FreeCalypso > hg > gsm-codec-lib
view libgsmefr/bfi_nodata.c @ 242:f081a6850fb5
libgsmfrp: new refined implementation
The previous implementation exhibited the following defects,
which are now fixed:
1) The last received valid SID was cached forever for the purpose of
handling future invalid SIDs - we could have received some valid
SID ages ago, then lots of speech or NO_DATA, and if we then get
an invalid SID, we would resurrect the last valid SID from ancient
history - a bad design. In our new design, we handle invalid SID
based on the current state, much like BFI.
2) GSM 06.11 spec says clearly that after the second lost SID
(received BFI=1 && TAF=1 in CN state) we need to gradually decrease
the output level, rather than jump directly to emitting silence
frames - we previously failed to implement such logic.
3) Per GSM 06.12 section 5.2, Xmaxc should be the same in all 4 subframes
in a SID frame. What should we do if we receive an otherwise valid
SID frame with different Xmaxc? Our previous approach would
replicate this Xmaxc oddity in every subsequent generated CN frame,
which is rather bad. In our new design, the very first CN frame
(which can be seen as a transformation of the SID frame itself)
retains the original 4 distinct Xmaxc, but all subsequent CN frames
are based on the Xmaxc from the last subframe of the most recent SID.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Tue, 09 May 2023 05:16:31 +0000 |
| parents | 452c1d5a6268 |
| children |
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/* * In the expected usage mode of our libgsmefr decoder as part of "soft TRAU" * uplink implementation, there will be times when the radio subsystem tells * us that a frame has been lost, but we don't have any errored bits to feed * to the decoder as ETSI canon calls for. Specifically, the canonical EFR * decoder will use the "fixed codebook excitation pulses" part of errored * frames when a BFI comes in after speech, although not when BFI comes in * after SID. Our solution in EFR_decode_bfi_nodata(): we look in the * decoder state to see if we are in speech mode, and if we are, we fill * the needed parameters with a PRNG. */ #include <string.h> #include "gsm_efr.h" #include "typedef.h" #include "namespace.h" #include "cnst.h" #include "dtx.h" #include "dec_state.h" static void random_1035(Word32 *lfsr, Word16 *param_1035) { Word16 *p = param_1035; Word16 i; /* 5 params of bit width 4 */ for (i = 0; i < 5; i++) *p++ = pseudonoise(lfsr, 4); /* another 5 params of bit width 3 */ for (i = 0; i < 5; i++) *p++ = pseudonoise(lfsr, 3); } static void random_bad_frame(struct EFR_decoder_state *st, Word16 *params) { Word32 *lfsr = &st->L_pn_seed_nodata; random_1035(lfsr, params + 7); random_1035(lfsr, params + 20); random_1035(lfsr, params + 33); random_1035(lfsr, params + 46); } void EFR_decode_bfi_nodata(struct EFR_decoder_state *st, int taf, int16_t *pcm_out) { int16_t params[EFR_NUM_PARAMS]; if (st->reset_flag_old) { memset(pcm_out, 0, sizeof(int16_t) * L_FRAME); return; } memset(params, 0, sizeof(int16_t) * EFR_NUM_PARAMS); if (st->rxdtx_ctrl & RX_SP_FLAG) random_bad_frame(st, params); EFR_decode_params(st, params, 1, 0, taf, pcm_out); }