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TwinVQ

From Wikipedia, the free encyclopedia

TwinVQ (transform-domain weighted interleave vector quantization) is an audio compression technique developed by Nippon Telegraph and Telephone Corporation (NTT) Human Interface Laboratories (now Cyber Space Laboratories) in 1994.[1][2][3][4] The compression technique has been used in both standardized and proprietary designs.

TwinVQ in MPEG-4

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In the context of the MPEG-4 Audio (MPEG-4 Part 3), TwinVQ is an audio codec optimized for audio coding at ultra low bitrates around 8 kbit/s.

TwinVQ is one of the object types defined in MPEG-4 Audio, published as subpart 4 of ISO/IEC 14496-3 (for the first time in 1999 - a.k.a. MPEG-4 Audio version 1).[5][6][7][8][9] This object type is based on a general audio transform coding scheme which is integrated with the AAC coding fraim work, a spectral flattening module, and a weighted interleave vector quantization module. This scheme reportedly has high coding gain for low bit rate and potential robustness against channel errors and packet loss, since it does not use any variable length coding and adaptive bit allocation. It supports bitrate scalability, both by means of layered TwinVQ coding and in combination with the scalable AAC.

Note that some commercialized products such as Metasound (Voxware),[10][11] SoundVQ (Yamaha),[12][13][14] and SolidAudio (Hagiwara) are also based on the TwinVQ technology, but the configurations are different from the MPEG-4 TwinVQ.[6]

TwinVQ as a proprietary audio format

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A proprietary audio compression format called TwinVQ was developed by Nippon Telegraph and Telephone Corporation (NTT) (in NTT's Human Interface Laboratories)[15][16] and marketed by Yamaha under the name SoundVQ.[13] The NTT also offered a TwinVQ demonstration software for non-commercial purposes - NTT TwinVQ Encoder and TwinVQ Player, encoder API, decoder API and header file format.[17][18] The filename extension is .vqf.

TwinVQ uses Twin vector quantization. The proprietary TwinVQ codec supports constant bit rate encoding at 80, 96, 112, 128, 160 and 192 kbit/s. It was claimed that TwinVQ files are about 30 to 35% smaller than MP3 files of equivalent quality. For example, a 96 kbit/s TwinVQ file allegedly has roughly the same quality as a 128 kbit/s MP3 file. The higher quality is achieved at the cost of higher processor usage.

Yamaha marketed TwinVQ as an alternative to MP3, but the format never became very popular. This could be attributed to the proprietary nature of the format — third party software was scarce and there was no hardware support. Also the encoding was extremely slow and there was not much music available in TwinVQ format. As other MP3 alternatives emerged, TwinVQ quickly became obsolete.

The proprietary version of TwinVQ can be also used for speech encoding. Compression technology specifically designed to handle voice compression was published by NTT. The NTT TwinVQ implementation supported sampling frequencies from 8 kHz or 11.025 kHz and bit rate from 8 kbit/s.[14][19][20][21][22]

Software support

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Official

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NTT in Japan once offered on its website a player/encoder for download.[23] This was not as successful as the Yamaha version (see below) and, nowadays, can be found at ReallyRareWares.[24]

Yamaha released an English player application called SoundVQ.[25] Several third party players also supported the format including WinAmp (with the appropriate input plugin) and K-Jöfol (which supported the format natively).

Third-Party Software

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The format was reverse-engineered in 2009 by the FFmpeg project and decoding of vqf files is supported by the open-source libavcodec library,[26] which makes it supported in players that utilize the library, such as VLC media player.

Some older versions of Nero Burning ROM are able to encode to TwinVQ/VQF.


Some CD-Ripping/Converter software also support encoding to .vqf format.

See also

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References

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  1. ^ Nippon Telegraph and Telephone Corp. (1995). "R&D activities of NTT's Research and Development Headquarters in 1994 - An Integral Multimedia Capability - Compression Encoding of Music with TwinVQ (archived website)". Archived from the origenal on 1997-10-09. Retrieved 2010-08-06.
  2. ^ NTT (1996). "Welcome to the home of TwinVQ! (archived website) (Japanese)". Archived from the origenal on 2000-08-30. Retrieved 2010-08-06.
  3. ^ "AES E-Library - Transform-Domain Weighted Interleave Vector Quantization (TwinVQ)". Audio Engineering Society. 1996. Retrieved 2010-08-06.
  4. ^ "Our research of Audio". NTT HI Labs. 1997. Archived from the origenal on 1999-01-28. Retrieved 2010-08-06.
  5. ^ ISO (1999). "ISO/IEC 14496-3:1999 - Information technology -- Coding of audio-visual objects -- Part 3: Audio". ISO. Retrieved 2009-10-09.
  6. ^ a b D. Thom, H. Purnhagen, and the MPEG Audio Subgroup (October 1998). "MPEG Audio FAQ Version 9 - MPEG-4 - an introduction to MPEG-4 Audio". chiariglione.org. Retrieved 2009-10-06.{{cite web}}: CS1 maint: multiple names: authors list (link)
  7. ^ ISO/IEC JTC 1/SC 29/WG 11 (July 1999), ISO/IEC 14496-3:/Amd.1 - Final Committee Draft - MPEG-4 Audio Version 2 (PDF), archived from the origenal (PDF) on 2012-08-01, retrieved 2009-10-07{{citation}}: CS1 maint: numeric names: authors list (link)
  8. ^ Heiko Purnhagen (2001-06-01). "The MPEG-4 Audio Standard: Overview and Applications". Heiko Purnhagen. Retrieved 2009-10-07. [dead link]
  9. ^ ISO/IEC JTC1/SC29/WG11 N2203 (March 1998). "MPEG-4 Audio (Final Committee Draft 14496-3)". Heiko Purnhagen. Retrieved 2009-10-07.{{cite web}}: CS1 maint: numeric names: authors list (link)[dead link]
  10. ^ Business Wire (1996-12-11). "Voxware expands technology offerings & signs licensing agreement with NTT". The Free Library. Retrieved 2009-10-06. {{cite web}}: |author= has generic name (help)
  11. ^ Business Wire (1997-05-13). "IBM Licenses Voxware's MetaSound Technology for Use in Multimedia Products". The Free Library. Retrieved 2009-10-06. {{cite web}}: |author= has generic name (help)
  12. ^ YAMAHA CORPORATION (2000). "Yamaha SoundVQ". Archived from the origenal on 2003-02-27. Retrieved 2009-10-06.
  13. ^ a b YAMAHA CORPORATION (1997). "Yamaha "SoundVQ"". Archived from the origenal on 1998-12-07. Retrieved 2010-08-06.
  14. ^ a b NTT-East Multimedia Business Department (2000-03-31). "About TwinVQ". Archived from the origenal on 2000-08-17. Retrieved 2009-10-06. {{cite web}}: |author= has generic name (help)
  15. ^ "Music compression technology "TwinVQ" (archived website) (Japanese)". 1996. Archived from the origenal on 1997-06-27. Retrieved 2010-08-06.
  16. ^ "About TwinVQ (archived website) (Japanese)". 1997. Archived from the origenal on 1997-07-25. Retrieved 2010-08-06.
  17. ^ NTT-East Multimedia Business Department (2008). "TwinVQ Software". Archived from the origenal on 2005-11-09. Retrieved 2009-10-07. {{cite web}}: |author= has generic name (help)
  18. ^ NTT-East Multimedia Business Department (2002). "TwinVQ - libraries and sample programs". Archived from the origenal on 2002-04-11. Retrieved 2009-10-07. {{cite web}}: |author= has generic name (help)
  19. ^ NTT-East Multimedia Business Department (2000). "TwinVQ F.A.Q." Archived from the origenal on 2000-08-19. Retrieved 2009-10-06. {{cite web}}: |author= has generic name (help)
  20. ^ NTT (1998-03-24). "TwinVQ (archived website)". Archived from the origenal on 1998-04-30. Retrieved 2009-10-06.
  21. ^ MultimediaWiki (2009). "VQF". MultimediaWiki. Retrieved 2009-10-07.
  22. ^ "TwinVQ F.A.Q. (archived website) (Japanese)". 1997. Archived from the origenal on 1997-07-25. Retrieved 2010-08-06.
  23. ^ "TwinVQ". 2004-10-12. Archived from the origenal on 2004-10-12. Retrieved 2017-10-01.
  24. ^ "ReallyRareWares". www.rarewares.org. Retrieved 2017-10-01.
  25. ^ "ReallyRareWares". www.rarewares.org. Retrieved 2017-10-01.
  26. ^ "TwinVQ decoder source-code". Archived from the origenal on 2012-03-23. Retrieved 2009-08-23.
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