FreeCalypso > hg > gsm-codec-lib
view doc/AMR-EFR-conversion @ 160:eefef9f6d533
libgsmefr: randomize d1035pf params in no-data BFI case
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Thu, 15 Dec 2022 07:23:18 +0000 |
parents | 8eb0e7a39409 |
children | 78739fda2856 |
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We have two simple utilities that allow one to experiment with "dumb" bit- shuffling conversion between AMR 12k2 and EFR codec formats, to explore capabilities and limitations of this approach. gsm-amr2efr reads an AMR speech recording in RFC 4867 storage format (the common .amr format) and converts it to EFR in gsmx format. The AMR input to this utility must consists of MR122 frames only - no other AMR modes, no SID and no NO_DATA gaps. The intent is that one can take a starting speech sample in WAV format, encode it into AMR with amrnb-enc from opencore-amrnb (by default that utility produces MR122 encoding without DTX), and then convert the AMR output to EFR with gsm-amr2efr. One can then encode the same starting-point WAV speech sample with gsmefr-encode (matching official EFR from ETSI) and compare the two EFR outputs. When you do this experiment, you will see that the two EFR outputs will be different (you can then analyze encoded speech parameter diffs with gsmrec-dump), but each version can be fed to an EFR decoder, resulting in OK-sounding speech. gsm-efr2amr performs the opposite conversion: it reads an EFR session recording in gsmx format and converts it to AMR storage format. The input to gsm-efr2amr is allowed to contain Themyscira BFI markers in addition to EFR frames; these BFI markers will be turned into AMR NO_DATA frames. The same input can also contain EFR SID frames - however, gsm-efr2amr will not detect them and won't give them any special handling, instead they will be bit-reshuffled into MR122 just like EFR speech frames. The result of such "dumb" conversion is invalid AMR, and when you decode it with amrnb-dec, you will hear some strange noises.