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view src/g23m-gprs/grlc/grlc_meass.c @ 189:b37e6c916df1
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author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Sat, 30 Jan 2021 06:34:22 +0000 |
parents | fa8dc04885d8 |
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/* +----------------------------------------------------------------------------- | Project : GPRS (8441) | Modul : GRLC +----------------------------------------------------------------------------- | Copyright 2002 Texas Instruments Berlin, AG | All rights reserved. | | This file is confidential and a trade secret of Texas | Instruments Berlin, AG | 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 Berlin, AG. +----------------------------------------------------------------------------- | Purpose : This module implements signal handler functions for service | MEAS of entity GRLC. +----------------------------------------------------------------------------- */ #ifndef GRLC_MEASS_C #define GRLC_MEASS_C #endif /* #ifndef GRLC_MEASS_C */ #define ENTITY_GRLC /*==== INCLUDES =============================================================*/ #include "typedefs.h" #include "vsi.h" #include "macdef.h" #include "gprs.h" #include "gsm.h" #include "ccdapi.h" #include "prim.h" #include "message.h" #include "grlc.h" #include "grlc_meass.h" #include "grlc_measf.h" #include "cl_rlcmac.h" /*==== CONST ================================================================*/ #define MEAS_MAX_NUM_MEAN 1000 /* maximum numbers of element considered for */ /* calculating the mean */ /* maybe for later use */ /* #define M_ROUND_UP(x,meas_acrcy) (((x)>=0)? \ ((((x)%(meas_acrcy))< ((meas_acrcy)/ 2))? \ ( (x)/(meas_acrcy) ):(((x)/(meas_acrcy))+1)): \ ((((x)%(meas_acrcy))<=((meas_acrcy)/-2))? \ (((x)/(meas_acrcy))-1):( (x)/(meas_acrcy) ))) */ #define M_ROUND_UP(x,meas_acrcy) ((((x)%(meas_acrcy))< ((meas_acrcy)/ 2))? \ ( (x)/(meas_acrcy) ):(((x)/(meas_acrcy))+1)) #define MEAS_C_INC_INDEX(index) { \ if( index < (T_C_INDEX)(~0) ) index++; \ } #define NORM_FFB_MAX (ULONG)100000 /* normalised forgetting factor b maximum value */ #define NORM_FFC_MAX (ULONG)500000 /* normalised forgetting factor c maximum value */ #define NORM_FFB_DIV (ULONG)10 /* normalised forgetting factor b divisor value */ #define NORM_FFC_DIV (ULONG)20 /* normalised forgetting factor c divisor value */ #define SV_ACRCY_DIV (ULONG)10 /* signal variance accuracy divisor */ #define C_VALUE_IDX_DEFAULT 0 #define C_VALUE_DEFAULT 0 #define SV_VALUE_DEFAULT 0 #define RXQUAL_VALUE_DEFAULT 0 #define SV_LEVEL_MAX 63 #define SV_LEVEL_STEP ((T_SIGN_VAR_VALUE)(MEAS_ACRCY/4)) /* dB2 step size of the signal */ /* variance */ /*==== LOCAL VARS ===========================================================*/ /* * normalised forgetting factor b used in context of C value calculation * * NORM_FFB_MAX * ( 1 / ( 6 * t_avg_t ) ) */ LOCAL const ULONG norm_ffb[] = { NORM_FFB_MAX, 70711, 50000, 35355, 25000, 17678, 12500, 8839, 6250, 4419, 3125, 2210, 1563, 1105, 781, 552, 391, 276, 195, 138, 98, 69, 49, 35, 24, 17 }; /* * normalised forgetting factor c used in context of C value calculation * * NORM_FFC_MAX * ( 1 / ( 12 * t_avg_t ) ) */ LOCAL const ULONG norm_ffc[] = { NORM_FFC_MAX, 353553, 250000, 176777, 125000, 88388, 62500, 44194, 31250, 22097, 15625, 11049, 7813, 5524, 3906, 2762, 1953, 1381, 977, 691, 488, 345, 244, 173, 122, 86 }; /*==== LOCAL TYPES===========================================================*/ #if !defined (NTRACE) LOCAL void meas_int_trace_i_level( T_ilev *i_level ); #endif /* #if !defined (NTRACE) */ /*==== PUBLIC FUNCTIONS =====================================================*/ /* +------------------------------------------------------------------------------ | Function : meas_grlc_init +------------------------------------------------------------------------------ | Description : | | Parameters : | +------------------------------------------------------------------------------ */ GLOBAL void meas_grlc_init ( void ) { TRACE_FUNCTION( "meas_grlc_init" ); /* initialization of C value management */ meas_c_restart( ); /* initialization of signal variance management */ meas_sv_restart( ); /* initialization of signal quality management */ meas_sq_restart( ); } /* grlc_meas_init() */ /* +------------------------------------------------------------------------------ | Function : sig_rd_meas_qual_rpt_sent +------------------------------------------------------------------------------ | Description : Handles the internal signal SIG_RD_MEAS_QUAL_RPT_SENT | Parameters : void | +------------------------------------------------------------------------------ */ GLOBAL void sig_rd_meas_qual_rpt_sent ( void ) { TRACE_ISIG( "sig_rd_meas_qual_rpt_sent" ); meas_sv_restart( ); grlc_data->meas.sq_restart = TRUE; } /* sig_rd_meas_qual_rpt_sent() */ /* +------------------------------------------------------------------------------ | Function : sig_tm_meas_ptm +------------------------------------------------------------------------------ | Description : Handles the internal signal SIG_TM_MEAS_PTM | | Parameters : void | +------------------------------------------------------------------------------ */ GLOBAL void sig_tm_meas_ptm ( void ) { TRACE_ISIG( "sig_tm_meas_ptm" ); meas_sv_restart( ); meas_sq_restart( ); } /* sig_tm_meas_ptm() */ /* +------------------------------------------------------------------------------ | Function : meas_grlc_c_get_value +------------------------------------------------------------------------------ | Description : This function returns the current C value. | | Parameters : void | +------------------------------------------------------------------------------ */ GLOBAL UBYTE meas_grlc_c_get_value ( void ) { UBYTE c_value; TRACE_FUNCTION( "meas_grlc_c_get_value" ); if( grlc_data->meas.c_filter.index > 0 ) { c_value = ( M_ROUND_UP( grlc_data->meas.c_filter.value, MEAS_ACRCY ) ); } else { #ifdef _SIMULATION_ TRACE_ERROR( "meas_grlc_c_get_value: grlc_data->meas.c_filter.index EQ 0" ); #endif /* #ifdef _SIMULATION_ */ c_value = C_VALUE_DEFAULT; } return( c_value ); } /* meas_grlc_c_get_value() */ /* +------------------------------------------------------------------------------ | Function : meas_grlc_c_get_c_value +------------------------------------------------------------------------------ | Description : | | Parameters : | +------------------------------------------------------------------------------ */ GLOBAL void meas_grlc_c_get_c_value ( T_CGRLC_c_value *c_value ) { TRACE_FUNCTION( "meas_grlc_c_get_c_value" ); c_value->c_acrcy = MEAS_ACRCY; c_value->c_lev = grlc_data->meas.c_filter.value; c_value->c_idx = grlc_data->meas.c_filter.index; } /* meas_grlc_c_get_c_value() */ /* +------------------------------------------------------------------------------ | Function : meas_grlc_c_set_c_value +------------------------------------------------------------------------------ | Description : | | Parameters : | +------------------------------------------------------------------------------ */ GLOBAL void meas_grlc_c_set_c_value ( T_CGRLC_c_value *c_value ) { TRACE_FUNCTION( "meas_grlc_c_set_c_value" ); grlc_data->meas.c_filter.value = (c_value->c_lev / c_value->c_acrcy) * MEAS_ACRCY; grlc_data->meas.c_filter.index = c_value->c_idx; } /* meas_grlc_c_set_c_value() */ /* +------------------------------------------------------------------------------ | Function : meas_c_val_update_ptm +------------------------------------------------------------------------------ | Description : ... | | Parameters : - | +------------------------------------------------------------------------------ */ GLOBAL void meas_c_val_update_ptm ( T_MAC_PWR_CTRL_IND *mac_pwr_ctrl_ind, T_CGRLC_glbl_pwr_ctrl_param *pwr_ctrl_param, T_CGRLC_freq_param *freq_param ) { UBYTE pb_rdc; /* Pb reduction */ UBYTE vld_smpl = 0; /* valid measurement samples */ ULONG ff_value; ULONG c_value; T_C_FILTER *c_filter = &grlc_data->meas.c_filter; TRACE_FUNCTION( "meas_c_val_update_ptm" ); if( pwr_ctrl_param->pc_meas_chan EQ CGRLC_MEAS_CHAN_BCCH AND mac_pwr_ctrl_ind->bcch_level NEQ MAC_RXLEV_NONE ) { MEAS_C_INC_INDEX( c_filter->index ); if( c_filter->index EQ 1 ) { c_filter->value = MEAS_ACRCY * mac_pwr_ctrl_ind->bcch_level; } else { /* calculate the forgetting factor */ ff_value = norm_ffb[pwr_ctrl_param->t_avg_t]; /* update the filter */ c_value = ( NORM_FFB_MAX - ff_value ) * ( c_filter->value / NORM_FFB_DIV ) + ff_value * ( MEAS_ACRCY / NORM_FFB_DIV ) * mac_pwr_ctrl_ind->bcch_level; c_filter->value = (T_C_VALUE)(c_value / (NORM_FFB_MAX / NORM_FFB_DIV)); } #ifdef _SIMULATION_ TRACE_EVENT_P2( "C-Value = %d, C-Index = %d", c_filter->value, c_filter->index ); #endif /* #ifdef _SIMULATION_ */ } else if( pwr_ctrl_param->pc_meas_chan EQ CGRLC_MEAS_CHAN_PDCH ) { vld_smpl = meas_c_calc_mean ( mac_pwr_ctrl_ind->burst_level, mac_pwr_ctrl_ind->radio_freq, &c_value, &pb_rdc, freq_param ); if( vld_smpl ) { MEAS_C_INC_INDEX( c_filter->index ); /* consider the BTS output power reduction */ c_value -= ( ( 2 * pwr_ctrl_param->pb ) * ( MEAS_ACRCY * pb_rdc ) / MAC_BURST_PER_BLOCK ); if( c_filter->index EQ 1 ) { c_filter->value = (T_C_VALUE)c_value; } else { /* calculate the forgetting factor */ ff_value = norm_ffc[pwr_ctrl_param->t_avg_t]; /* update the filter */ c_value = ( NORM_FFC_MAX - ff_value ) * ( c_filter->value / NORM_FFC_DIV ) + ff_value * ( c_value / NORM_FFC_DIV ); c_filter->value = (T_C_VALUE)(c_value / (NORM_FFC_MAX / NORM_FFC_DIV)); } } else { #ifdef _SIMULATION_ TRACE_EVENT( "no valid RXLEV information in meas_c_val_update_ptm 1" ); #endif /* #ifdef _SIMULATION_ */ } #ifdef _SIMULATION_ TRACE_EVENT_P2( "C-Value = %d, C-Index = %d", c_filter->value, c_filter->index ); #endif /* #ifdef _SIMULATION_ */ } else { #ifdef _SIMULATION_ TRACE_EVENT( "no valid RXLEV information in meas_c_val_update_ptm 2" ); #endif /* #ifdef _SIMULATION_ */ } } /* meas_c_val_update_ptm() */ /* +------------------------------------------------------------------------------ | Function : meas_c_restart +------------------------------------------------------------------------------ | Description : This function initializes the parameters for deriving the | C value. | | Parameters : void | +------------------------------------------------------------------------------ */ GLOBAL void meas_c_restart ( void ) { TRACE_FUNCTION( "meas_c_restart" ); grlc_data->meas.c_filter.value = 0; grlc_data->meas.c_filter.index = 0; } /* meas_c_restart() */ /* +------------------------------------------------------------------------------ | Function : meas_sv_get_value +------------------------------------------------------------------------------ | Description : This function returns the current signal variance. | | Parameters : void | +------------------------------------------------------------------------------ */ GLOBAL UBYTE meas_sv_get_value ( void ) { T_SIGN_VAR_VALUE sv_val; TRACE_FUNCTION( "meas_sv_get_value" ); sv_val = grlc_data->meas.sign_var.value / SV_LEVEL_STEP; if( grlc_data->meas.sign_var.value % SV_LEVEL_STEP EQ 0 AND grlc_data->meas.sign_var.value NEQ 0 ) { sv_val -= 1; } if( sv_val > SV_LEVEL_MAX ) { sv_val = SV_LEVEL_MAX; } return( (UBYTE)sv_val ); } /* meas_sv_get_value() */ /* +------------------------------------------------------------------------------ | Function : meas_sv_update +------------------------------------------------------------------------------ | Description : ... | | Parameters : - | +------------------------------------------------------------------------------ */ GLOBAL void meas_sv_update ( T_MAC_PWR_CTRL_IND *mac_pwr_ctrl_ind, T_CGRLC_glbl_pwr_ctrl_param *pwr_ctrl_param, T_CGRLC_freq_param *freq_param ) { T_SIGN_VAR *sign_var = &grlc_data->meas.sign_var; UBYTE i; /* used for counting */ UBYTE ss_on_bcch[MAC_BURST_PER_BLOCK]; /* receive signal level measured on BCCH */ UBYTE ss_off_bcch[MAC_BURST_PER_BLOCK]; /* receive signal level not measured on BCCH */ UBYTE j = 0; /* indicates the number of bursts received */ /* on BCCH frequency */ UBYTE *ss_k = NULL; /* points to the receive signal levels */ TRACE_FUNCTION( "meas_sv_update" ); /* initialize arrays */ for( i = 0; i < MAC_BURST_PER_BLOCK; i++ ) { ss_on_bcch [i] = MAC_RXLEV_NONE; ss_off_bcch[i] = MAC_RXLEV_NONE; } if( mac_pwr_ctrl_ind->crc_error EQ GRLC_CRC_PASS AND pwr_ctrl_param->pc_meas_chan EQ CGRLC_MEAS_CHAN_PDCH ) { if( !freq_param->pdch_hopping ) { /* sort burst level acc. its radio frequency */ for( i = 0; i < MAC_BURST_PER_BLOCK; i++ ) { if( mac_pwr_ctrl_ind->radio_freq[i] EQ freq_param->bcch_arfcn ) { j++; ss_on_bcch[i] = mac_pwr_ctrl_ind->burst_level[i]; } else { ss_off_bcch[i] = mac_pwr_ctrl_ind->burst_level[i]; } } /* calculate the burst level that should be taken into account */ switch( j ) { case( 0 ): ss_k = &ss_off_bcch[0]; j = 4; break; case( 1 ): ss_k = &ss_off_bcch[0]; j = 3; break; case( 2 ): ss_k = NULL; break; case( 3 ): ss_k = &ss_on_bcch[0]; j = 3; break; case( 4 ): ss_k = &ss_on_bcch[0]; j = 4; break; default : TRACE_ASSERT( j < 4 ); break; } } else { /* calculate the burst level that should be taken into account */ ss_k = &mac_pwr_ctrl_ind->burst_level[0]; j = 4; } } if( ss_k NEQ NULL ) { T_SIGN_VAR_INDEX old_num; ULONG old_elem; UBYTE pb_rdc; /* Pb reduction */ LONG base; ULONG sum = 0; /* sum of all squares */ ULONG bl_var; /* block variance */ ULONG ss_block; if( meas_c_calc_mean ( ss_k, mac_pwr_ctrl_ind->radio_freq, &ss_block, &pb_rdc, freq_param ) > 0 ) { /* calculate the sum of the squares of the difference between */ /* each individual burst level value and the mean */ for( i = 0; i < j; i++ ) { if( ss_k[i] NEQ MAC_RXLEV_NONE ) { base = ( ( ss_k[i] * MEAS_ACRCY ) / SV_ACRCY_DIV ) - ( ss_block / SV_ACRCY_DIV ); sum += ( ULONG )( base * base ); } } /* * calculate block variance * * in case ss_k NEQ NULL, j will be either set to the value 3 or 4 * * the lint comment below only works when linting current file alone, * when linting current file together with all other files of the project, * an error message will be generated anyway * * I don't know why and gave-up to fix it */ bl_var = sum / ( UBYTE )( j - 1 ); /*lint !e414*/ /* calculate the signal variance */ if( sign_var->index EQ MEAS_MAX_NUM_MEAN ) { old_num = MEAS_MAX_NUM_MEAN - 1; } else { old_num = sign_var->index; sign_var->index++; } old_elem = sign_var->value * old_num; sign_var->value = (T_SIGN_VAR_VALUE)((old_elem + (bl_var / SV_ACRCY_DIV)) / sign_var->index); } else { #ifdef _SIMULATION_ TRACE_EVENT( "no valid RXLEV information in meas_sv_update 1" ); #endif /* #ifdef _SIMULATION_ */ } #ifdef _SIMULATION_ TRACE_EVENT_P2( "SIGN-VAR-Value = %d, SIGN-VAR-Index = %d", sign_var->value, sign_var->index ); #endif /* #ifdef _SIMULATION_ */ } else { #ifdef _SIMULATION_ TRACE_EVENT( "no valid RXLEV information in meas_sv_update 2" ); #endif /* #ifdef _SIMULATION_ */ } } /* meas_sv_update() */ /* +------------------------------------------------------------------------------ | Function : meas_sv_restart +------------------------------------------------------------------------------ | Description : This function initializes the parameters for deriving the | signal variance. | | Parameters : void | +------------------------------------------------------------------------------ */ GLOBAL void meas_sv_restart ( void ) { TRACE_FUNCTION( "meas_sv_restart" ); grlc_data->meas.sign_var.value = 0; grlc_data->meas.sign_var.index = 0; } /* meas_sv_restart() */ /* +------------------------------------------------------------------------------ | Function : meas_sq_get_rxqual_value +------------------------------------------------------------------------------ | Description : This function returns the current RXQUAL value | | Parameters : void | +------------------------------------------------------------------------------ */ GLOBAL UBYTE meas_sq_get_rxqual_value ( void) { UBYTE rxqual; T_BER_AVG *ber_avg = &grlc_data->meas.ber_avg; TRACE_FUNCTION( "meas_sq_get_rxqual_value" ); if ( ber_avg->value < 200 ) { rxqual = 0; /* RX_QUAL_0 */ } else if ( ber_avg->value < 400 ) { rxqual = 1; /* RX_QUAL_1 */ } else if ( ber_avg->value < 800 ) { rxqual = 2; /* RX_QUAL_2 */ } else if ( ber_avg->value < 1600 ) { rxqual = 3; /* RX_QUAL_3 */ } else if ( ber_avg->value < 3200 ) { rxqual = 4; /* RX_QUAL_4 */ } else if ( ber_avg->value < 6400 ) { rxqual = 5; /* RX_QUAL_5 */ } else if ( ber_avg->value < 12800 ) { rxqual = 6; /* RX_QUAL_6 */ } else { rxqual = 7; /* RX_QUAL_7 */ } return ( rxqual ); } /* meas_sq_get_rxqual_value() */ /* +------------------------------------------------------------------------------ | Function : meas_sq_update +------------------------------------------------------------------------------ | Description : This function updates the RXQUAL value. | | Parameters : per_ind - Ptr to struct T_BER_IND | +------------------------------------------------------------------------------ */ GLOBAL void meas_sq_update ( T_BER_IND *ber_ind ) { UBYTE i; ULONG norm_fault; ULONG norm_ber; ULONG old_elem; T_BER_INDEX old_num; T_BER_AVG *ber_avg = &grlc_data->meas.ber_avg; TRACE_FUNCTION( "meas_sq_update" ); if(grlc_data->meas.sq_restart) { grlc_data->meas.ber_avg.value = 0; grlc_data->meas.ber_avg.index = 0; grlc_data->meas.sq_restart = FALSE; } for( i = 0; i < ber_ind->num_dl_blck; i++ ) { if( ber_ind->be_info[i].total NEQ 0 ) { if( ber_avg->index EQ MEAS_MAX_NUM_MEAN ) { old_num = MEAS_MAX_NUM_MEAN - 1; } else { old_num = ber_avg->index; ber_avg->index++; } old_elem = ber_avg->value * old_num; norm_fault = ber_ind->be_info[i].fault * MEAS_ACRCY * 100; norm_ber = norm_fault / ber_ind->be_info[i].total; ber_avg->value = (T_BER_VALUE)((old_elem + norm_ber) / ber_avg->index); RX_SetRxQual( meas_sq_get_rxqual_value( ) ); } } #ifdef _SIMULATION_ TRACE_EVENT_P2( "BER-Value = %d, BER-Index = %d", ber_avg->value, ber_avg->index ); #endif /* #ifdef _SIMULATION_ */ } /* meas_sq_update() */ /* +------------------------------------------------------------------------------ | Function : meas_sq_restart +------------------------------------------------------------------------------ | Description : This function initializes the parameters for deriving the | RXQUAL value. | | Parameters : void | +------------------------------------------------------------------------------ */ GLOBAL void meas_sq_restart ( void ) { TRACE_FUNCTION( "meas_sq_restart" ); grlc_data->meas.ber_avg.value = 0; grlc_data->meas.ber_avg.index = 0; } /* meas_sq_restart() */ /* +------------------------------------------------------------------------------ | Function : meas_int_get_rel_i_level +------------------------------------------------------------------------------ | Description : This function returns the interference level values mapped to | values relative to the C value. | | Parameters : *i_level - Ptr to relative interference level values | +------------------------------------------------------------------------------ */ GLOBAL void meas_int_get_rel_i_level ( T_ilev *i_level ) { USHORT c_raw_data_lev = grlc_data->meas.c_filter.value; TRACE_FUNCTION( "meas_int_get_rel_i_level" ); meas_int_fill_rel_iLevel( &i_level->v_ilev0, &i_level->ilev0, 0, c_raw_data_lev ); meas_int_fill_rel_iLevel( &i_level->v_ilev1, &i_level->ilev1, 1, c_raw_data_lev ); meas_int_fill_rel_iLevel( &i_level->v_ilev2, &i_level->ilev2, 2, c_raw_data_lev ); meas_int_fill_rel_iLevel( &i_level->v_ilev3, &i_level->ilev3, 3, c_raw_data_lev ); meas_int_fill_rel_iLevel( &i_level->v_ilev4, &i_level->ilev4, 4, c_raw_data_lev ); meas_int_fill_rel_iLevel( &i_level->v_ilev5, &i_level->ilev5, 5, c_raw_data_lev ); meas_int_fill_rel_iLevel( &i_level->v_ilev6, &i_level->ilev6, 6, c_raw_data_lev ); meas_int_fill_rel_iLevel( &i_level->v_ilev7, &i_level->ilev7, 7, c_raw_data_lev ); #if !defined (NTRACE) meas_int_trace_i_level( i_level ); #endif /* #if !defined (NTRACE) */ } /* meas_int_get_rel_i_level() */ #if !defined (NTRACE) /* +------------------------------------------------------------------------------ | Function : meas_int_trace_i_level +------------------------------------------------------------------------------ | Description : | | Parameters : | +------------------------------------------------------------------------------ */ LOCAL void meas_int_trace_i_level( T_ilev *i_level ) { if( grlc_data->meas.v_im_trace NEQ 0 ) { TRACE_EVENT_P8( "meas_int_trace_i_level: %02X %02X %02X %02X %02X %02X %02X %02X", i_level->ilev0, i_level->ilev1, i_level->ilev2, i_level->ilev3, i_level->ilev4, i_level->ilev5, i_level->ilev6, i_level->ilev7 ); } } /* meas_int_trace_i_level() */ #endif /* #if !defined (NTRACE) */