view cdg3/sap/rrlp.pdf @ 498:dfa8771e84b1
OSL: os_pro_ir.c compiles
| author |
Mychaela Falconia <falcon@freecalypso.org> |
| date |
Sun, 24 Jun 2018 21:32:13 +0000 (2018-06-24) |
| parents |
c15047b3d00d |
| children |
|
line source
;********************************************************************************
;*** File : rrlp.pdf
;*** Creation : Wed Mar 11 09:58:48 CST 2009
;*** XSLT Processor : Apache Software Foundation / http://xml.apache.org/xalan-j / supports XSLT-Ver: 1
;*** Copyright : (c) Texas Instruments AG, Berlin Germany 2002
;********************************************************************************
;*** Document Type : Service Access Point Specification
;*** Document Name : rrlp
;*** Document No. : 8443.102.02.100
;*** Document Date : 2002-11-13
;*** Document Status: APPROVED
;*** Document Author: TML
;********************************************************************************
PRAGMA SRC_FILE_TIME "Thu Nov 29 09:53:06 2007"
PRAGMA LAST_MODIFIED "2002-11-13"
PRAGMA ID_AND_VERSION "8443.102.02.100"
CONST R_NUM_MEAS_SETS 3 ; Number of BTS measurements
CONST R_MAX_REF_NEIGH_BTS 15 ; Maximum number of reference neighbour BTS
CONST MAX_NCELL_EOTD 15 ; Maximum number of E-OTD measurements
VALTAB VAL_cause
VAL 7 RRLP_METHOD_INVALID "Position method is not supported"
VAL 10 RRLP_REF_BTS_INVALID "The ref. BTS for E-OTD is not the serving BTS"
VAL 20 RRLP_HANDOVER "The measurement procedure was interrupted by a handover. No RRLP specific error message is created."
VALTAB VAL_exp_otd
VAL 0 - 1250 "The used resolution is 1 bits. This OTD value is the OTD value of TS0s (i.e. the difference in starting of TS0), not only the OTD between starts of bursts expected OTD between the scell and the specified cell. Note: 1250 is interpreted as 0"
VALTAB VAL_loc_method
VAL 0 EOTD_METHOD ""
VAL 1 GPS_METOD ""
VAL 2 GPS_OR_EOTD_METOD ""
VALTAB VAL_mfrm_offset
VAL 0 - 51 "multiframes/ 51 is interpreted as 0"
VALTAB VAL_otd_type
VAL 0 ROUGH_RTD "only rough RTD has been provided by the NW"
VAL 1 EXPECTED_OTD "only expectedOTD has been provided by the NW"
VAL 2 BOTH_OTD "Both OTD / RTD types have been provided by the NW"
VALTAB VAL_pos_method
VAL 0 MS_ASSISTED ""
VAL 1 MS_BASED ""
VAL 2 MS_BASED_PREF ""
VAL 3 MS_ASSISTED_PREF ""
VALTAB VAL_rough_rtd
VAL 0 - 1250 "rough RTD in bits (see expected OTD)"
VALTAB VAL_ta_correction_present
VAL 1 TA_PRESENT "TA present"
VAL 0 TA_NOT_PRESENT "TA NOT present"
VALTAB VAL_uncertainty
VAL 0 UNC_MAX_2BIT "uncertainty in bits. 0 - 2 bits"
VAL 1 UNC_MAX_4BIT "uncertainty in bits. 3 - 4 bits"
VAL 2 UNC_MAX_8BIT "uncertainty in bits. 5 - 8 bits"
VAL 3 UNC_MAX_12BIT "uncertainty in bits. 9 - 12 bits"
VAL 4 UNC_MAX_16BIT "uncertainty in bits. 13 - 16 bits"
VAL 5 UNC_MAX_22BIT "uncertainty in bits. 17 - 22 bits"
VAL 6 UNC_MAX_30BIT "uncertainty in bits. 23 - 30 bits"
VAL 7 UNC_GT_30BIT "uncertainty in bits. > 30 bits"
VAR arfcn "Channel number" S
VAR bsic "Base station ID code" B
VAR cause "Cause Id Error" B
VAL @p_rrlp - VAL_cause@
VAR cell_id "Cell ID" S
VAR exp_otd "expectedOTD" S
VAL @p_rrlp - VAL_exp_otd@
VAR frame_number "Frame number" S
VAR loc_method "Location method" B
VAL @p_rrlp - VAL_loc_method@
VAR lac "Location area code" S
VAR mcc "Mobile country code" S
VAR mnc "Mobile country code" S
VAR mfrm_offset "multiframe offset" B
VAL @p_rrlp - VAL_mfrm_offset@
VAR num_measurement_sets "Number of measurement sets" B
VAR num_measurements "Number of measurements" B
VAR num_reference_cells "Number of reference cells" B
VAR otd_type "OTD type" B
VAL @p_rrlp - VAL_otd_type@
VAR pos_method "Position method" B
VAL @p_rrlp - VAL_pos_method@
VAR reference_relation "0, 1 or 2, only used when there are 2 ref cells and 3 measurement sets" B
VAR rough_rtd "rough RTD" S
VAL @p_rrlp - VAL_rough_rtd@
VAR std_resolution "Standard resolution in meters" B
VAR ta_correction_present "" B
VAL @p_rrlp - VAL_ta_correction_present@
VAR ta_correction "TA correction" S
VAR time_slot "Time slot number" B
VAR timing_advance "Timing advance" M
VAR timing_offset "Timing offset" M
VAR total_neigh_bts "Total number of neighbor BTS" B
VAR uncertainty "Uncertainty of expected OTD" B
VAL @p_rrlp - VAL_uncertainty@
VAR quality "5 bit encoding: ranges" B
COMP assist_data "Assistance Data"
{
arfcn ; channel number
bsic ; Base Station Id Code
mfrm_offset ; multiframe offset
otd_type ; otd type
exp_otd ; expected otd
uncertainty ; uncertainty of expected otd
rough_rtd ; rough rtd
}
COMP bts_data "BTS data"
{
bsic ; Base Station Identification Code
arfcn ; Absolute Radio Frequency Channel Number
quality ; Quality
num_measurements ; Number of Measurements
timing_offset ; Timing Offset
timing_advance ; Timing Advance
}
COMP ref_bts_data "Reference BTS data"
{
cell_id ; Cell Id
lac ; LAC
quality ; quality
num_measurements ; Number of Measurements
timing_offset ; Timing Offset
total_neigh_bts ; Total number of Neighbourgh BTS
bts_data [R_MAX_REF_NEIGH_BTS] ; BTS Data
frame_number ; Frame Number
timing_advance ; Timing Advance
}
COMP timing_data "Output of the position algorithm"
{
mcc ; MCC
mnc ; MNC
reference_relation ; Reference Relation
time_slot ; Time Slot
std_resolution ; Std Resolution
num_measurement_sets ; Number Measurement Sets
num_reference_cells ; Number of Reference Cells
ta_correction_present ; TA Correction Present
ta_correction ; TA Correction
ref_bts_data [R_NUM_MEAS_SETS] ; Reference BTS Data
}
; RRLP_POS_IND 0x80004042
; RRLP_POS_RES 0x80000042
; RRLP_ERROR_REQ 0x80010042
PRIM RRLP_POS_IND 0x80004042
{
< () assist_data [1..MAX_NCELL_EOTD] > ; Assistance Data
loc_method ; Location Method
pos_method ; Position Method
< () arfcn > ; Reference BTS ARFCN
< () bsic > ; Reference BTS BSIC
}
PRIM RRLP_POS_RES 0x80000042
{
timing_data ; Timing Data
}
PRIM RRLP_ERROR_REQ 0x80010042
{
cause ; Cause Id Error
}
