      /* This message should be passed up to MMI */
+      AWAIT ( mphc_cbch_info_req_2());
+
+
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+T_CASE ALR819()
+{
+  char variant = 'A';
+  BEGIN_CASE ("geographical_scope_handling_in_cbch_messages_alr819")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      SEND  ( mphc_data_ind_73());
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_23, CELL_IDENT_2));
+      definition_of_bcch_allocation_alr046('A');
+      SEND  ( mphc_data_ind_73());
+
+      /* SCELL = ARFCN_23 */
+
+      COMMAND("PL REDIRECT MMI TAP");
+
+      /* configure CBCH reading*/
+      SEND  ( mph_cbch_req_3(variant));
+      SEND  ( mmi_cbch_req_2(variant));
+      AWAIT ( mphc_config_cbch_req_2(variant));
+      AWAIT ( mphc_cbch_schedule_req_1());
+      AWAIT ( mphc_cbch_schedule_req_2());
+
+      /* reception of message id = 11 . Scope = CELL_WIDE ONLY */
+      reception_of_expected_cbch_message_alr803('B');
+      AWAIT ( mphc_cbch_info_req_2());
+
+      /* reception of message id = 7 . Scope = Location Area Wide */
+      SEND  ( mphc_data_ind_54('G'));
+      AWAIT ( mphc_cbch_info_req_1());
+      SEND  ( mphc_data_ind_55());
+      SEND  ( mphc_data_ind_56());
+      SEND  ( mphc_data_ind_57());
+      AWAIT ( mmi_cbch_ind_1('F'));
+      AWAIT ( mphc_cbch_info_req_2());
+
+      /* Measurements and NCell sync/Bcch reading */
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14));
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124));
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1));
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      AWAIT ( mph_measurement_ind_13());
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      SEND  ( mphc_ncell_sync_ind (ARFCN_14));
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_14));
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_14));
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14));
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      SEND  ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1));
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_124, FN_OFF_ARFCN_124, TIME_ALIGNMT_124));
+      SEND  ( mphc_ncell_sync_ind_3());
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_1, FN_OFF_ARFCN_1, TIME_ALIGNMT_1));
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_124));
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_124));
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_1));
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1));
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      AWAIT ( mph_measurement_ind_14());
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_1));
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_14));
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_124));
+
+      wait_ncsync_idle_2_14(6);
+      AWAIT ( mphc_ncell_list_sync_req_1a());
+
+      AWAIT ( mph_measurement_ind_14());
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      AWAIT ( mph_measurement_ind_14());
+      SEND  ( mphc_ncell_sync_ind (ARFCN_14));
+      SEND  ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1));
+      SEND  ( mphc_ncell_sync_ind_3());
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      SEND  ( mphc_rxlev_periodic_ind_2());
+      AWAIT ( mph_measurement_ind_14());
+
+      /* Cell Reselection to ARFCN_14, same Location area as ARFCN_23 */
+      SEND  ( mph_idle_req_15());
+      AWAIT ( mphc_stop_scell_bcch_req());
+      AWAIT ( mphc_stop_ccch_req());
+      AWAIT ( mphc_stop_rxlev_periodic_req());
+      AWAIT ( mphc_stop_scell_bcch_req());
+      AWAIT ( mphc_stop_cbch_req());
+      AWAIT ( mphc_new_scell_req_10());
+      SEND  ( mphc_new_scell_con_1());
+      AWAIT ( mphc_start_ccch_req_5());
+      AWAIT ( mphc_scell_nbcch_req_full());
+      SEND  ( mphc_data_ind_63());
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_14));
+      AWAIT ( mphc_start_ccch_req_12());
+      SEND  ( mphc_data_ind_64());
+      AWAIT ( mph_unitdata_ind_si1(ARFCN_14));
+      SEND  ( mphc_data_ind_11());
+      AWAIT ( mphc_start_ccch_req_13());
+      SEND  ( mphc_data_ind_65());
+      AWAIT ( mph_unitdata_ind_si2(ARFCN_14));
+      SEND  ( mph_idle_req_16());
+      AWAIT ( mphc_stop_scell_bcch_req());
+      AWAIT ( mphc_scell_nbcch_req_periodic());
+      AWAIT ( mphc_rxlev_periodic_req_15());
+
+      /* Start CBCH reading on the new SC */
+      SEND  ( mph_cbch_req_3(variant));
+      AWAIT ( mphc_config_cbch_req_2(variant));
+      AWAIT ( mphc_cbch_schedule_req_1());
+      AWAIT ( mphc_cbch_schedule_req_2());
+
+
+      SEND  ( mph_neighbourcell_req_13());
+      AWAIT ( mphc_rxlev_periodic_req_16());
+
+      /* reception of message id = 7 . Scope = Location Area Wide.
+	   This message was already read in the same LA.
+	   ALR should not read TC 1 ,2 and 3*/
+      SEND  ( mphc_data_ind_54('G'));
+      MUTE(1000);
+
+      /* Resend CBCH message_id = 11 */
+      reception_of_expected_cbch_message_alr803('B');
+      /* This message should be passed up to MMI */
+      AWAIT ( mphc_cbch_info_req_2());
+
+
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR900-------------------------------
+ *
+ * Description:	The BA list contains the serving cell 23 and the
+ *              neighbour cells 1, 14 and 124. The fieldstrength is 56 for
+ *              channel 23, 12 for channel 1, 44 for channel 14 and 25 for
+ *              channel 124 (all values in GSM range). The ranking for the
+ *              neighbour cells is 14, 124 and channel 1. Each reports contains
+ *              two fieldstrength values per channel. The multiframe period
+ *              is set to 6.The first measurement report is send to RR after
+ *              five reports from PL. Then after each three reports from
+ *              PL a measurement report is send to RR.
+ *              RR starts a cell reselection to neighbourcell 14.
+ *              After the end of cell reselection a new neighbourcell list is
+ *              forwarded to ALR with the neighbourcells 2 and 15. It is
+ *              expected that layer 1 is configured with the new serving cell 14
+ *              and the neighbourcells 2 and 15.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR900()
+{
+  BEGIN_CASE ("successful_case_alr900")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      definition_of_bcch_allocation_alr046('A');
+
+      SEND  ( mphc_rxlev_periodic_ind_2()      );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14)          );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124)          );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1)          );
+      SEND  ( mphc_rxlev_periodic_ind_2()      );
+      AWAIT ( mph_measurement_ind_13()         );
+      SEND  ( mphc_rxlev_periodic_ind_2()      );
+      SEND  ( mphc_ncell_sync_ind (ARFCN_14)          );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_14)          );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_14)          );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14)     );
+      SEND  ( mphc_rxlev_periodic_ind_2()      );
+      SEND  ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1)          );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_124, FN_OFF_ARFCN_124, TIME_ALIGNMT_124));
+      SEND  ( mphc_ncell_sync_ind_3()          );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_1, FN_OFF_ARFCN_1, TIME_ALIGNMT_1)          );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_124)          );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_124)     );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_1)          );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1)     );
+      SEND  ( mphc_rxlev_periodic_ind_2()      );
+      AWAIT ( mph_measurement_ind_14()         );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_1)             );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_14)             );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_124)             );
+      wait_ncsync_idle_2_14(6);
+      AWAIT ( mphc_ncell_list_sync_req_1a()    );
+
+      AWAIT ( mph_measurement_ind_14()         );
+      SEND  ( mphc_rxlev_periodic_ind_2()      );
+      SEND  ( mphc_rxlev_periodic_ind_2()      );
+      SEND  ( mphc_rxlev_periodic_ind_2()      );
+      AWAIT ( mph_measurement_ind_14()         );
+      SEND  ( mphc_ncell_sync_ind (ARFCN_14)          );
+      SEND  ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1)          );
+      SEND  ( mphc_ncell_sync_ind_3()          );
+      SEND  ( mphc_rxlev_periodic_ind_2()      );
+      SEND  ( mphc_rxlev_periodic_ind_2()      );
+      SEND  ( mphc_rxlev_periodic_ind_2()      );
+      AWAIT ( mph_measurement_ind_14()         );
+      SEND  ( mph_idle_req_15()                );
+      AWAIT ( mphc_stop_scell_bcch_req());
+      AWAIT ( mphc_stop_ccch_req()             );
+      AWAIT ( mphc_stop_rxlev_periodic_req() );
+      AWAIT ( mphc_stop_scell_bcch_req()     );
+      AWAIT ( mphc_new_scell_req_10()          );
+      SEND  ( mphc_new_scell_con_1()           );
+      AWAIT ( mphc_start_ccch_req_5()          );
+      AWAIT ( mphc_scell_nbcch_req_full()         );
+      SEND  ( mphc_data_ind_63()               );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_14)             );
+      AWAIT ( mphc_start_ccch_req_12()         );
+      SEND  ( mphc_data_ind_64()               );
+      AWAIT ( mph_unitdata_ind_si1(ARFCN_14)            );
+      SEND  ( mphc_data_ind_11()               );
+      AWAIT ( mphc_start_ccch_req_13()         );
+      SEND  ( mphc_data_ind_65()               );
+      AWAIT ( mph_unitdata_ind_si2(ARFCN_14)            );
+      SEND  ( mph_idle_req_16()                );
+      AWAIT ( mphc_stop_scell_bcch_req()     );
+      AWAIT ( mphc_scell_nbcch_req_periodic()  );
+      AWAIT ( mphc_rxlev_periodic_req_15()     );
+      SEND  ( mph_neighbourcell_req_13()       );
+      AWAIT ( mphc_rxlev_periodic_req_16()     );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR901-------------------------------
+ *
+ * Description:	The mobile leaves the dedicated mode to the current
+ *              serving cell 23. A cell reselection is performed and the idle
+ *              mode is configured.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR901()
+{
+  BEGIN_CASE ("cell_reselection_after_dedicated_mode_alr901")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+      start_of_sending_channel_request_messages_gsm_900__alr055();
+      immediate_assignment_for_the_mobile_station_alr056();
+      SEND  ( mph_stop_dedicated_req()     );
+      AWAIT ( mphc_stop_dedicated_req()    );
+      SEND  ( mphc_stop_dedicated_con()    );
+      AWAIT ( mph_stop_dedicated_cnf()     );
+      SEND  ( mph_idle_req_17()            );
+      AWAIT ( mphc_new_scell_req_1()       );
+      SEND  ( mphc_new_scell_con_1()       );
+      AWAIT ( mphc_start_ccch_req_5()      );
+      AWAIT ( mphc_scell_nbcch_req_full()  );
+      SEND  ( mphc_data_ind_1()            );
+      AWAIT ( mph_unitdata_ind_si1(ARFCN_23)        );
+      SEND  ( mphc_data_ind_2()            );
+      AWAIT ( mph_unitdata_ind_si2(ARFCN_23)        );
+      SEND  ( mph_idle_req_10()            );
+      AWAIT ( mphc_stop_scell_bcch_req()   );
+      AWAIT ( mphc_start_ccch_req_10()     );
+      AWAIT ( mphc_scell_nbcch_req_full()  );
+      AWAIT ( mphc_rxlev_periodic_req_15() );
+      SEND  ( mph_neighbourcell_req_13()   );
+      AWAIT ( mphc_rxlev_periodic_req_17() );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR902-------------------------------
+ *
+ * Description:	The BA list contains the serving cell 23 and the neighbour
+ *              cells 1, 14 and 124. The fieldstrength is 56 for channel 23, 12
+ *              for channel 1, 44 for channel 14 and 25 for channel 124
+ *              (all values in GSM range). The ranking for the neighbour cells
+ *              is 14, 124 and channel 1. Each report contains two fieldstrength
+ *              values per channel. The multiframe period is set to 6.
+ *              The first measurement report is send to RR after five reports
+ *              from PL. Then after each three reports from PL a measurement
+ *              report is send to RR.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR902()
+{
+  BEGIN_CASE ("synchronisation_to_neighbour_cells_successful_sys_info_4__alr902")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      definition_of_bcch_allocation_alr046('A');
+
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14)       );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124)       );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1)       );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mph_measurement_ind_29()      );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_ncell_sync_ind (ARFCN_14)       );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_14)       );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1)       );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_124, FN_OFF_ARFCN_124, TIME_ALIGNMT_124));
+      SEND  ( mphc_ncell_sync_ind_3()       );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_1, FN_OFF_ARFCN_1, TIME_ALIGNMT_1)       );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mph_measurement_ind_30()      );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_ncell_bcch_ind_si4(ARFCN_14)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14)  );
+      SEND  ( mphc_ncell_bcch_ind_si4(ARFCN_1)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1)  );
+      SEND  ( mphc_ncell_bcch_ind_si4(ARFCN_124)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_124)  );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mph_measurement_ind_14()      );
+      AWAIT ( mph_unitdata_ind_si4(ARFCN_1)         );
+      AWAIT ( mph_unitdata_ind_si4(ARFCN_14)         );
+      AWAIT ( mph_unitdata_ind_si4(ARFCN_124)         );
+      wait_ncsync_idle_2_14(5);
+      AWAIT ( mphc_ncell_list_sync_req_1a() );
+      AWAIT ( mph_measurement_ind_14()      );
+      wait_ncsync_idle_2_14(2);
+      AWAIT ( mph_measurement_ind_14()      );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR903-------------------------------
+ *
+ * Description:	The BA list contains the serving cell 23 and the neighbour
+ *              cells 1, 14 and 124. The fieldstrength is 56 for channel
+ *              23, 12 for channel 1, 44 for channel 14 and 25 for channel 124
+ *              (all values in GSM range). The ranking for the neighbour cells is 14,
+ *              124 and channel 1. Each report contains two fieldstrength
+ *              values per channel. The multiframe period is set to 6.
+ *              The first measurement report is send to RR after five reports
+ *              from PL. Then after each three reports from PL a measurement
+ *              report is send to RR.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR903()
+{
+  BEGIN_CASE ("synchronisation_to_neighbour_cells_successful_sys_info_4_and_7__alr903")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      definition_of_bcch_allocation_alr046('A');
+
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14)       );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124)       );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1)       );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mph_measurement_ind_29()      );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_ncell_sync_ind (ARFCN_14)       );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_14)       );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1)       );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_124, FN_OFF_ARFCN_124, TIME_ALIGNMT_124));
+      SEND  ( mphc_ncell_sync_ind_3()       );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_1, FN_OFF_ARFCN_1, TIME_ALIGNMT_1)       );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mph_measurement_ind_30()      );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_ncell_bcch_ind_si4_acs(ARFCN_14)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14)  );
+      AWAIT ( mphc_ncell_bcch_req_22()      );
+      SEND  ( mphc_ncell_bcch_ind_si4_acs(ARFCN_1)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1)  );
+      AWAIT ( mphc_ncell_bcch_req_23()      );
+      SEND  ( mphc_ncell_bcch_ind_si4_acs(ARFCN_124)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_124)  );
+      AWAIT ( mphc_ncell_bcch_req_24()      );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_ncell_bcch_ind_si7(ARFCN_14)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14)  );
+      SEND  ( mphc_ncell_bcch_ind_si7(ARFCN_1)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1)  );
+      SEND  ( mphc_ncell_bcch_ind_si7(ARFCN_124)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_124)  );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mph_measurement_ind_14()      );
+      AWAIT ( mph_unitdata_ind_si4_diff_cs(ARFCN_1)         );
+      AWAIT ( mph_unitdata_ind_si7(ARFCN_1)         );
+      AWAIT ( mph_unitdata_ind_si4_diff_cs(ARFCN_14)         );
+      AWAIT ( mph_unitdata_ind_si7(ARFCN_14)         );
+      AWAIT ( mph_unitdata_ind_si4_diff_cs(ARFCN_124)         );
+      AWAIT ( mph_unitdata_ind_si7(ARFCN_124)         );
+      wait_ncsync_idle_2_14(5);
+      AWAIT ( mphc_ncell_list_sync_req_1a() );
+      AWAIT ( mph_measurement_ind_14()      );
+      wait_ncsync_idle_2_14(2);
+      AWAIT ( mph_measurement_ind_14()      );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR904-------------------------------
+ *
+ * Description:	The BA list contains the serving cell 23 and the neighbour
+ *              cells 1, 14 and 124. The fieldstrength is 56 for
+ *              channel 23, 12 for channel 1, 44 for channel 14 and 25 for
+ *              channel 124 (all values in GSM range). The ranking for the
+ *              neighbour cells is 14, 124 and channel 1. Each report contains
+ *              two fieldstrength values per channel. The multiframe period is
+ *              set to 6. The first measurement report is send to RR after five
+ *              reports from PL. Then after each three reports from PL a measurement
+ *              report is send to RR.
+ *------------------------------------------------------------------------------*/
+
+T_CASE ALR904()
+{
+  BEGIN_CASE ("synchronisation_to_neighbour_cells_successful_sys_info_4_and_8__alr904")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      definition_of_bcch_allocation_alr046('A');
+
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14)       );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124)       );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1)       );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mph_measurement_ind_29()      );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_ncell_sync_ind (ARFCN_14)       );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_14)       );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1)       );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_124, FN_OFF_ARFCN_124, TIME_ALIGNMT_124));
+      SEND  ( mphc_ncell_sync_ind_3()       );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_1, FN_OFF_ARFCN_1, TIME_ALIGNMT_1)       );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mph_measurement_ind_30()      );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_ncell_bcch_ind_si4_acs(ARFCN_14)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14)  );
+      AWAIT ( mphc_ncell_bcch_req_22()      );
+      SEND  ( mphc_ncell_bcch_ind_si4_acs(ARFCN_1)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1)  );
+      AWAIT ( mphc_ncell_bcch_req_23()      );
+      SEND  ( mphc_ncell_bcch_ind_si4_acs(ARFCN_124)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_124)  );
+      AWAIT ( mphc_ncell_bcch_req_24()      );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mph_measurement_ind_30()      );
+      SEND  ( mphc_ncell_bcch_ind_si8(ARFCN_14)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14)  );
+      SEND  ( mphc_ncell_bcch_ind_si8(ARFCN_1)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1)  );
+      SEND  ( mphc_ncell_bcch_ind_si8(ARFCN_124)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_124)  );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mph_measurement_ind_14()      );
+      AWAIT ( mph_unitdata_ind_si4_diff_cs(ARFCN_1)         );
+      AWAIT ( mph_unitdata_ind_si8(ARFCN_1)         );
+      AWAIT ( mph_unitdata_ind_si4_diff_cs(ARFCN_14)         );
+      AWAIT ( mph_unitdata_ind_si8(ARFCN_14)         );
+      AWAIT ( mph_unitdata_ind_si4_diff_cs(ARFCN_124)         );
+      AWAIT ( mph_unitdata_ind_si8(ARFCN_124)         );
+      wait_ncsync_idle_2_14(4);
+      AWAIT ( mphc_ncell_list_sync_req_1a() );
+
+      AWAIT ( mph_measurement_ind_14()      );
+      wait_ncsync_idle_2_14(3);
+      AWAIT ( mph_measurement_ind_14()      );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR905-------------------------------
+ *
+ * Description:	The BA list contains the serving cell 23 and the neighbour
+ *              cells 1, 14 and 124. The fieldstrength is 56 for channel 23,
+ *              12 for channel 1, 44 for channel 14 and 25 for channel 124
+ *              (all values in GSM range). The ranking for the neighbour cells is 14,
+ *              124 and channel 1. Each report contains two fieldstrength
+ *              values per channel. The multiframe period is set to 6.
+ *              The first measurement report is send to RR after five reports
+ *              from PL. Then after each three reports from PL a measurement
+ *              report is send to RR.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR905()
+{
+  BEGIN_CASE ("synchronisation_to_neighbour_cells_successful_unexpected_msg_and_sys_info_3__alr905")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      definition_of_bcch_allocation_alr046('A');
+
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14)       );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124)       );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1)       );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mph_measurement_ind_29()      );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_ncell_sync_ind (ARFCN_14)       );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_14)       );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1)       );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_124, FN_OFF_ARFCN_124, TIME_ALIGNMT_124));
+      SEND  ( mphc_ncell_sync_ind_3()       );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_1, FN_OFF_ARFCN_1, TIME_ALIGNMT_1)       );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mph_measurement_ind_30()      );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_ncell_bcch_ind_si2(ARFCN_14)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14)  );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_14)       );
+      SEND  ( mphc_ncell_bcch_ind_si7(ARFCN_1)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1)  );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_1, FN_OFF_ARFCN_1, TIME_ALIGNMT_1)       );
+      SEND  ( mphc_ncell_bcch_ind_si8(ARFCN_124)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_124)  );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_124, FN_OFF_ARFCN_124, TIME_ALIGNMT_124));
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mph_measurement_ind_30()      );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_14)       );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14)  );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_1)       );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1)  );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_124)       );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_124)  );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mph_measurement_ind_14()      );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_1)          );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_14)          );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_124)          );
+      wait_ncsync_idle_2_14(4);
+      AWAIT ( mphc_ncell_list_sync_req_1a() );
+      AWAIT ( mph_measurement_ind_14()      );
+      wait_ncsync_idle_2_14(3);
+      AWAIT ( mph_measurement_ind_14()      );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR906-------------------------------
+ *
+ * Description:	The BA list contains the serving cell 23 and the neighbour
+ *              cells 1, 14 and 124. The fieldstrength is 56 for channel 23,
+ *              12 for channel 1, 44 for channel 14 and 25 for channel 124
+ *              (all values in GSM range). The ranking for the neighbour cells is 14,
+ *              124 and channel 1. Each report contains two fieldstrength values
+ *              per channel. The multiframe period is set to 6. The first measurement
+ *              report is send to RR after five reports from PL. Then after each three
+ *              reports from PL a measurement report is send to RR.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR906()
+{
+  BEGIN_CASE ("synchronisation_to_neighbour_cells_successful_read_error_and_sys_info_3__alr906")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      definition_of_bcch_allocation_alr046('A');
+
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14)       );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124)       );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1)       );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mph_measurement_ind_29()      );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_ncell_sync_ind (ARFCN_14)       );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_14)       );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1)       );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_124, FN_OFF_ARFCN_124, TIME_ALIGNMT_124));
+      SEND  ( mphc_ncell_sync_ind_3()       );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_1, FN_OFF_ARFCN_1, TIME_ALIGNMT_1)       );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mph_measurement_ind_30()      );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_ncell_bcch_ind_invalid(ARFCN_14)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14)  );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_14)       );
+      SEND  ( mphc_ncell_bcch_ind_invalid(ARFCN_1)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1)  );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_1, FN_OFF_ARFCN_1, TIME_ALIGNMT_1)       );
+      SEND  ( mphc_ncell_bcch_ind_invalid(ARFCN_124)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_124)  );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_124, FN_OFF_ARFCN_124, TIME_ALIGNMT_124));
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mph_measurement_ind_30()      );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_14)       );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14)  );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_1)       );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1)  );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_124)       );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_124)  );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mph_measurement_ind_14()      );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_1)          );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_14)          );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_124)          );
+      wait_ncsync_idle_2_14(4);
+      AWAIT ( mphc_ncell_list_sync_req_1a() );
+      AWAIT ( mph_measurement_ind_14()      );
+      wait_ncsync_idle_2_14(3);
+      AWAIT ( mph_measurement_ind_14()      );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR907-------------------------------
+ *
+ * Description:	The BA list contains the serving cell 23 and the neighbour cells 1,
+ *              14 and 124. The fieldstrength is 56 for channel 23, 12 for channel 1,
+ *              44 for channel 14 and 25 for channel 124 (all values in GSM range).
+ *              The ranking for the neighbour cells is 14, 124 and channel 1.
+ *              Each reports contains two fieldstrength values per channel.
+ *              The multiframe period is set to 6. The first measurement report
+ *              is send to RR after five reports from PL. Then after each three
+ *              reports from PL a measurement report is send to RR.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR907()
+{
+  BEGIN_CASE ("synchronisation_to_neighbour_cells_successful_sys_info_3__alr907")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      definition_of_bcch_allocation_alr046('A');
+
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14));
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124));
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1));
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mph_measurement_ind_29()      );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_ncell_sync_ind (ARFCN_14) );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_14) );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1));
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_124, FN_OFF_ARFCN_124, TIME_ALIGNMT_124));
+      SEND  ( mphc_ncell_sync_ind_3()       );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_1, FN_OFF_ARFCN_1, TIME_ALIGNMT_1));
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mph_measurement_ind_30()      );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_14));
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14));
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_1));
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1));
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_124));
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_124));
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      SEND  ( mphc_rxlev_periodic_ind_2()   );
+      AWAIT ( mph_measurement_ind_14()      );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_1) );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_14) );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_124));
+      wait_ncsync_idle_2_14(5);
+      AWAIT ( mphc_ncell_list_sync_req_1a() );
+      AWAIT ( mph_measurement_ind_14()      );
+      wait_ncsync_idle_2_14(2);
+      AWAIT ( mph_measurement_ind_14()      );
+    } HANDLE_DEACT;
+  }
+}
+
+
+/*------------------------Following is for ALR908-------------------------------
+ *
+ * Description:	The BA list contains the serving cell 23 and the neighbour
+ *              cells 1, 14 and 124. The MS is in Limited service on 23.
+ *              Cell 14 belongs to the requested PLMN. Parallel search is started.
+ *              The Rxlev of 14 is zero before starting parallel search(TREG expiry).
+ *              However, the Rxlev of 14 goes up just before the start of parallel
+ *              search and is detected and reported by ALR in MPH_POWER_CNF to RR.
+ *              MS reaches full service on cell 14.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR908()
+{
+  BEGIN_CASE ("parallel_search_in_limited_service__alr908")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      definition_of_bcch_allocation_alr046('A');
+
+      START_TIMEOUT(29500);
+
+      // cell 14 is not active yet. NC status of cell 14 in
+      // nc_data wil be IDLE after processing this primitive
+      SEND  ( mphc_rxlev_periodic_ind_9(30,0,0,0) );
+
+      // cell 14 is activated
+      // Start parallel search
+      SEND  ( mph_power_req_2()           );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_1) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_1) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_1) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_1) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_1) );
+      AWAIT ( mph_power_cnf_1()           );
+
+      // synchronize on cell 14
+      SEND  ( mph_bsic_req(ARFCN_14)      );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14)       );
+      AWAIT ( mphc_start_ccch_req_14()                    );
+      AWAIT ( mphc_scell_nbcch_req_periodic()             );
+
+      //cell 14 BSIC is provided here. This is tored in nc_data also.
+      SEND  ( mphc_ncell_sync_ind (ARFCN_14)              );
+      AWAIT ( mph_bsic_cnf_14()                           );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_14)              );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_14)           );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_14, CELL_IDENT_1));
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14)          );
+      SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH)           );
+      AWAIT ( mphc_start_ccch_req_14()                    );
+      AWAIT ( mphc_scell_nbcch_req_full() );
+      SEND  ( mph_idle_req_15());
+      AWAIT ( mphc_stop_scell_bcch_req());
+      AWAIT ( mphc_stop_ccch_req());
+      AWAIT ( mphc_stop_rxlev_periodic_req());
+      AWAIT ( mphc_stop_scell_bcch_req());
+
+      // CEL_R on 14. BSIC stored in nc_data is used here
+      AWAIT ( mphc_new_scell_req_10());
+
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR925-------------------------------
+ *
+ * Description:	The mobile leaves the dedicated mode after some moments to
+ *              the current serving cell 23. A cell selection is performed
+ *              and the idle mode is configured.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR925()
+{
+  BEGIN_CASE ("cell_selection_after_dedicated_mode_alr925")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      initiation_with_paging_reorganisation_alr020('B');
+
+      SEND  ( mphc_data_ind_11()               );
+      AWAIT ( mphc_start_ccch_req_6()          );
+      AWAIT ( mphc_scell_nbcch_req_periodic()  );
+      SEND  ( mphc_data_ind_9()                );
+      AWAIT ( mphc_start_ccch_req_4()          );
+      AWAIT ( mphc_scell_nbcch_req_periodic()  );
+      SEND  ( mph_random_access_req_1()        );
+      AWAIT ( mphc_stop_rxlev_periodic_req()   );
+      AWAIT ( mphc_stop_scell_bcch_req()       );
+      AWAIT ( mphc_start_ccch_req_3('B')       );
+      AWAIT ( mphc_scell_nbcch_req_full()      );
+      AWAIT ( mphc_ra_req_3()                  );
+      SEND  ( mphc_ra_con_1()                  );
+      AWAIT ( mph_random_access_cnf_1()        );
+      AWAIT ( mphc_ra_req_4()                  );
+      SEND  ( mphc_data_ind_20()               );
+      AWAIT ( mph_unitdata_ind_10()            );
+      SEND  ( mph_dedicated_req_1()            );
+      AWAIT ( mphc_stop_scell_bcch_req()       );
+      AWAIT ( mphc_stop_ccch_req()             );
+      AWAIT ( mphc_stop_ra_req_1()             );
+      AWAIT ( mphc_immed_assign_req_1()        );
+      SEND  ( mphc_immed_assign_con_1()        );
+      AWAIT ( mph_dedicated_cnf_1(DEDI_RES_OK) );
+      SEND  ( mph_stop_dedicated_req()         );
+      AWAIT ( mphc_stop_dedicated_req()        );
+      SEND  ( mphc_stop_dedicated_con()        );
+      AWAIT ( mph_stop_dedicated_cnf()         );
+      SEND  ( mph_idle_req_2()                 );
+      AWAIT ( mphc_start_ccch_req_5()          );
+      AWAIT ( mphc_scell_nbcch_req_full()      );
+      AWAIT ( mphc_rxlev_periodic_req_18()     );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR952-------------------------------
+ *
+ * Description:	After receiving the power levels of the neighbour cells
+ *              (MPHC-RXLEV-PERIODIC indication primitive), synchronization of
+ *              neighbour cells begins (MPHC-NCELL-SYNC request/indication primitives).
+ *              After 30 seconds (third expiry of TIM_NCSYNC timer), synchronization
+ *              is halted and a list of neighbour cells for synchronization is sent
+ *              to Layer 1 (MPHC-NCELL-LIST-SYNC request primitive), following which
+ *              synchronization is recommenced.
+ *
+ *              After receiving the power levels of the neighbour cells (MPHC-RXLEV-PERIODIC
+ *              indication primitive), synchronization of neighbour cells begins
+ *              (MPHC-NCELL-SYNC request/indication primitives). After 30 seconds
+ *              (third expiry of TIM_NCSYNC timer), synchronization is halted and a
+ *              list of neighbour cells for synchronization is sent to Layer 1
+ *              (MPHC-NCELL-LIST-SYNC request primitive), following which synchronization is
+ *              recommenced.
+ *              Cell reselection is then requested by RR (MPH-IDLE request primitive),
+ *              nominating a cell which has been reassigned to a different BTS.
+ *              ALR deselects the current serving cell (MPHC-STOP-SCELL_BCCH request
+ *              primitive and selects the new serving cell (MPHC-NEW-SCELL request primitive).
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR952()
+{
+  BEGIN_CASE ("power_measurement_with_change_of_bs_e_otd_off_idle_mode__alr952")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+
+      SEND  ( mphc_rxlev_periodic_ind_2()           );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14) );
+      SEND  ( mphc_ncell_sync_ind_24()              );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124));
+      SEND  ( mphc_ncell_sync_ind_25()              );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1)  );
+      SEND  ( mphc_ncell_sync_ind_26()              );
+      AWAIT ( mphc_ncell_bcch_req_25()              );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_14)     );
+      AWAIT ( mphc_ncell_bcch_req_26()              );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_124)    );
+      AWAIT ( mphc_ncell_bcch_req_27()              );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_1)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14)    );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_124)   );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1)     );
+      SEND  ( mphc_rxlev_periodic_ind_2()           );
+      AWAIT ( mph_measurement_ind_31()              );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_1)         );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_14)        );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_124)       );
+      wait_ncsync_idle_2_31(8);
+      AWAIT ( mphc_ncell_list_sync_req_1()          );
+      AWAIT ( mph_measurement_ind_31()              );
+      SEND  ( mphc_ncell_sync_ind_24()              );
+      SEND  ( mphc_ncell_sync_ind_25()              );
+      SEND  ( mphc_ncell_sync_ind_27()              );
+      AWAIT ( mphc_ncell_bcch_req_28()              );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_1)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1)     );
+      SEND  ( mphc_rxlev_periodic_ind_2()           );
+      SEND  ( mphc_rxlev_periodic_ind_2()           );
+      AWAIT ( mph_measurement_ind_31()              );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_1)         );
+      wait_ncsync_idle_2_31(8);
+      AWAIT ( mphc_ncell_list_sync_req_1()          );
+      AWAIT ( mph_measurement_ind_31()              );
+      SEND  ( mph_idle_req_20()                     );
+      AWAIT ( mphc_stop_scell_bcch_req());
+      AWAIT ( mphc_stop_ccch_req()                  );
+      AWAIT ( mphc_stop_rxlev_periodic_req()        );
+      AWAIT ( mphc_stop_ncell_sync_req_all()        );
+      AWAIT ( mphc_stop_scell_bcch_req()            );
+      AWAIT ( mphc_new_scell_req_12()               );
+      SEND  ( mphc_new_scell_con_1()                );
+      AWAIT ( mphc_start_ccch_req_14()              );
+      AWAIT ( mphc_scell_nbcch_req_full()           );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR952A-------------------------------
+ *
+ * Description: After receiving the power levels of the neighbour cells
+ *              (MPHC-RXLEV-PERIODIC indication primitive), synchronization of
+ *              neighbour cells begins (MPHC-NCELL-SYNC request/indication primitives).
+ *              After 30 seconds (third expiry of TIM_NCSYNC timer), synchronization
+ *              is halted and a list of neighbour cells for synchronization is sent
+ *              to Layer 1 (MPHC-NCELL-LIST-SYNC request primitive).
+ *              Synchronization lost is indicated for all neighbouring cells.
+ *
+ *              Cell reselection is then requested by RR (MPH-IDLE request primitive),
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR952A()
+{
+  BEGIN_CASE ("power_measurement_with_loss_of_ncell_sync_idle_mode__alr952a")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+
+      START_TIMEOUT(29500);
+      SEND  ( mphc_rxlev_periodic_ind_2()           );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14) );
+      SEND  ( mphc_ncell_sync_ind_24()              );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124));
+      SEND  ( mphc_ncell_sync_ind_25()              );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1)  );
+      SEND  ( mphc_ncell_sync_ind_26()              );
+      AWAIT ( mphc_ncell_bcch_req_25()              );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_14)     );
+      AWAIT ( mphc_ncell_bcch_req_26()              );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_124)    );
+      AWAIT ( mphc_ncell_bcch_req_27()              );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_1)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14)    );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_124)   );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1)     );
+      SEND  ( mphc_rxlev_periodic_ind_2()           );
+      AWAIT ( mph_measurement_ind_31()              );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_1)         );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_14)        );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_124)       );
+      WAIT_TIMEOUT();
+      AWAIT ( mphc_ncell_list_sync_req_1()          );
+      SEND  ( mphc_ncell_sync_ind_failed(ARFCN_14)       );
+      SEND  ( mphc_ncell_sync_ind_failed(ARFCN_124)       );
+      SEND  ( mphc_ncell_sync_ind_failed(ARFCN_1)       );
+      SEND  ( mphc_data_ind_19()              );
+      SEND  ( mphc_data_ind_19()              );
+      SEND  ( mphc_data_ind_19()              );
+      AWAIT ( mph_error_ind_2()               );
+      SEND  ( mph_idle_req_15()               );
+      AWAIT ( mphc_stop_scell_bcch_req());
+      AWAIT  ( mphc_stop_ccch_req());
+      AWAIT ( mphc_stop_rxlev_periodic_req());
+      AWAIT ( mphc_stop_scell_bcch_req());
+      AWAIT ( mph_error_ind_5()               );
+    } HANDLE_DEACT;
+  }
+}
+
+
+/*------------------------Following is for ALR954-------------------------------
+ *
+ * Description:	RR selects Channel 23 as serving cell after reading the BCCH carrier.
+ *              After receiving the power levels of the neighbour cells
+ *              (MPHC-RXLEV-PERIODIC indication primitive), synchronization of the
+ *              six strongest neighbour cells begins (MPHC-NCELL-SYNC request/indication
+ *              primitives). After 30 seconds (third expiry of TIM_NCSYNC timer),
+ *              synchronization is halted and a list of neighbour cells for synchronization
+ *              is sent to Layer 1 (MPHC-NCELL-LIST-SYNC request primitive),
+ *              following which synchronization is recommenced.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR954()
+{
+  BEGIN_CASE ("power_measurement_on_8_neighbour_cells_e_otd_off_idle_mode__alr954")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_8_channels_available_alr601();
+      find_bcch_carrier_first_channel_alr603();
+      read_bcch_data_alr607();
+      SEND  ( mph_classmark_req_3()                  );
+      SEND  ( mph_idle_req_21()                      );
+      AWAIT ( mphc_stop_scell_bcch_req()             );
+      AWAIT ( mphc_start_ccch_req_9()                );
+      AWAIT ( mphc_scell_nbcch_req_full()            );
+      SEND  ( mph_neighbourcell_req_15()             );
+      AWAIT ( mphc_rxlev_periodic_req_20()           );
+
+      SEND  ( mphc_rxlev_periodic_ind_3());
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_637) );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_25)  );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14)  );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_512) );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_580) );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_885) );
+      SEND  ( mphc_rxlev_periodic_ind_3()            );
+      AWAIT ( mph_measurement_ind_32()               );
+      SEND  ( mphc_ncell_sync_ind_28()               );
+      AWAIT ( mphc_ncell_bcch_req (ARFCN_637)               );
+      SEND  ( mphc_ncell_sync_ind_29()               );
+      AWAIT ( mphc_ncell_bcch_req_30()               );
+      SEND  ( mphc_ncell_sync_ind_24()               );
+      AWAIT ( mphc_ncell_bcch_req_25()               );
+      SEND  ( mphc_ncell_sync_ind_30()               );
+      AWAIT ( mphc_ncell_bcch_req_31()               );
+      SEND  ( mphc_ncell_sync_ind_31()               );
+      AWAIT ( mphc_ncell_bcch_req_32()               );
+      SEND  ( mphc_ncell_sync_ind_32()               );
+      AWAIT ( mphc_ncell_bcch_req_33()               );
+      SEND  ( mphc_rxlev_periodic_ind_3()            );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_637)     );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_637)    );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_25)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_25)     );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_14)      );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14)     );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_512)     );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_512)    );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_580)     );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_580)    );
+      SEND  ( mphc_ncell_bcch_ind_si3(ARFCN_885)     );
+      AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_885)    );
+      SEND  ( mphc_rxlev_periodic_ind_3()            );
+      SEND  ( mphc_rxlev_periodic_ind_3()            );
+      AWAIT ( mph_measurement_ind_33()               );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_14)         );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_25)         );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_512)        );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_580)        );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_637)        );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_885)        );
+      wait_ncsync_idle_3_33(6);
+
+      AWAIT ( mphc_ncell_list_sync_req_2()           );
+      AWAIT ( mph_measurement_ind_33()               );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR962-------------------------------
+ *
+ * Description:	Completion of the E-OTD cell monitoring procedure is signalled
+ *              by the receipt of a second MPHC-NCELL-SYNC indication primitive
+ *              for the serving cell, whereupon the measurement
+ *              results are forwarded to RR (MPH-NCELL-POS indication primitive).
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR962()
+{
+  BEGIN_CASE ("power_measurement_e_otd_on_idle_mode__alr962")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_8_channels_available_alr601();
+      find_bcch_carrier_first_channel_alr603();
+      read_bcch_data_alr607();
+      power_measurement_e_otd_on_idle_mode__alr960();
+
+      SEND  ( mphc_ncell_sync_ind_40() );
+      SEND  ( mphc_ncell_sync_ind_41() );
+      SEND  ( mphc_ncell_sync_ind_42() );
+      SEND  ( mphc_ncell_sync_ind_43() );
+      SEND  ( mphc_ncell_sync_ind_44() );
+      SEND  ( mphc_ncell_sync_ind_45() );
+      SEND  ( mphc_ncell_sync_ind_46() );
+      SEND  ( mphc_ncell_sync_ind_47() );
+      AWAIT ( mph_ncell_pos_ind_1()    );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR964-------------------------------
+ *
+ * Description:	ALR requests Layer 1 to stop synchronization of neighbour cells
+ *              and starts a 10-second timer. As Layer 1 fails to respond the
+ *              request is repeated on each expiry of the 10-second TIM_NCSYNC timer.
+ *
+ * XXX This testcase expects different behaviour than is implemented in the code.
+ * But it is not clear what is correct.
+ *-------------------------------------------------------------------------------*/
+/*
+  T_CASE ALR964()
+  {
+  BEGIN_CASE ("power_measurement_e_otd_on_no_response_from_layer_1_idle_mode__alr964")
+  {
+  initiation_by_rr_8_channels_available_alr601();
+  find_bcch_carrier_first_channel_alr603();
+  read_bcch_data_alr607();
+  power_measurement_e_otd_on_idle_mode__alr960();
+  AWAIT ( mphc_stop_ncell_sync_req_all());
+  AWAIT ( mphc_ncell_list_sync_req_3());
+  AWAIT ( mphc_stop_ncell_sync_req_all());
+  AWAIT ( mphc_ncell_list_sync_req_3());
+  AWAIT ( mphc_stop_ncell_sync_req_all());
+  AWAIT ( mphc_ncell_list_sync_req_3());
+  AWAIT ( mphc_stop_ncell_sync_req_all());
+  AWAIT ( mphc_ncell_list_sync_req_3());
+  }
+  }
+*/
+
+/*------------------------Following is for ALR968-------------------------------
+ *
+ * Description:	RR request cell reselection (MPH-IDLE request primitive) following
+ *              commencement of E-OTD measurement. E-OTD measurement is halted
+ *              (MPHC-STOP-NCELL-SYNC request primitive), the current serving cell
+ *              is deselected (MPHC-STOP-SCELL-BCCH request primitive) and ALR
+ *              requests the new serving cell (MPHC-NEW-SCELL request primitive).
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR968()
+{
+  BEGIN_CASE ("cell_reselection_started_during_e_otd_measurement_idle_mode__alr968")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_8_channels_available_alr601();
+      find_bcch_carrier_first_channel_alr603();
+      read_bcch_data_alr607();
+      power_measurement_e_otd_on_idle_mode__alr960();
+
+      SEND  ( mph_idle_req_23()                );
+      AWAIT ( mphc_stop_scell_bcch_req());
+      AWAIT ( mphc_stop_ccch_req()             );
+      AWAIT ( mphc_stop_rxlev_periodic_req() );
+      AWAIT ( mphc_stop_ncell_sync_req_all()     );
+      AWAIT ( mphc_stop_scell_bcch_req()     );
+      AWAIT ( mphc_new_scell_req_13()          );
+      SEND  ( mphc_new_scell_con_1()           );
+      AWAIT ( mphc_start_ccch_req_14()         );
+      AWAIT ( mphc_scell_nbcch_req_full()         );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR974-------------------------------
+ *
+ * Description: Following commencement of handover (receipt of MPH-DEDICATED
+ *              request primitive), ALR immediately requests Layer 1 to cease
+ *              E-OTD measurement (MPHC-STOP-NCELL-SYNC request primitive)
+ *              and proceeds with the handover.
+ *----------------------------------------------------------------------------*/
+
+T_CASE ALR974()
+{
+  BEGIN_CASE ("e_otd_measurement_halted_due_to_commencement_of_handover_alr974")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_8_channels_available_alr601();
+      find_bcch_carrier_first_channel_alr603();
+      read_bcch_data_alr607(); // ARFCN=23
+      power_measurement_e_otd_on_idle_mode__alr960();
+      connection_established_e_otd_dedicated_mode__alr970();
+      e_otd_measurement_started_dedicated_mode__alr972('A');
+
+      SEND  ( mph_dedicated_req_2()); // -> ARFCN=14
+      AWAIT ( mphc_stop_ncell_sync_req_all());
+      AWAIT ( mphc_async_ho_req_1(HOT_BLIND));
+      SEND  ( mphc_async_ho_con_1());
+
+      SEND  ( mphc_handover_finished_1(HO_COMPLETE) );
+      /*
+       * This does not seem to be 100% correct, but it is just one sync
+       * attempt too much so it should not hurt
+       */
+      AWAIT ( mphc_ncell_list_sync_req_4('C') );
+      AWAIT ( mph_dedicated_cnf_1(DEDI_RES_OK)      );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR976-------------------------------
+ *
+ * Description: On confirmation from Layer 1 that sychronization of neighbour
+ *              cells has ceased (reception of MPHC-STOP-NCELL-SYNC confirmation
+ *              primitive). ALR forwards a list of the neighbour cells selected
+ *              for E-OTD measurement to Layer 1 (MPHC-NCELL-LIST-SYNC request
+ *              primitive). Layer 1 subsequently forwards the measurements for
+ *              the serving cell and the neighbour cells requested
+ *              (MPHC-NCELL-SYNC indication primitive). The process is complete
+ *              when a second measurement for the serving cell is received,
+ *              whereupon ALR forwards the measurement results to RR
+ *              (MPH-NCELL-POS indication primitive).
+ *----------------------------------------------------------------------------*/
+
+T_CASE ALR976()
+{
+  BEGIN_CASE ("e_otd_measurement_performed_dedicated_mode__alr976")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_8_channels_available_alr601();
+      find_bcch_carrier_first_channel_alr603();
+      read_bcch_data_alr607();
+      power_measurement_e_otd_on_idle_mode__alr960();
+      connection_established_e_otd_dedicated_mode__alr970();
+      e_otd_measurement_started_dedicated_mode__alr972('A');
+
+      SEND  ( mphc_ncell_sync_ind_40() );
+      SEND  ( mphc_ncell_sync_ind_41() );
+      SEND  ( mphc_ncell_sync_ind_42() );
+      SEND  ( mphc_ncell_sync_ind_43() );
+      SEND  ( mphc_ncell_sync_ind_44() );
+      SEND  ( mphc_ncell_sync_ind_45() );
+      SEND  ( mphc_ncell_sync_ind_46() );
+      SEND  ( mphc_ncell_sync_ind_47() );
+      AWAIT ( mph_ncell_pos_ind_3()    );
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR978-------------------------------
+ *
+ * Description:	On confirmation from Layer 1 that sychronization of neighbour cells
+ *              has ceased (reception of MPHC-STOP-NCELL-SYNC confirmation primitive)
+ *              ALR forwards a list of the neighbour cells selected for E-OTD measurement
+ *              to Layer 1 (MPHC-NCELL-LIST-SYNC request primitive). Layer 1 subsequently
+ *              forwards the measurements for the serving cell and the neighbour cells
+ *              requested (MPHC-NCELL-SYNC indication primitive). The process is complete
+ *              when a second measurement for the serving cell is received, whereupon ALR
+ *              forwards the measurement results to RR (MPH-NCELL-POS indication primitive).
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR978()
+{
+  BEGIN_CASE ("e_otd_measurement_performed_unknown_arfcns_dedicated_mode__alr978")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_8_channels_available_alr601();
+      find_bcch_carrier_first_channel_alr603();
+      read_bcch_data_alr607();
+      power_measurement_e_otd_on_idle_mode__alr960();
+      connection_established_e_otd_dedicated_mode__alr970();
+      e_otd_measurement_started_dedicated_mode__alr972('B');
+
+      SEND  ( mphc_ncell_sync_ind_40() );
+      SEND  ( mphc_ncell_sync_ind_41() );
+      SEND  ( mphc_ncell_sync_ind_42() );
+      SEND  ( mphc_ncell_sync_ind_43() );
+      SEND  ( mphc_ncell_sync_ind_44() );
+      SEND  ( mphc_ncell_sync_ind_45() );
+      SEND  ( mphc_ncell_sync_ind_46() );
+      SEND  ( mphc_ncell_sync_ind_48() );
+      SEND  ( mphc_ncell_sync_ind_49() );
+      SEND  ( mphc_ncell_sync_ind_47() );
+      /* This finds a bug in the code!! */
+      AWAIT ( mph_ncell_pos_ind_4()    );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALRG007-------------------------------
+ *
+ * Description:	ALR needs to check to see if it is in PIM before it can configure
+ *              Layer 1 for CBCH. Any other state and ALR must copy the new
+ *              CBCH settings before discarding the request.
+ *--------------------------------------------------------------------------------*/
+
+#if defined GPRS
+T_CASE ALR1007()
+{
+  BEGIN_CASE ("cbch_in_PIM_only_alrg007")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_1);
+
+      SEND  ( mph_cbch_req_2('A')                 );
+      SEND  ( mph_mon_ctrl_req(ENTER_PIM_PBCCH)   );
+      SEND  ( mmi_cbch_req_1()                    );
+      AWAIT ( mphc_config_cbch_req_1('A')         );
+      AWAIT ( mphc_cbch_schedule_req_1()          );
+      AWAIT ( mphc_cbch_schedule_req_2()          );
+
+      SEND  ( mph_mon_ctrl_req(LEAVING_PIM_PBCCH) );
+      SEND  ( mmi_cbch_req_1()                    );
+      AWAIT ( mphc_stop_cbch_req()                );
+      MUTE(1000);
+
+      SEND  ( mph_mon_ctrl_req(ENTER_PTM_PBCCH)   );
+      SEND  ( mmi_cbch_req_1()                    );
+      MUTE(1000);
+
+      SEND  ( mph_mon_ctrl_req(LEAVING_PTM_PBCCH) );
+      SEND  ( mmi_cbch_req_1()                    );
+      MUTE(1000);
+
+      SEND  ( mph_mon_ctrl_req(LEAVING_PAM_PBCCH) );
+      SEND  ( mmi_cbch_req_1()                    );
+      MUTE(1000);
+    } HANDLE_DEACT;
+  }
+}
+#endif //GPRS
+/*------------------------Following is for ALRG008-------------------------------
+ *
+ * Description:	In dedicated mode ALR is suspended during a PDCH Assignment procedure.
+ *              After a successful TBF establishment, ALR is requested to enter a mode
+ *              which is compatible to Packet Transfer Mode.
+ *--------------------------------------------------------------------------------*/
+#if defined GPRS
+T_CASE ALR1008()
+{
+  BEGIN_CASE ("pdch_assignment_success_start_tbf_establishment_alrg008")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013_gprs();
+
+      start_of_sending_channel_request_messages_gsm_900__alr055();
+      immediate_assignment_for_the_mobile_station_alr056();
+
+      pdch_assignment_alrg007();
+      SEND ( mph_idle_req_2g() );
+    } HANDLE_DEACT;
+  }
+}
+#endif //GPRS
+/*------------------------Following is for ALRG009-------------------------------
+ *
+ * Description:	After an unsuccessful TBF establishment, ALR is requested to switch
+ *              back to the 'old' channel.
+ *---------------------------------------------------------------------------------*/
+
+#if defined GPRS
+T_CASE ALR1009()
+{
+  BEGIN_CASE ("pdch_assignment_error_during_tbf_establishment_alrg009")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013_gprs();
+
+      start_of_sending_channel_request_messages_gsm_900__alr055();
+      immediate_assignment_for_the_mobile_station_alr056();
+
+      pdch_assignment_alrg007();
+
+      SEND  ( mph_dedicated_fail_req_1g()  );
+      AWAIT ( mphc_immed_assign_req_1()    );
+      SEND  ( mphc_immed_assign_con_1()    );
+      AWAIT ( mphc_channel_assign_req_1g() );
+      SEND  ( mphc_channel_assign_con_1g() );
+      AWAIT ( mph_dedicated_fail_cnf_1g()  );
+    } HANDLE_DEACT;
+  }
+}
+#endif //GPRS
+/*------------------------Following is for ALRG010-------------------------------
+ *
+ * Description:	In dedicated mode ALR is requested to synchronize to a new cell.
+ *              The new cell ARFCN and BSIC is provided by the network.
+ *-------------------------------------------------------------------------------*/
+
+#if defined GPRS
+T_CASE ALR1010()
+{
+  BEGIN_CASE ("network_controlled_change_cell_alrg010")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013_gprs();
+
+      start_of_sending_channel_request_messages_gsm_900__alr055();
+      immediate_assignment_for_the_mobile_station_alr056();
+
+      SEND  ( mph_stop_dedicated_req()      );
+      AWAIT ( mphc_stop_dedicated_req()     );
+      SEND  ( mphc_stop_dedicated_con()     );
+      AWAIT ( mph_stop_dedicated_cnf()      );
+
+      SEND  ( mph_bsic_req(ARFCN_14)        );
+      /* Measurements are stopped before tuning to new cell*/
+      AWAIT ( mphc_stop_rxlev_periodic_req() );
+
+      //AWAIT ( mphc_stop_dedicated_1()          );
+
+      AWAIT ( mphc_network_sync_req(ARFCN_14, SM_NARROW_MODE));
+      SEND  ( mphc_network_sync_ind_6()        );
+      AWAIT ( mph_bsic_cnf_6()                );
+      AWAIT ( mphc_new_scell_req_2()           );
+      SEND  ( mphc_new_scell_con_1()           );
+      AWAIT ( mphc_scell_nbcch_req_full()      );
+      SEND  ( mphc_data_ind_49()               );
+      AWAIT ( mph_unitdata_ind_si1(ARFCN_14)   );
+      SEND  ( mphc_data_ind_65()               );
+      AWAIT ( mph_unitdata_ind_si2(ARFCN_14)   );
+      SEND  ( mph_idle_req_1('A')              );
+      AWAIT ( mphc_stop_scell_bcch_req()       );
+      AWAIT ( mphc_start_ccch_req_1('A')       );
+      AWAIT ( mphc_scell_nbcch_req_full()      );
+      SEND  ( mph_neighbourcell_req_2()        );
+      AWAIT ( mphc_rxlev_periodic_req_2i()      );
+    } HANDLE_DEACT;
+  }
+}
+#endif //GPRS
+/*------------------------Following is for ALRG011-------------------------------
+ *
+ * Description:	RR selects the channel 23 after reading the BCCH carrier.
+ *              This cell has PBCCH. In this test the ncell handling for PBCCH
+ *              is tested.
+ *
+ *---------------------------------------------------------------------------------*/
+
+#if defined GPRS
+T_CASE ALR1011()
+{
+  BEGIN_CASE ("GPRS PBCCH, ncell synchronization")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+
+      rr_select_first_channel_gprs_pbcch(VAR_NMO_3);
+
+      nc_pbcch_initial_sync();
+      /*This message mph_neighbourcell_req_sync_reconfirm is sent when GRR 
+      inform RR with RRGRR_NCELL_SYNC_REQ(SYNC_RECONFIRM)
+      GRR maintain the 10 sec timer through measurement counter*/
+      SEND(mph_neighbourcell_req_sync_reconfirm());
+
+
+      TIMEOUT (10000);
+
+      AWAIT ( mphc_ncell_list_sync_req_1g() );
+      SEND  ( mph_mon_ctrl_req(LEAVING_PIM_PBCCH)          );
+      AWAIT ( mphc_stop_ccch_req()        );
+      AWAIT ( mphc_stop_ncell_sync_req_all()  );
+      SEND  ( mph_mon_ctrl_req(LEAVING_PAM_PBCCH)          );
+      SEND  ( mph_mon_ctrl_req(ENTER_PTM_PBCCH)          );
+      AWAIT ( mphc_ncell_list_sync_req_1g() );
+    } HANDLE_DEACT;
+  }
+}
+#endif //GPRS
+
+
+/*------------------------Following is for ALRG012-------------------------------
+ *
+ * Description:	RR selects the channel 23 after reading the BCCH carrier.
+ *              The cell has GPRS. ALR has to listen to two PTMSIs after
+ *              the IDENTITY-REQ.
+ *
+ *---------------------------------------------------------------------------------*/
+
+#if defined GPRS
+T_CASE ALR1012()
+{
+  BEGIN_CASE ("GPRS BCCH, 2x PTMSI check")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+
+      rr_select_first_channel_alr013_gprs();
+
+      SEND  ( mph_identity_req_2g() );
+      SEND  ( mphc_data_ind_8g()    );
+      AWAIT ( mph_paging_ind_1g()   );
+      AWAIT ( mphc_start_ccch_req_8 () );
+      SEND  ( mphc_data_ind_9g()    );
+      SEND  ( mphc_data_ind_10g()   );
+      AWAIT ( mph_paging_ind_1g()   );
+    } HANDLE_DEACT;
+  }
+}
+
+
+#endif //GPRS
+
+/*------------------------Following is for ALR1013A-------------------------------
+ *
+ * Description: A Async handover is performed. Before the handover there was a large
+ *              BA list of 20 entries in use. Handover is requested for the carrier for which
+ *              the sync has already been decoded. ALR shall send Handover type as HOT_REGULAR
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR1013A()
+{
+  BEGIN_CASE ("handover_full_ba_list_alr1013A")
+  {
+    TRAP_FOR_DEACT {
+      initial_setting_state_to_dedicated();
+      SEND(mph_dedicated_req_fn(MODE_ASYNC_HANDOVER, ARFCN_30, BSIC_1));
+      #ifdef FF_EGPRS
+        AWAIT ( mphc_async_ho_req_ho_type_fn(HOT_BLIND, 0,0) );
+        SEND  ( mphc_async_ho_con_1()        );
+        SEND  ( mphc_handover_finished_fn(HO_COMPLETE)   );
+        AWAIT ( mph_dedicated_cnf_fn(DEDI_RES_OK)        );
+      #else // FF_EGPRS
+        AWAIT ( mph_dedicated_cnf_fn(DEDI_RES_CELL_NOT_SYNC) );
+      #endif // FF_EGPRS
+
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR1013B-------------------------------
+ *
+ * Description: A Async handover is performed. Before the handover there was a large
+ *              BA list of 20 entries in use. Handover is requested for one of the carrier in the BA list
+ *              but the sync was not decoded. ALR shall send Handover type as HOT_BLIND.
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR1013B()
+{
+  BEGIN_CASE ("handover_full_ba_list_alr1013B")
+  {
+    TRAP_FOR_DEACT {
+      initial_setting_state_to_dedicated(); /*NO sync was decoded for ARFCN_1, though this was the carrier of BA list*/
+      SEND(mph_dedicated_req_fn(MODE_ASYNC_HANDOVER, ARFCN_1, BSIC_1));
+      AWAIT ( mphc_async_ho_req_ho_type_fn(HOT_REGULAR,0,0) );
+      SEND  ( mphc_async_ho_con_1()        );
+      SEND  ( mphc_handover_finished_fn(HO_COMPLETE)   );
+      AWAIT ( mph_dedicated_cnf_fn(DEDI_RES_OK)        );
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR1013C-------------------------------
+ *
+ * Description: A Async handover is performed. Before the handover there was a large
+ *              BA list of 20 entries in use. Handover is requested for one of the carrier in the BA list
+ *              but the sync was not decoded. ALR shall send Handover type as HOT_BLIND. If sync at
+*              this carrier fails L1 shall send handover finished message with HO_SYNC_FAIL
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR1013C()
+{
+  BEGIN_CASE ("handover_full_ba_list_alr1013C")
+  {
+    TRAP_FOR_DEACT {
+      initial_setting_state_to_dedicated(); /*NO sync was decoded for ARFCN_2, this was not the carrier of BA list*/
+      SEND(mph_dedicated_req_fn(MODE_ASYNC_HANDOVER, ARFCN_2, BSIC_1));
+      #ifdef FF_EGPRS
+        AWAIT ( mphc_async_ho_req_ho_type_fn(HOT_BLIND,0,0)  );
+        SEND  ( mphc_async_ho_con_1()                        );
+        SEND  ( mphc_handover_finished_fn(HO_SYNC_FAIL)      );
+        AWAIT ( mph_dedicated_cnf_fn(DEDI_RES_SYNC_FAIL)     );
+      #else // FF_EGPRS
+        AWAIT ( mph_dedicated_cnf_fn(DEDI_RES_CELL_NOT_SYNC) );
+      #endif // FF_EGPRS
+    } HANDLE_DEACT;
+  }
+}
+
+
+/*------------------------Following is for ALR1013D-------------------------------
+ *
+ * Description: A Sync handover is performed. Before the handover there was a large
+ *              BA list of 20 entries in use. Handover is requested for one of the carrier in the BA list
+ *              but the sync was not decoded. ALR shall send Handover type as HOT_BLIND.
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR1013D()
+{
+  BEGIN_CASE ("handover_full_ba_list_alr1013B")
+  {
+    TRAP_FOR_DEACT {
+      initial_setting_state_to_dedicated(); /*NO sync was decoded for ARFCN_1, though this was the carrier of BA list*/
+      SEND(mph_dedicated_req_fn(MODE_SYNC_HANDOVER, ARFCN_1, BSIC_1));
+      AWAIT ( mphc_sync_ho_req_ho_type_fn(HOT_REGULAR, 0,0) );
+      SEND  ( mphc_async_ho_con_1()        );
+      SEND  ( mphc_handover_finished_fn(HO_COMPLETE)   );
+      AWAIT ( mph_dedicated_cnf_fn(DEDI_RES_OK)        );
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR1013E-------------------------------
+ *
+ * Description: A Pre Sync handover is performed. Before the handover there was a large
+ *              BA list of 20 entries in use. Handover is requested for one of the carrier in the BA list
+ *              but the sync was not decoded. ALR shall send Handover type as HOT_BLIND.
+ *-------------------------------------------------------------------------------*/
+T_CASE ALR1013E()
+{
+  BEGIN_CASE ("handover_full_ba_list_alr1013E")
+  {
+    TRAP_FOR_DEACT {
+      initial_setting_state_to_dedicated(); /*NO sync was decoded for ARFCN_1, though this was the carrier of BA list*/
+      SEND(mph_dedicated_req_fn(MODE_PRE_SYNC_HANDOVER, ARFCN_1, BSIC_1));
+      AWAIT ( mphc_presync_ho_req_ho_type_fn(HOT_REGULAR, 0,0) );
+      SEND  ( mphc_async_ho_con_1()        );
+      SEND  ( mphc_handover_finished_fn(HO_COMPLETE)   );
+      AWAIT ( mph_dedicated_cnf_fn(DEDI_RES_OK)        );
+
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR1020-------------------------------
+ *
+ * Description:	The BA list contains the serving cell 23 and the
+ *              neighbour cells 1, 14 and 124.
+ *              The fieldstrength is 56 for channel 23, 12 for channel 1,
+ *              44 for channel 14 and 25 for channel 124 (all values in GSM range).
+ *              The ranking for the neighbour cells is 14, 124 and channel 1.
+ *              Each reports contains two fieldstrength values per channel.
+ *              The multiframe period is set to 6. The first measurement report
+ *              is send to RR after five reports from PL. Then after each three
+ *              reports from PL a measurement report is send to RR. The NCC permitted
+ *              check for neighbour cell 124 fails. The cell not excluded
+ *              from further attempts it in IDLE state.It should try to sync after 10 secs
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR1020()
+{
+  BEGIN_CASE ("ncell_synch_ncc_permitted_check_alr1020")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      definition_of_bcch_allocation_alr046('D');
+      SEND  ( mphc_rxlev_periodic_ind_2()  );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14)      );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124)      );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1)      );
+      SEND  ( mphc_rxlev_periodic_ind_2()  );
+      AWAIT ( mph_measurement_ind_13()     );
+      SEND  ( mphc_rxlev_periodic_ind_2()  );
+      SEND  ( mphc_ncell_sync_ind(ARFCN_14,FN_OFF_ARFCN_14,TIME_ALIGNMT_14,BSIC_16)      );
+      AWAIT ( mphc_ncell_bcch_req_4()      );
+      SEND  ( mphc_rxlev_periodic_ind_2()  );
+      SEND  ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1)      );
+      SEND  ( mphc_ncell_sync_ind(ARFCN_1,FN_OFF_ARFCN_1,TIME_ALIGNMT_1,BSIC_16)      );
+      AWAIT ( mphc_ncell_bcch_req_5()      );
+      SEND  ( mphc_rxlev_periodic_ind_2()  );
+      SEND  ( mphc_rxlev_periodic_ind_2()  );
+      SEND  ( mphc_rxlev_periodic_ind_2()  );
+      AWAIT ( mph_measurement_ind_13()     );
+      SEND  ( mphc_rxlev_periodic_ind_2()  );
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_124) );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR1020A-------------------------------
+ *
+ * Description:	The BA list contains the serving cell 23 and the
+ *              neighbour cells 1, 14 and 124.
+ *              The fieldstrength is 56 for channel 23, 20 for channel 1,
+ *              46 for channel 14 and 30 for channel 124 (all values in GSM range).
+ *              The ranking for the neighbour cells is 14, 124 and channel 1.
+ *              The NCC permitted check for neighbour cell 1 fails. The cell not excluded
+ *              from further attempts it in DEDICATED state.
+ *              It should try to sync after 30 secs.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR1020A()
+{
+  BEGIN_CASE ("ncell_synch_ncc_permitted_check_alr1020")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      definition_of_bcch_allocation_alr046('D');
+      
+
+      SEND  ( mph_random_access_req_1()          );
+      AWAIT ( mphc_stop_rxlev_periodic_req()     );
+      AWAIT ( mphc_stop_scell_bcch_req()         );
+      AWAIT ( mphc_scell_nbcch_req_full()        );
+      AWAIT ( mphc_ra_req_1()                    );
+      SEND  ( mphc_ra_con_1()                    );
+      AWAIT ( mph_random_access_cnf_1()          );
+      AWAIT ( mphc_ra_req_2()                    );
+      immediate_assignment_for_the_mobile_station_alr056();
+      SEND  ( mph_neighbourcell_req_4('A') );
+      AWAIT ( mphc_update_ba_list_2()    );
+      MUTE  (500);
+
+      SEND (mphc_meas_report_4a() );      
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14)       );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124)       );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1)       );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19)           );
+
+
+      SEND (mphc_meas_report_4a() ); 
+      SEND (mphc_ncell_sync_ind(ARFCN_14,FN_OFF_ARFCN_14,TIME_ALIGNMT_14,BSIC_16) );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19)           );
+      
+      SEND (mphc_meas_report_4a() ); 
+      SEND (mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_16) );
+      SEND (mphc_ncell_sync_ind(ARFCN_1,FN_OFF_ARFCN_1,TIME_ALIGNMT_1,BSIC_1) );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19)           );
+
+      wait_ncsync_dedicated_1020A(18);
+
+      AWAIT ( mphc_ncell_list_sync_req_1c () );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19) );
+      SEND (mphc_ncell_sync_ind(ARFCN_14,FN_OFF_ARFCN_14,TIME_ALIGNMT_14,BSIC_16) );
+      SEND (mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_16) );  
+
+      wait_ncsync_dedicated_1020A(21);
+
+      AWAIT ( mphc_ncell_list_sync_req_1c () );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19) );
+      SEND (mphc_ncell_sync_ind(ARFCN_14,FN_OFF_ARFCN_14,TIME_ALIGNMT_14,BSIC_16) );
+      SEND (mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_16) ); 
+
+      wait_ncsync_dedicated_1020A(21);
+
+      AWAIT ( mphc_ncell_list_sync_req_1c () );
+      AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19) );
+      SEND (mphc_ncell_sync_ind(ARFCN_14,FN_OFF_ARFCN_14,TIME_ALIGNMT_14,BSIC_16) );
+      SEND (mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_16) ); 
+ 
+
+      AWAIT ( mphc_ncell_sync_req_fn(ARFCN_1) );
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+#ifdef  GPRS
+/*------------------------Following is for ALR1015-------------------------------
+ *
+ * Description:	RR selects the channel 23 after reading the BCCH carrier.
+ *              The cell has GPRS. No neighbour cells measured.
+ *
+ *---------------------------------------------------------------------------------*/
+T_CASE ALR1015()
+{
+  BEGIN_CASE ("MPH_MEAS_REP_REQ")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      measurement_reporting_configuration_alr030('C');
+      SEND  ( mph_meas_rep_req(NC_START_MEAS)           );
+      SEND  ( mphc_rxlev_periodic_ind_9(40,30,20,10)    );
+      SEND  ( mphc_rxlev_periodic_ind_9(40,30,20,10)    );
+      AWAIT ( mph_measurement_ind_35()                  );
+      SEND  ( mph_meas_rep_req(NC_REPORT_MEAS)          );
+      AWAIT ( mph_meas_rep_cnf_sc()                     );
+      SEND  ( mph_meas_rep_req(NC_STOP_MEAS)            );
+    } HANDLE_DEACT;
+  }
+}
+#endif  // GPRS
+
+#ifdef  GPRS
+/*------------------------Following is for ALRG1016-------------------------------
+ *
+ * Description:	RR selects the channel 23 after reading the BCCH carrier.
+ *              The cell has GPRS. Neighbour cell list consists of 3 cells
+ *              1, 14, 124
+ *
+ *---------------------------------------------------------------------------------*/
+T_CASE ALR1016()
+{
+  BEGIN_CASE ("MPH_MEAS_REP_REQ")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      measurement_reporting_configuration_nwctrl('A');
+
+      /* Check that NC report does not contain any neighbour cells in
+	 RD_BCCH_P_RR state */
+      SEND  (mph_meas_rep_req(NC_START_MEAS)          );
+      SEND  ( mphc_rxlev_periodic_ind_9(40,30,20,10)  );
+      MUTE  (10);
+      SEND  ( mphc_rxlev_periodic_ind_9(50,40,30,20)  );
+      MUTE  (10);
+      SEND  ( mphc_rxlev_periodic_ind_9(40,30,20,10)  );
+      MUTE  (10);
+      SEND  (mph_meas_rep_req(NC_REPORT_MEAS)         );
+      AWAIT (mph_meas_rep_cnf_sc()                    );
+
+      /* Send SI3 for the neighbour cells and request report again */
+      SEND  (mph_meas_rep_req(NC_STOP_MEAS)           );
+      SEND  (mphc_ncell_bcch_ind_si3(ARFCN_1)         );
+      SEND  (mphc_ncell_bcch_ind_si3(ARFCN_14)        );
+      SEND  (mphc_ncell_bcch_ind_si3(ARFCN_124)       );
+      AWAIT (mphc_stop_ncell_bcch_req(ARFCN_1)        );
+      AWAIT (mphc_stop_ncell_bcch_req(ARFCN_14)       );
+      AWAIT (mphc_stop_ncell_bcch_req(ARFCN_124)      );
+      SEND  (mph_meas_rep_req(NC_START_MEAS)          );
+      SEND  (mphc_rxlev_periodic_ind_9(40,30,20,10)   );
+      SEND  (mphc_rxlev_periodic_ind_9(50,40,30,20)   );
+      AWAIT (mph_measurement_ind_35()                 );
+      SEND  (mphc_rxlev_periodic_ind_9(40,30,20,10)   );
+      AWAIT (mph_unitdata_ind_si3(ARFCN_1)            );
+      AWAIT (mph_unitdata_ind_si3(ARFCN_14)           );
+      AWAIT (mph_unitdata_ind_si3(ARFCN_124)          );
+      SEND  (mph_meas_rep_req(NC_REPORT_MEAS)         );
+      AWAIT (mph_meas_rep_cnf_sc_n3()                 );
+
+      MUTE(1000);
+
+    }HANDLE_DEACT;
+  }
+}
+/*------------------------Following is for ALRG1018-------------------------------
+ *
+ * Description: RR selects the channel 23 after reading the BCCH carrier.
+ *              The cell has GPRS. Neighbour cell list consists of one cell
+ *              512.This tc tests the measurement reports in PTM state when
+ *              PBCCH is not present
+ *
+ *---------------------------------------------------------------------------------*/
+
+T_CASE ALR1018()
+{
+  BEGIN_CASE ("Meas_reports_in_PTM_state_alr1018")
+  {
+    TRAP_FOR_DEACT {
+      initiation_by_rr_8_channels_available_alr002();
+      find_bcch_carrier_first_channel_alr603();
+      read_bcch_data_alr007();
+      configuring_ms_for_idle_mode_and_meas();
+      SEND  ( mph_random_access_req_1()        );
+      AWAIT ( mphc_stop_rxlev_periodic_req()   );
+      AWAIT ( mphc_stop_scell_bcch_req()       );
+      AWAIT ( mphc_scell_nbcch_req_full()      );
+      AWAIT ( mphc_ra_req_3()                  );
+      SEND  ( mphc_ra_con_1()                  );
+      AWAIT ( mph_random_access_cnf_1()        );
+      AWAIT ( mphc_ra_req_4()                  );
+      immediate_assignment_for_the_mobile_station_alr056();
+      pdch_assignment_alrg007();
+      SEND  ( mph_idle_req_2g() );
+      AWAIT ( mphc_stop_rxlev_periodic_req()   );
+      AWAIT ( mphc_stop_scell_bcch_req()       );
+      SEND  ( mph_mon_ctrl_req(ENTER_PTM_BCCH) );
+      SEND  ( mph_meas_rep_req(NC_START_MEAS)  );
+      SEND  ( prim_tb_meas_ind_1()             );
+      MUTE(100);
+      SEND  ( prim_tb_meas_ind_2()             );
+      MUTE(100);
+      SEND  ( prim_tb_meas_ind_3()             );
+      MUTE(100);
+      SEND  ( prim_tb_meas_ind_1()             );
+      MUTE(100);
+      SEND  ( prim_tb_meas_ind_2()             );
+      AWAIT ( mph_measurement_ind_36A()        );
+      SEND  ( mph_meas_rep_req(NC_REPORT_MEAS) );
+      AWAIT ( mph_meas_rep_cnf_sc_n1()         );
+    }HANDLE_DEACT;
+  }
+}
+#endif  // GPRS
+
+#ifdef  FF_EGPRS
+/*------------------------Following is for ALR9800-------------------------------
+ *
+ * Description: Acquisition of SI-2quater when scheduled on EBCCH and when
+                GPRS is not supported
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9800()
+{
+  BEGIN_CASE ("EMR CASE: Periodic SI-2quater acquisition on EBCCH, GPRS not supported ")
+  {
+    TRAP_FOR_DEACT {
+      rr_cell_selection_emr('I','A','A');
+      SEND  ( mphc_rxlev_periodic_ind_1() );      /* 3 */
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_emr_1()     );
+
+      SEND  ( mphc_rxlev_periodic_ind_1() );      /* 4 */
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_emr_1()     );
+
+      SEND  ( mphc_rxlev_periodic_ind_1() );      /* 5 */
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_emr_1()     );
+
+      SEND  ( mphc_rxlev_periodic_ind_1() );      /* 6 */
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_emr_1()     );
+      AWAIT (mphc_scell_ebcch_req_si2q() );
+
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+#endif  // FF_EGPRS
+
+#ifdef  FF_EGPRS
+/*------------------------Following is for ALR9801-------------------------------
+ *
+ * Description: Acquisition of SI-2quater when scheduled on NBCCH and when
+                GPRS is not supported
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9801()
+{
+  BEGIN_CASE ("EMR CASE: Periodic SI-2quater acquisition on NBCCH, GPRS not supported ")
+  {
+    TRAP_FOR_DEACT {
+      rr_cell_selection_emr('J','A','A');
+
+      SEND  ( mphc_rxlev_periodic_ind_1() );      /* 3 */
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_emr_1()     );
+
+      SEND  ( mphc_rxlev_periodic_ind_1() );      /* 4 */
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_emr_1()     );
+
+      SEND  ( mphc_rxlev_periodic_ind_1() );      /* 5 */
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_emr_1()     );
+
+      SEND  ( mphc_rxlev_periodic_ind_1() );      /* 6 */
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_emr_1()     );
+
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+#endif  //FF_EGPRS
+
+#ifdef  FF_EGPRS
+/*------------------------Following is for ALR9802-------------------------------
+ *
+ * Description: Acquisition of SI-2quater when scheduled on EBCCH and when
+                GPRS is supported
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9802()
+{
+  BEGIN_CASE ("EMR CASE: Periodic SI-2quater acquisition on EBCCH, GPRS supported ")
+  {
+    TRAP_FOR_DEACT {
+      rr_cell_selection_emr('K','B','A');
+      /*Indication from SI-13 to update SI-2 and it's cousins*/
+      SEND (mph_mon_ctrl_req_1(START_MON_NBCCH,UPDATE_SI2_SI2BIS_OR_SI2TER) );
+      AWAIT (mphc_scell_nbcch_req_1() );
+      SEND  ( mphc_data_ind_2() );
+      AWAIT ( mph_unitdata_ind_si2(ARFCN_23) );
+      AWAIT (mphc_scell_ebcch_req_si2q() );
+
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+#endif  // FF_EGPRS
+
+#ifdef  FF_EGPRS
+/*------------------------Following is for ALR9803-------------------------------
+ *
+ * Description: Acquisition of SI-2quater when scheduled on EBCCH after cell reselection,
+ *              then periodic acquisition when GPRS is not supported
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9803()
+{
+  BEGIN_CASE ("EMR CASE: Periodic SI-2quater acquisition on EBCCH, GPRS not supported ")
+  {
+    TRAP_FOR_DEACT {
+      rr_cell_selection_emr('H','B','Z');
+
+      /*cell reselection starts*/
+      SEND  ( mph_idle_req_15_si2q(MODE_CELL_RESELECTION));
+      AWAIT ( mphc_stop_rxlev_periodic_req() );
+      AWAIT ( mphc_stop_scell_bcch_req()     );
+      AWAIT ( mphc_new_scell_req_20()          );
+      SEND  ( mphc_new_scell_con_1()           );
+      AWAIT ( mphc_start_ccch_req_5()          );
+      AWAIT ( mphc_scell_nbcch_req_full()         );
+      SEND  ( mphc_data_ind_63()               );
+      AWAIT ( mph_unitdata_ind_si3(ARFCN_14)             );
+      AWAIT ( mphc_start_ccch_req_12()         );
+      SEND  ( mphc_data_ind_64()               );
+      AWAIT ( mph_unitdata_ind_si1(ARFCN_14)            );
+      SEND  ( mphc_data_ind_11()               );
+      AWAIT ( mphc_start_ccch_req_13()         );
+      SEND  ( mphc_data_ind_65()               );
+      AWAIT ( mph_unitdata_ind_si2(ARFCN_14)            );
+      SEND  ( mph_idle_req_15_si2q(MODE_CELL_SELECTION));
+      SEND  ( mph_neighbourcell_req_13()       );
+      AWAIT ( mphc_stop_scell_bcch_req()     );
+      AWAIT ( mphc_start_ccch_req_14()         );
+      AWAIT (mphc_scell_ebcch_req_si2q() );
+      AWAIT ( mphc_rxlev_periodic_req_18()     );
+      AWAIT ( mphc_rxlev_periodic_req_18()     );
+
+      SEND (mph_mon_ctrl_req_1(STOP_MON_BCCH,UPDATE_SI2QUATER) );
+      AWAIT ( mphc_scell_nbcch_req_periodic()  );
+      /*
+
+
+      MUTE  ( 500 );*/
+    } HANDLE_DEACT;
+  }
+}
+#endif  // FF_EGPRS
+
+#ifdef  FF_EGPRS
+/*------------------------Following is for ALR9804-------------------------------
+ *
+ * Description: To test Enhanced reporting using both BA(BCCH) and BA(SACCH) in succession
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9804()
+{
+  BEGIN_CASE ("To test Enhanced reporting using both BA(BCCH) and BA(SACCH) in succession")
+  {
+    TRAP_FOR_DEACT {
+      /*Step 1: MS moved to Idle state, SI-2quater acquired, enhanced reporting
+        is enabled in ALR on BA(BCCH) */
+      rr_cell_selection_emr('J','C','B');
+      SEND  ( mphc_rxlev_periodic_ind_emr_1() );
+      AWAIT (mphc_ncell_list_sync_req_emr());
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_59, 20,SB_FOUND));
+      AWAIT (mphc_ncell_bcch_req_emr(ARFCN_59));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_73, 21,SB_FOUND));
+      AWAIT (mphc_ncell_bcch_req_emr(ARFCN_73));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_90, 22,SB_FOUND));
+      AWAIT (mphc_ncell_bcch_req_emr(ARFCN_90));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_108,24,SB_FOUND));
+      AWAIT (mphc_ncell_bcch_req_emr(ARFCN_108));
+
+      SEND  ( mphc_rxlev_periodic_ind_emr_1() );
+
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_1, 16,SB_FOUND));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_15, 17,SB_FOUND));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_30, 18,SB_FOUND));
+      AWAIT (mphc_ncell_bcch_req_emr(ARFCN_30));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_46,19,SB_FOUND));
+      AWAIT (mphc_ncell_bcch_req_emr(ARFCN_46));
+
+      SEND  ( mphc_rxlev_periodic_ind_emr_1() );
+      TIMEOUT(100);
+      AWAIT ( mph_measurement_ind_emr_1() );
+
+      /*Step 2: MS moved to dedicated state and continues to measure
+        and starts reporting on BA(BCCH) */
+      start_of_sending_channel_request_messages_gsm_900__alr9803();
+      immediate_assignment_for_the_mobile_station_alr056();
+
+      SEND (mphc_meas_report_emr('A') );
+      AWAIT ( mph_measurement_ind_emr_1() );
+
+      /*Step 3: MS received BA(SACCH), ALR configured with Neighbour cell request for BA(SACCH),
+        Reporting is reset to 'Normal' and MS starts normal reporting on BA(SACCH) */
+      SEND (mph_neighbourcell_req_emr_2() );
+      AWAIT (mphc_update_ba_list_emr() );
+      SEND (mph_enhpara_update_req_1 ('C')); /*report type NORMAL*/
+      SEND (mphc_meas_report_emr('B') ); /*Meas report on BA(SACCH)*/
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_580) );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_584) );
+      AWAIT (mphc_ncell_sync_req_initial(ARFCN_513) );
+      AWAIT (mph_measurement_ind_emr_1());
+
+
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_580, 28,SB_FOUND));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_584, 48,SB_FOUND));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_513, 17,SB_FOUND));
+      SEND (mphc_meas_report_emr('B') ); /*Meas report on BA(SACCH)*/
+
+      AWAIT (mph_measurement_ind_emr_1());
+      /*Step 3: Configure ALR for enhanced reporting with new GSM NC list
+        Assuming that MI messages have been received by RR through DL
+        we now inject Enhanced measurement parameters to ALR */
+      SEND (mph_enhpara_update_req_1 ('D'));
+      SEND (mphc_meas_report_emr('B') ); /*Meas report on BA(SACCH)*/
+      AWAIT (mphc_ncell_list_sync_req_emr());
+      AWAIT (mph_measurement_ind_emr_1());
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_581, 29,SB_FOUND));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_578, 27,SB_FOUND));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_525, 26,SB_FOUND));
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+#endif  // FF_EGPRS
+
+#ifdef  FF_EGPRS
+/*------------------------Following is for ALR9805-------------------------------
+ *
+ * Description: To test Enhanced reporting using BA(SACCH) with cells of low report priority
+ *              and change in ranking at second report
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9805()
+{
+  BEGIN_CASE ("To test Enhanced reporting using BA(SACCH) with cells of low report priority")
+  {
+    TRAP_FOR_DEACT {
+      rr_cell_selection_emr('J','C','Z');
+      SEND  ( mphc_rxlev_periodic_ind_emr_1() );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_108) );
+      AWAIT (mphc_ncell_sync_req_initial(ARFCN_90) );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_73) );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_59) );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_46) );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_30) );
+
+
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_59, 20,SB_FOUND));
+      AWAIT (mphc_ncell_bcch_req_emr(ARFCN_59));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_73, 21,SB_FOUND));
+      AWAIT (mphc_ncell_bcch_req_emr(ARFCN_73));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_90, 22,SB_FOUND));
+      AWAIT (mphc_ncell_bcch_req_emr(ARFCN_90));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_108,24,SB_FOUND));
+      AWAIT (mphc_ncell_bcch_req_emr(ARFCN_108));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_30, 18,SB_FOUND));
+      AWAIT (mphc_ncell_bcch_req_emr(ARFCN_30));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_46,19,SB_FOUND));
+      AWAIT (mphc_ncell_bcch_req_emr(ARFCN_46));
+
+
+      /*Step 2: MS moved to dedicated state and continues to measure
+        and starts reporting on BA(BCCH) */
+      start_of_sending_channel_request_messages_gsm_900__alr9803();
+      immediate_assignment_for_the_mobile_station_alr056();
+
+      SEND (mphc_meas_report_emr('A') );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1) );
+      AWAIT ( mph_measurement_ind_emr_1() );
+
+      /*Step 3: MS received BA(SACCH), ALR configured with Neighbour cell request for BA(SACCH),
+        Reporting is reset to 'Normal' and MS starts normal reporting on BA(SACCH) */
+      SEND (mph_neighbourcell_req_emr_2() );
+      AWAIT (mphc_update_ba_list_emr() );
+
+      SEND (mphc_meas_report_emr('B') ); /*Meas report on BA(SACCH)*/
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_580) );
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_584) );
+      AWAIT (mphc_ncell_sync_req_initial(ARFCN_513) );
+      /*
+      AWAIT ( mphc_ncell_sync_req_initial(ARFCN_581) );
+            AWAIT ( mphc_ncell_sync_req_initial(ARFCN_578) );
+            AWAIT ( mphc_ncell_sync_req_initial(ARFCN_525) ); */
+
+      AWAIT (mph_measurement_ind_emr_1());
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_580, 28,SB_FOUND));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_584, 48,SB_FOUND));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_513, 17,SB_FOUND));
+      /*
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_581, 29,SB_FOUND));
+            SEND (mphc_ncell_sync_ind_emr(ARFCN_578, 27,SB_FOUND));
+            SEND (mphc_ncell_sync_ind_emr(ARFCN_525, 26,SB_FOUND));*/
+
+      SEND (mphc_meas_report_emr('B') ); /*Meas report on BA(SACCH)*/
+
+      AWAIT (mph_measurement_ind_emr_1());
+      /*Step 3: Configure ALR for enhanced reporting with new GSM NC list
+        Assuming that MI messages have been received by RR through DL
+        we now inject Enhanced measurement parameters to ALR
+      Here, cells are of mixed priority, some low and some high*/
+      SEND (mph_enhpara_update_req_1 ('E'));
+      SEND (mphc_meas_report_emr('B') ); /*Meas report on BA(SACCH)*/
+      AWAIT (mphc_ncell_list_sync_req_emr());
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_581, 29,SB_FOUND));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_578, 27,SB_FOUND));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_525, 26,SB_FOUND));
+      AWAIT (mph_measurement_ind_emr_1());
+      SEND (mphc_meas_report_emr('C') );
+      AWAIT (mphc_ncell_list_sync_req_emr());
+      AWAIT (mph_measurement_ind_emr_1());
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_512, 16,SB_FOUND));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_516, 25,SB_FOUND));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_582, 30,SB_FOUND));
+      SEND (mphc_ncell_sync_ind_emr(ARFCN_583, 31,SB_FOUND));
+      SEND (mphc_meas_report_emr('C') );
+      AWAIT (mph_measurement_ind_emr_1());
+      MUTE  ( 500 );
+    } HANDLE_DEACT;
+  }
+}
+
+
+#endif  // FF_EGPRS
+
+/*------------------------Following is for ALR9806-------------------------------
+ * Description:
+ *        Measurement Reporting for the following Scenario
+ *          In case of Cell Reselection the MPH_IDLE_REQ (MODE_CELL_RESELECTION)
+ *        will be sent two times from RR to ALR. Because during the
+ *        cell reselection the Paging Group configuration might not be known
+ *        by the MS. MS has to read the SI3 to find the Paging Group. The second
+ *        IDLE REQ will be sent from RR to ALR to configure the Paging group.
+ *-------------------------------------------------------------------------------*/
+
+
+T_CASE ALR9806()
+{
+  BEGIN_CASE ("measurement_reporting_after_cell_reselection_bs_pa_mfrms_4_alr9806")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+
+      /*
+       * Fist IDLE_REQ configure PL with Cell Reselection Mode
+       * Second IDLE_REQ configure PL with Cell Selction Mode [PGM Config]
+       */
+
+      measurement_reporting_configuration_alr9806();
+
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_7()     );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      SEND  ( mphc_rxlev_periodic_ind_1() );
+      AWAIT ( mph_measurement_ind_7()     );
+
+      MUTE (1000);
+
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR9806a-------------------------------
+ * Description: Cell selection.with FULL Search.mode will do measure
+ *                the carrier strength 5 times and the average will be
+ *                reported to RR through MPH_POWER_CNF
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9806A()
+{
+  BEGIN_CASE ("initiation_by_rr_with_full_search_alr9806a")
+  {
+    TRAP_FOR_DEACT {
+      COMMAND("TAP RESET");
+      COMMAND("PL RESET");
+      filter_and_routings_gsm_900__alr000();
+
+      /* FULL Search will do the measurement 5 Times */
+      SEND  ( mph_power_req_variant(FULL_SEARCH_MODE, 'X')     );
+      rxlevel_measurement_based_on_search_quadband(FULL_SEARCH_MODE, RXLEV_IDX_2, PCH_INTERRUPT);
+
+      AWAIT ( mph_power_cnf_2()           );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR9806b-------------------------------
+ * Description: Cell selection.with Normal Search.mode will do measure
+ *                the carrier strength 5 times and the average will be
+ *                reported to RR through MPH_POWER_CNF
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9806B()
+{
+  BEGIN_CASE ("initiation_by_rr_with_normal_search_alr9806b")
+  {
+    TRAP_FOR_DEACT {
+      COMMAND("TAP RESET");
+      COMMAND("PL RESET");
+      filter_and_routings_gsm_900__alr000();
+
+      /* Normal Search will do the measurement 5 Times */
+      SEND  ( mph_power_req_variant(NORMAL_SEARCH_MODE, 'X')     );
+      rxlevel_measurement_based_on_search_quadband(NORMAL_SEARCH_MODE, RXLEV_IDX_2, PCH_INTERRUPT);
+
+      AWAIT ( mph_power_cnf_2()           );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR9806c-------------------------------
+ * Description: Cell selection.with FAST Search.mode will do measure
+ *                the carrier strength only once and the strengh will be
+ *                reported to RR through MPH_POWER_CNF
+ *                and will measure the rxlevel
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9806C()
+{
+  BEGIN_CASE ("initiation_by_rr_with_fast_search_alr9806c")
+  {
+    TRAP_FOR_DEACT {
+      COMMAND("TAP RESET");
+      COMMAND("PL RESET");
+      filter_and_routings_gsm_900__alr000();
+
+      /* FAST Search will do the measurement only once   */
+      SEND  ( mph_power_req_variant(FAST_SEARCH_MODE, 'X')     );
+      rxlevel_measurement_based_on_search_quadband(FAST_SEARCH_MODE, RXLEV_IDX_2, PCH_INTERRUPT);
+
+      AWAIT ( mph_power_cnf_2()           );
+      MUTE(1000);
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR9806d-------------------------------
+ * Description: RR starts a cell selection.with BLACKLIST Search.mode
+ *                and will measure the rxlevel only once
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9806D()
+{
+  BEGIN_CASE ("initiation_by_rr_with_Blacklist_search_alr9806D")
+  {
+    TRAP_FOR_DEACT {
+      COMMAND("TAP RESET");
+      COMMAND("PL RESET");
+      filter_and_routings_gsm_900__alr000();
+
+      /* Blacklist Search will do the measurement only once */
+      SEND  ( mph_power_req_variant(BLACK_LIST_SEARCH_MODE, 'X')     );
+      rxlevel_measurement_based_on_search_quadband(BLACK_LIST_SEARCH_MODE, RXLEV_IDX_2, PCH_INTERRUPT);
+
+      /* Blacklist Search will report only the inactive carrier list to RR
+       * The number of channels in the POWER_CNF will be always 0
+       */
+      AWAIT(mph_power_cnf_2());
+
+      MUTE(1000);
+    } HANDLE_DEACT;
+  }
+}
+
+
+/*------------------------Following is for ALR9807-------------------------------
+ * Description:
+ *        (1) Whitelist carriers provided by the RR needs to be reported on top
+ *            of the MPH_POWER_CNF in decreasing order, other carriers will
+ *            follow the whitelist carriers in decreasing order.
+ *
+ *            Whitelist carriers are : ARFCN_14_STD_900, ARFCN_1_STD_900
+ *
+ *        (2) Whitelist carriers provided by the RR needs to be reported on top
+ *            of the MPH_POWER_CNF in decreasing order, other carriers will
+ *            follow the whitelist carriers in decreasing order. If the
+ *            whitelist carriers reported by RR is more than 32 needs to be
+ *            ignored by ALR.
+ *        (3) Cariers reported by L1 are 0, then the MPH_POWER_CNF should report
+ *            0 carriers to RR.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9807()
+{
+  BEGIN_CASE ("whitelist_validation_case_alr9807")
+  {
+    TRAP_FOR_DEACT {
+      /* Scenario 1 */
+      filter_and_routings_gsm_900__alr000();
+      SEND  ( mph_power_req_variant(FULL_SEARCH_MODE, 'B')         );
+      rxlevel_measurement_based_on_search_quadband(FULL_SEARCH_MODE, RXLEV_IDX_1, PCH_INTERRUPT);
+      AWAIT ( mph_power_cnf_3_new()       );
+      /* Scenario 2 */
+      SEND  ( mph_power_req_variant(FULL_SEARCH_MODE, 'C') );
+      rxlevel_measurement_based_on_search_quadband(FULL_SEARCH_MODE, RXLEV_IDX_9, PCH_INTERRUPT);
+      AWAIT ( mph_power_cnf_32_whitelist()       );
+      /* Scenario 3 */
+      SEND  ( mph_power_req_variant(FULL_SEARCH_MODE, 'C') );
+      rxlevel_measurement_based_on_search_quadband(FULL_SEARCH_MODE, RXLEV_IDX_10, PCH_INTERRUPT);
+      AWAIT ( mph_power_cnf_2()       );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR9808-------------------------------
+ * Description:          (Scenarios)
+ *      (1) Carriers which has the rxlevel lower than the LOWER_THRESHOLD
+ *            should be reported in inactive_carrier_list of MPH_POWER_CNF
+ *      (2) Carriers which are reported as blacklist carriers by RR shall not
+ *            participate in MPH_POWER_CNF (NORMAL SEARCH)
+ *      (3) Carriers which are reported as blacklist carriers by RR shall not
+ *            participate in MPH_POWER_CNF (FAST SEARCH)
+ *      (4) Carriers which are reported as blacklist carriers by RR shall not
+ *            participate in MPH_POWER_CNF (BLACK LIST SEARCH)
+ *      (5) Carriers which are reported as blacklist carriers  by RR shall
+ *            participate in MPH_POWER_CNF only in case of FULLSEARCH
+ *      (6) Same carriers in Black list and other region white list
+ *          Ex:  Same Data in European Region Blacklist and American Region white list
+ *               could be send in MPH_POWER_REQ.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9808()
+{
+  BEGIN_CASE ("blacklist_validation_case_alr9808")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      /* Scenario 1 */
+      SEND  ( mph_power_req_variant(FULL_SEARCH_MODE, 'D') );
+      rxlevel_measurement_based_on_search_quadband(FULL_SEARCH_MODE, RXLEV_IDX_7, PCH_INTERRUPT);
+      AWAIT ( mph_power_cnf_black()       );
+
+      /* Scenario 2 */
+      SEND  ( mph_power_req_variant(NORMAL_SEARCH_MODE, 'F')         );
+      rxlevel_measurement_based_on_search_quadband(NORMAL_SEARCH_MODE, RXLEV_IDX_1, PCH_INTERRUPT);
+      AWAIT ( mph_power_cnf_same_white_black()       );
+
+      /* Scenario 3 */
+      SEND  ( mph_power_req_variant(FAST_SEARCH_MODE, 'F')         );
+      rxlevel_measurement_based_on_search_quadband(FAST_SEARCH_MODE, RXLEV_IDX_1, PCH_INTERRUPT);
+      AWAIT ( mph_power_cnf_same_white_black()       );
+
+      /* Scenario 4 */
+      SEND  ( mph_power_req_variant(BLACK_LIST_SEARCH_MODE, 'F')         );
+      rxlevel_measurement_based_on_search_quadband(BLACK_LIST_SEARCH_MODE, RXLEV_IDX_7, PCH_INTERRUPT);
+      AWAIT ( mph_power_cnf_variant('D')       );
+
+      /* Scenario 5 */
+      SEND  ( mph_power_req_variant(FULL_SEARCH_MODE, 'D') );
+      rxlevel_measurement_based_on_search_quadband(FULL_SEARCH_MODE, RXLEV_IDX_7, PCH_INTERRUPT);
+      AWAIT ( mph_power_cnf_black()       );
+
+      /* Scenario 6 */
+      SEND  ( mph_power_req_variant(NORMAL_SEARCH_MODE, 'M')         );
+      rxlevel_measurement_based_on_search_quadband(NORMAL_SEARCH_MODE, RXLEV_IDX_1, PCH_INTERRUPT);
+      AWAIT ( mph_power_cnf_3_new()       );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR9809-------------------------------
+ * Description:
+ *        (Scenario 1 & 2)
+ *               Rxlevel for FULL/NORMAL SEARCH (measurement will be taken
+ *               only once) should be reported by the same measured value
+ *               {ARFCN, Measured value }       : { 23, 280},{124, 125}
+ *               Resultant (POWER_CNF) rxlevel : { 23, 56}, {124, 25}
+ *               [In POWER_CNF rxlevel is an U8 so instead of 280 value 24]
+ *               [(280) 1 0001 1000 - 9th bit 1 will not be received]
+ *        (Scenario 3 )
+ *               Rxlevel for FAST SEARCH (measurement will be taken
+ *               only once) should be reported by the same measured value
+ *               {ARFCN, Measured value }       : { 23, 280},{124, 125}
+ *               Resultant (POWER_CNF) rxlevel : { 23, 24}, {124, 125}
+ *               [In POWER_CNF rxlevel is an U8 so instead of 280 value 24]
+ *               [(280) 1 0001 1000 - 9th bit 1 will not be received]
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9809()
+{
+  BEGIN_CASE ("rxlevel_validation_case_alr9809")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      /* Scenario - 1 = FULL_SEARCH */
+      SEND  ( mph_power_req_variant(FULL_SEARCH_MODE, 'F')         );
+      rxlevel_measurement_based_on_search_quadband(FULL_SEARCH_MODE, RXLEV_IDX_1, PCH_INTERRUPT);
+      AWAIT ( mph_power_cnf_3_new()       );
+      /* Scenario - 2 = NORMAL_SEARCH */
+      SEND  ( mph_power_req_variant(NORMAL_SEARCH_MODE, 'F')         );
+      rxlevel_measurement_based_on_search_quadband(NORMAL_SEARCH_MODE, RXLEV_IDX_1, PCH_INTERRUPT);
+      AWAIT ( mph_power_cnf_rxlevel('A')       );
+      /* Scenario - 3 = FAST_SEARCH */
+      SEND  ( mph_power_req_variant(FAST_SEARCH_MODE, 'F')         );
+      rxlevel_measurement_based_on_search_quadband(FAST_SEARCH_MODE, RXLEV_IDX_1, PCH_INTERRUPT);
+      AWAIT ( mph_power_cnf_rxlevel('B')       );
+      /*
+       * In case of blacklist search the number of channels in MPH_POWER_CNF will be always
+       *  0. So testing rxlevel is not needed in case of BLACK_LIST_SEARCH.
+       */
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR9810-------------------------------
+ *   Description:  (Scenario)
+ *      (1) Test case for STD_850 (American band) with US BIT
+ *      (2) Test case for STD_850 (American band) with US BIT & Blacklist Carriers
+ *-------------------------------------------------------------------------------*/
+
+
+T_CASE ALR9810()
+{
+  BEGIN_CASE ("validation_case_for_american_band_alr9810")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      /* Scenario 1 - US BIT */
+      SEND  ( mph_power_req_variant(FAST_SEARCH_MODE, 'G')         );
+      rxlevel_measurement_based_on_search_american(FAST_SEARCH_MODE, STD_850, RXLEV_IDX_1);
+      AWAIT ( mph_power_cnf_american()       );
+      /* Scenario 2 - Blacklisted carriers */
+      SEND  ( mph_power_req_variant(FAST_SEARCH_MODE, 'H')         );
+      rxlevel_measurement_based_on_search_american(FAST_SEARCH_MODE, STD_850, RXLEV_IDX_1);
+      AWAIT ( mph_power_cnf_american1()       );
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR9811-------------------------------
+ * Description: Parallel Search type with FULL_SEARCH_MODE
+ *      The parallel type will be used only in case of the MS is in idle mode,
+ *   and the other task would not get disturbed while doing the power measurement.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9811()
+{
+  BEGIN_CASE ("parallel_search_cs_improvement_cases_alr9811")
+  {
+    TRAP_FOR_DEACT {
+      /* To move the MS to IDLE mode to start parallel search */
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+
+      /* Send a Parallel Search type with FULL_SEARCH_MODE */
+      SEND  ( mph_power_req_variant(FULL_SEARCH_MODE, 'A')     );
+      rxlevel_measurement_based_on_search_quadband(FULL_SEARCH_MODE, RXLEV_IDX_1, NO_PCH_INTERRUPT);
+
+      AWAIT(mph_power_cnf_3_new());
+
+      /*  The following primitives are to ensure that after the parallel search
+       *  ALR is still in IDLE State.
+       */
+      start_of_sending_channel_request_messages_gsm_900__alr055();
+      immediate_assignment_for_the_mobile_station_alr056();
+      neighbour_cell_in_dedicated_alr155();
+
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR9812-------------------------------
+ * Description: Parallel Search type with NORMAL_SEARCH_MODE
+ *      The parallel type will be used only in case of the MS is in idle mode,
+ * and the other task would not get disturbed while doing the power measurement.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9812()
+{
+  BEGIN_CASE ("parallel_search_cs_improvement_cases_alr9812")
+  {
+    TRAP_FOR_DEACT {
+      /* To move the MS to IDLE mode to start parallel search */
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+
+      /* Send a Parallel Search type with NORMAL_SEARCH_MODE */
+      SEND  ( mph_power_req_variant(NORMAL_SEARCH_MODE, 'A')     );
+      rxlevel_measurement_based_on_search_quadband(NORMAL_SEARCH_MODE, RXLEV_IDX_1, NO_PCH_INTERRUPT);
+
+      AWAIT(mph_power_cnf_rxlevel('A'));
+
+      /*  The following primitives are to ensure that after the parallel search
+       *  ALR is still in IDLE State.
+       */
+      start_of_sending_channel_request_messages_gsm_900__alr055();
+      immediate_assignment_for_the_mobile_station_alr056();
+      neighbour_cell_in_dedicated_alr155();
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR9813-------------------------------
+ * Description: Parallel Search type with FAST_SEARCH_MODE
+ *      The parallel type will be used only in case of the MS is in idle mode,
+ * and the other task would not get disturbed while doing the power measurement.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9813()
+{
+  BEGIN_CASE ("parallel_search_cs_improvement_cases_alr9813")
+  {
+    TRAP_FOR_DEACT {
+      /* To move the MS to IDLE mode to start parallel search */
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+
+      /* Send a Parallel Search type with FAST_SEARCH_MODE */
+      SEND  ( mph_power_req_variant(FAST_SEARCH_MODE, 'A')     );
+      rxlevel_measurement_based_on_search_quadband(FAST_SEARCH_MODE, RXLEV_IDX_1, NO_PCH_INTERRUPT);
+
+      AWAIT(mph_power_cnf_rxlevel('B'));
+
+      /*  The following primitives are to ensure that after the parallel search
+       *  ALR is still in IDLE State.
+       */
+      start_of_sending_channel_request_messages_gsm_900__alr055();
+      immediate_assignment_for_the_mobile_station_alr056();
+      neighbour_cell_in_dedicated_alr155();
+    } HANDLE_DEACT;
+  }
+}
+
+
+/*------------------------Following is for ALR9814-------------------------------
+ * Description: Parallel Search type with BLACK_LIST_SEARCH_MODE
+ *      The parallel type will be used only in case of the MS is in idle mode,
+ * and the other task would not get disturbed while doing the power measurement.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9814()
+{
+  BEGIN_CASE ("parallel_search_cs_improvement_cases_alr9814")
+  {
+    TRAP_FOR_DEACT {
+      /* To move the MS to IDLE mode to start parallel search */
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      rr_select_first_channel_alr013();
+
+      /* Send a Parallel Search type with BLACK_LIST_SEARCH_MODE */
+      SEND  ( mph_power_req_variant(BLACK_LIST_SEARCH_MODE, 'A')     );
+      rxlevel_measurement_based_on_search_quadband(BLACK_LIST_SEARCH_MODE, RXLEV_IDX_1, NO_PCH_INTERRUPT);
+
+      AWAIT(mph_power_cnf_variant('X'));
+
+      /*  The following primitives are to ensure that after the parallel search
+       *  ALR is still in IDLE State.
+       */
+      start_of_sending_channel_request_messages_gsm_900__alr055();
+      immediate_assignment_for_the_mobile_station_alr056();
+      neighbour_cell_in_dedicated_alr155();
+    } HANDLE_DEACT;
+  }
+}
+
+
+/*------------------------Following is for ALR9815-------------------------------
+ * Description: General testcase scenarios to test the Cell Selection Improvement
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9815()
+{
+  BEGIN_CASE ("general_cell_selection_imporvement_cases_alr9815")
+  {
+    TRAP_FOR_DEACT {
+      /* Scenario 1 - All carriers are lower than min rxlevel */
+      COMMAND("TAP RESET");
+      COMMAND("PL RESET");
+      filter_and_routings_gsm_900__alr000();
+
+      SEND  ( mph_power_req_variant(FULL_SEARCH_MODE, 'J')     );
+      rxlevel_measurement_based_on_search_quadband(FULL_SEARCH_MODE, RXLEV_IDX_11, PCH_INTERRUPT);
+
+      /* The POWER_CNF number of channels should be 0 and all the carriers should
+       * added in to the inactive carriers.
+       */
+      AWAIT(mph_power_cnf_variant('B'));
+
+      /* Scenario 2 - Whitelist reported by RR is not present in L1 Power measurement */
+      COMMAND("TAP RESET");
+      COMMAND("PL RESET");
+      filter_and_routings_gsm_900__alr000();
+
+      SEND  ( mph_power_req_variant(FULL_SEARCH_MODE, 'L')     );
+      rxlevel_measurement_based_on_search_quadband(FULL_SEARCH_MODE, RXLEV_IDX_1, PCH_INTERRUPT);
+
+      /* The POWER_CNF number of channels should be 0 and all the carriers should
+       * added in to the inactive carriers.
+       */
+
+      AWAIT(mph_power_cnf_variant('C'));
+
+      /* Scenario 3 - White list invalid */
+      COMMAND("TAP RESET");
+      COMMAND("PL RESET");
+      filter_and_routings_gsm_900__alr000();
+
+      SEND  ( mph_power_req_variant(FULL_SEARCH_MODE, 'J')     );
+      rxlevel_measurement_based_on_search_quadband(FULL_SEARCH_MODE, RXLEV_IDX_1, PCH_INTERRUPT);
+
+      AWAIT ( mph_power_cnf_variant('C') );
+
+      /* Scenario 4 - White list valid and NO white list carriers */
+      COMMAND("TAP RESET");
+      COMMAND("PL RESET");
+      filter_and_routings_gsm_900__alr000();
+
+      SEND  ( mph_power_req_variant(FULL_SEARCH_MODE, 'X')     );
+      rxlevel_measurement_based_on_search_quadband(FULL_SEARCH_MODE, RXLEV_IDX_1, PCH_INTERRUPT);
+
+      AWAIT (mph_power_cnf_variant('C'));
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR9816-------------------------------
+ * Description:
+ *      ALR will forward the measurement report to RR only the Neighbor Cell state
+ * is in "NC_IDLE". The following test case is to test the ALR, whether it's
+ * forwarding the Measurement report to RR after the parallel search is over.
+ *
+ *      As per the existing code after the parallel search the MPH_BSIC_REQ has
+ * to be sent to ALR, to enable the ALR to forward the MEASUREMENT_IND to RR.
+ * But in case of Blacklist search the number of carriers will be always 0 and
+ * there will not be any MPH_BSIC_REQ sent to ALR.  In ALR if the search type is
+ * Blacklist search the NC state will be changed to NC_IDLE, before sending the
+ * MPH_POWER_CNF to RR.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9816()
+{
+  BEGIN_CASE ("nc_idle_after_blacklist_search_cs_improvement_cases_alr9816")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      initiation_by_rr_4_channels_available_alr001();
+      find_bcch_carrier_first_channel_alr003();
+      read_bcch_data_alr007();
+      measurement_reporting_configuration_alr030('A');
+
+      meas_rep_bs_pa_mfrms_2();
+
+      /* Blacklist Search will do the measurement only once */
+      SEND  ( mph_power_req_variant(BLACK_LIST_SEARCH_MODE, 'A') );
+      rxlevel_measurement_based_on_search_quadband(BLACK_LIST_SEARCH_MODE, RXLEV_IDX_1, NO_PCH_INTERRUPT);
+
+      /* Blacklist Search will report the inactive carrier list to RR */
+      AWAIT(mph_power_cnf_variant('X'));
+
+      meas_rep_bs_pa_mfrms_2();
+
+    } HANDLE_DEACT;
+  }
+}
+
+/* CSImp Phase II Testcases Starts from here */
+
+/*------------------------Following is for ALR9817-------------------------------
+ * Description:
+ *      First 40 Carriers in all bands should get priority to participarte in
+ *      MPH_POWER_CNF.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9817()
+{
+  BEGIN_CASE ("all_bands_first_40_get_priority_alr9817")
+  {
+    TRAP_FOR_DEACT {
+      COMMAND("TAP RESET");
+      COMMAND("PL RESET");
+      filter_and_routings_gsm_900__alr000();
+
+      SEND  (mph_power_req_variant(FULL_SEARCH_MODE, 'K')     );
+
+      /* L1 will report more than 80 carriers to ALR */
+      rxlevel_measurement_based_on_search_quadband(FULL_SEARCH_MODE, RXLEV_IDX_12, PCH_INTERRUPT);
+
+      /* MPH_POER_CNF maximum carrier will be 80 */
+      AWAIT(mph_power_cnf_overlap1());
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR9818-------------------------------
+ * Description:
+ *      With some wrong carriers given by L1 (ALR will skip these carriers).
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9818()
+{
+  BEGIN_CASE ("some_wrong_carriers_reported_by_l1_alr9818")
+  {
+    TRAP_FOR_DEACT {
+      COMMAND("TAP RESET");
+      COMMAND("PL RESET");
+      filter_and_routings_gsm_900__alr000();
+
+      SEND  ( mph_power_req_variant(FULL_SEARCH_MODE, 'K')     );
+
+      /* L1 will report more than exactly 160 carriers  to ALR */
+      rxlevel_measurement_based_on_search_quadband(FULL_SEARCH_MODE, RXLEV_IDX_13, PCH_INTERRUPT);
+
+      /* MPH_POER_CNF maximum carrier will be 160 */
+      AWAIT ( mph_power_cnf_overlap());
+    } HANDLE_DEACT;
+  }
+}
+
+
+/*------------------------Following is for ALR9819-------------------------------
+ * Description:
+ *     More than sixty carrier per band should get removed from the MPH_POWER_CNF
+ *     and the first 40 carriers for all band should get priority.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9819()
+{
+  BEGIN_CASE ("more_than_60_carrier_per_band_should_get_removed_alr9819")
+  {
+    TRAP_FOR_DEACT {
+      COMMAND("TAP RESET");
+      COMMAND("PL RESET");
+      filter_and_routings_gsm_900__alr000();
+
+      SEND  ( mph_power_req_variant(FULL_SEARCH_MODE, 'K'));
+
+      /* L1 will report more than exactly 160 carriers  to ALR */
+      rxlevel_measurement_based_on_search_quadband(FULL_SEARCH_MODE, RXLEV_IDX_14, PCH_INTERRUPT);
+
+      /* MPH_POER_CNF maximum carrier will be 160 */
+      AWAIT(mph_power_cnf_overlap());
+    } HANDLE_DEACT;
+  }
+}
+
+/*------------------------Following is for ALR9820-------------------------------
+ * Description:
+ *  ALL Whitelist carriers should get priority to participate in the MPH_POWER_CNF.
+ *  After adding the whitelist carriers to POWER_CNF it should be removed from the
+ *  power array during sorting
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9820()
+{
+  BEGIN_CASE ("whitelist_also_should_fall_in_first_40_carriers_alr9820")
+  {
+    TRAP_FOR_DEACT {
+      COMMAND("TAP RESET");
+      COMMAND("PL RESET");
+      filter_and_routings_gsm_900__alr000();
+
+	  SEND  ( mph_power_req_variant(FULL_SEARCH_MODE, 'C') );
+
+      /* L1 will report more than exactly 160 carriers  to ALR */
+      rxlevel_measurement_based_on_search_quadband(FULL_SEARCH_MODE, RXLEV_IDX_14, PCH_INTERRUPT);
+
+      /* MPH_POER_CNF maximum carrier will be 160 */
+      AWAIT(mph_power_cnf_overlap());
+    } HANDLE_DEACT;
+  }
+}
+
+
+/*------------------------Following is for ALR9821-------------------------------
+ * Description:
+ *       Inactive carriers will be get removed before sorting.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9821()
+{
+  BEGIN_CASE ("inactive_carriers_get_removed_alr9821")
+  {
+    TRAP_FOR_DEACT {
+      COMMAND("TAP RESET");
+      COMMAND("PL RESET");
+      filter_and_routings_gsm_900__alr000();
+
+	  SEND  ( mph_power_req_variant(FULL_SEARCH_MODE, 'C') );
+
+      /* L1 will report more than exactly 160 carriers  to ALR */
+      rxlevel_measurement_based_on_search_quadband(FULL_SEARCH_MODE, RXLEV_IDX_15, PCH_INTERRUPT);
+
+      /* MPH_POER_CNF maximum carrier will be 160 */
+      AWAIT(mph_power_cnf_overlap());
+    } HANDLE_DEACT;
+  }
+}
+
+/* CSImp Phase II Testcases ends here */
+
+
+/*------------------------Following is for ALR9822-------------------------------
+ * Description:
+ *         MS starts Non Parallel cell selection. 
+ *         ALR performs a Network Sync.
+ *         Meanwhile, Manual search is initiated by the user.
+ *         To test the TIM_NW_SYNC_GUARD Timer Stop [CQ : 32448]
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9822()
+{
+  BEGIN_CASE ("TIM_NW_SYNC_GUARD_expiry_during_manual_search_alr9822")
+  {
+    TRAP_FOR_DEACT {
+      COMMAND("TAP RESET");
+      COMMAND("PL RESET");
+
+      /* Non Parallel cell selection */
+      initiation_by_rr_4_channels_available_alr001();
+
+      SEND  ( mph_bsic_req(ARFCN_23_STD_900)  );
+      /* ALR performs a Network Sync. */
+      AWAIT ( mphc_network_sync_req(ARFCN_23, SM_WIDE_MODE) );
+
+      /* Manual search is initiated by the user */
+      SEND  ( mph_sync_req(CS_STOP_PLMN_SEARCH));
+
+      AWAIT ( mphc_stop_network_sync_req_1() );
+      SEND  ( mphc_stop_network_sync_con_1() );
+
+      SEND  ( mph_power_req_1()           );
+      AWAIT ( mphc_init_l1_req_1()        );
+      SEND  ( mphc_init_l1_con_1()        );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2) );
+      AWAIT ( mphc_rxlev_req()            );
+      SEND  ( mphc_rxlev_ind(RXLEV_IDX_2) );
+      AWAIT ( mph_power_cnf_2()           );
+
+    } HANDLE_DEACT;
+  }
+}
+
+
+
+/*------------------------Following is for ALR9823-------------------------------
+ * Description:          
+ *      Carriers which has the rxlevel lower than the LOWER_THRESHOLD
+ *      should be reported in inactive_carrier_list of MPH_POWER_CNF
+ *      This TC tests addotion of carriers to inactive_carrier_list
+ *      in case of different LOWER_THRESHOLD values for different bands.
+ *-------------------------------------------------------------------------------*/
+
+T_CASE ALR9823()
+{
+  BEGIN_CASE ("lower_rxlevel_thr_for_different_bands_alr9823")
+  {
+    TRAP_FOR_DEACT {
+      filter_and_routings_gsm_900__alr000();
+      SEND  ( mph_power_req_variant(NORMAL_SEARCH_MODE, 'O')         );
+      rxlevel_measurement_based_on_search_quadband(NORMAL_SEARCH_MODE, RXLEV_IDX_1, PCH_INTERRUPT);
+      AWAIT ( mph_power_cnf_lrxt()       );
+
+    } HANDLE_DEACT;
+  }
+}