An audio coding format (or sometimes audio compression format) is a content representation format for storage or transmission of digital audio (such as in digital television, digital radio and in audio and video files). Examples of audio coding formats include MP3, AAC, Vorbis, FLAC, and Opus. A specific software or hardware implementation capable of audio compression and decompression to/from a specific audio coding format is called an audio codec; an example of an audio codec is LAME, which is one of several different codecs which implements encoding and decoding audio in the MP3 audio coding format in software.
Some audio coding formats are documented by a detailed technical specification document known as an audio coding specification. Some such specifications are written and approved by standardization organizations as technical standards, and are thus known as an audio coding standard. The term "standard" is also sometimes used for de facto standards as well as formal standards.
Audio content encoded in a particular audio coding format is normally encapsulated within a container format. As such, the user normally doesn't have a raw AAC file, but instead has a .m4a audio file, which is a MPEG-4 Part 14 container containing AAC-encoded audio. The container also contains metadata such as title and other tags, and perhaps an index for fast seeking. A notable exception is MP3 files, which are raw audio coding without a container format. De facto standards for adding metadata tags such as title and artist to MP3s, such as ID3, are hacks which work by appending the tags to the MP3, and then relying on the MP3 player to recognize the chunk as malformed audio coding and therefore skip it. In video files with audio, the encoded audio content is bundled with video (in a video coding format) inside a multimedia container format.
An audio coding format does not dictate all algorithms used by a codec implementing the format. An important part of how lossy audio compression works is by removing data in ways humans can't hear, according to a psychoacoustic model; the implementer of an encoder has some freedom of choice in which data to remove (according to their psychoacoustic model).
Lossless, lossy, and uncompressed audio coding formats
A lossless audio coding format reduces the total data needed to represent a sound but can be de-coded to its original, uncompressed form. A lossy audio coding format additionally reduces the bit resolution of the sound on top of compression, which results in far less data at the cost of irretrievably lost information.
Transmitted (streamed) audio is most often compressed using lossy audio codecs as the smaller size is far more convenient for distribution. The most widely used audio coding formats are MP3 and Advanced Audio Coding (AAC), both of which are lossy formats based on modified discrete cosine transform (MDCT) and perceptual coding algorithms.
Lossless audio coding formats such as FLAC and Apple Lossless are sometimes available, though at the cost of larger files.
Uncompressed audio formats, such as pulse-code modulation (PCM, or .wav), are also sometimes used. PCM was the standard format for Compact Disc Digital Audio (CDDA).
History
In 1950, Bell Labs filed the patent on differential pulse-code modulation (DPCM). Adaptive DPCM (ADPCM) was introduced by P. Cummiskey, Nikil S. Jayant and James L. Flanagan at Bell Labs in 1973.
Perceptual coding was first used for speech coding compression, with linear predictive coding (LPC). Initial concepts for LPC date back to the work of Fumitada Itakura (Nagoya University) and Shuzo Saito (Nippon Telegraph and Telephone) in 1966. During the 1970s, Bishnu S. Atal and Manfred R. Schroeder at Bell Labs developed a form of LPC called adaptive predictive coding (APC), a perceptual coding algorithm that exploited the masking properties of the human ear, followed in the early 1980s with the code-excited linear prediction (CELP) algorithm which achieved a significant compression ratio for its time. Perceptual coding is used by modern audio compression formats such as MP3 and AAC.
Discrete cosine transform (DCT), developed by Nasir Ahmed, T. Natarajan and K. R. Rao in 1974, provided the basis for the modified discrete cosine transform (MDCT) used by modern audio compression formats such as MP3 and AAC. MDCT was proposed by J. P. Princen, A. W. Johnson and A. B. Bradley in 1987, following earlier work by Princen and Bradley in 1986. The MDCT is used by modern audio compression formats such as Dolby Digital, MP3, and Advanced Audio Coding (AAC).
List of lossy formats
General
Basic compression algorithm | Audio coding standard | Abbreviation | Introduction | Market share (2023) | Ref | |
---|---|---|---|---|---|---|
Production | Streaming | |||||
Modified discrete cosine transform (MDCT) | Dolby Digital (AC-3) | AC3 | 1991 | 36–54% | 37–61% | |
Dolby Digital Plus (E-AC-3) | EAC3 | 2004 | ||||
Adaptive Transform Acoustic Coding | ATRAC | 1992 | Unknown | Unknown | ||
MPEG Layer III | MP3 | 1993 | 15% | 19% | ||
Advanced Audio Coding (MPEG-2 / MPEG-4) | AAC | 1997 | 83% | 87% | ||
Windows Media Audio | WMA | 1999 | Unknown | Unknown | ||
Ogg Vorbis | Ogg | 2000 | 6% | 4% | ||
Constrained Energy Lapped Transform | CELT | 2011 | — | — | ||
Opus | Opus | 2012 | 12% | 9% | ||
Dolby AC-4 | AC4 | 2014 | Unknown | Unknown | ||
LDAC | LDAC | 2015 | Unknown | Unknown | ||
Adaptive differential pulse-code modulation (ADPCM) | aptX / aptX-HD | aptX | 1989 | Unknown | Unknown | |
Digital Theater Systems | DTS | 1990 | 8% | 6% | ||
Master Quality Authenticated | MQA | 2014 | Unknown | Unknown | ||
Sub-band coding (SBC) | MPEG-1 Audio Layer II | MP2 | 1993 | Unknown | Unknown | |
Musepack | MPC | 1997 | ||||
SBC | SBC | 2003 | Unknown | Unknown |
Speech
Further information: Speech coding- Linear predictive coding (LPC)
- Adaptive predictive coding (APC)
- Code-excited linear prediction (CELP)
- Algebraic code-excited linear prediction (ACELP)
- Relaxed code-excited linear prediction (RCELP)
- Low-delay CELP (LD-CELP)
- Adaptive Multi-Rate (used in GSM and 3GPP)
- Codec 2 (noted for its lack of patent restrictions)
- Speex (noted for its lack of patent restrictions)
- Modified discrete cosine transform (MDCT)
- AAC-LD
- Constrained Energy Lapped Transform (CELT)
- Opus (mostly for real-time applications)
List of lossless formats
- Apple Lossless (ALAC – Apple Lossless Audio Codec)
- Adaptive Transform Acoustic Coding (ATRAC)
- Audio Lossless Coding (also known as MPEG-4 ALS)
- Direct Stream Transfer (DST)
- Dolby TrueHD
- DTS-HD Master Audio
- Free Lossless Audio Codec (FLAC)
- Lossless discrete cosine transform (LDCT)
- Meridian Lossless Packing (MLP)
- Monkey's Audio (Monkey's Audio APE)
- MPEG-4 SLS (also known as HD-AAC)
- OptimFROG
- Original Sound Quality (OSQ)
- RealPlayer (RealAudio Lossless)
- Shorten (SHN)
- TTA (True Audio Lossless)
- WavPack (WavPack lossless)
- WMA Lossless (Windows Media Lossless)
See also
- Comparison of audio coding formats
- Data compression#Audio
- Audio file format
- List of audio compression formats
Notes
- ^ The report combines AC-3 & E-AC-3 and separates Dolby Atmos from its market share calculation. Dolby Atmos can be encoded either lossily with E-AC-3/AC-4 or losslessly with Dolby TrueHD. Music and video streaming providers typically use Dolby Digital Plus augmented with Dolby Atmos, whereas digital downloads and Blu-ray discs typically use Dolby TrueHD augmented with Dolby Atmos.
References
- The term "audio coding" can be seen in e.g. the name Advanced Audio Coding, and is analogous to the term video coding
- "Video – Where is synchronization information stored in container formats?".
- US patent 2605361, C. Chapin Cutler, "Differential Quantization of Communication Signals", issued 1952-07-29
- Cummiskey, P.; Jayant, N. S.; Flanagan, J. L. (1973). "Adaptive Quantization in Differential PCM Coding of Speech". Bell System Technical Journal. 52 (7): 1105–1118. doi:10.1002/j.1538-7305.1973.tb02007.x.
- Cummiskey, P.; Jayant, Nikil S.; Flanagan, J. L. (1973). "Adaptive quantization in differential PCM coding of speech". The Bell System Technical Journal. 52 (7): 1105–1118. doi:10.1002/j.1538-7305.1973.tb02007.x. ISSN 0005-8580.
- ^ Schroeder, Manfred R. (2014). "Bell Laboratories". Acoustics, Information, and Communication: Memorial Volume in Honor of Manfred R. Schroeder. Springer. p. 388. ISBN 9783319056609.
- Gray, Robert M. (2010). "A History of Realtime Digital Speech on Packet Networks: Part II of Linear Predictive Coding and the Internet Protocol" (PDF). Found. Trends Signal Process. 3 (4): 203–303. doi:10.1561/2000000036. ISSN 1932-8346.
- Nasir Ahmed; T. Natarajan; Kamisetty Ramamohan Rao (January 1974). "Discrete Cosine Transform" (PDF). IEEE Transactions on Computers. C-23 (1): 90–93. doi:10.1109/T-C.1974.223784. S2CID 149806273. Archived from the original (PDF) on 2016-12-08. Retrieved 2019-10-20.
- ^ Guckert, John (Spring 2012). "The Use of FFT and MDCT in MP3 Audio Compression" (PDF). University of Utah. Retrieved 14 July 2019.
- Princen, J.; Johnson, A.; Bradley, A. (1987). "Subband/Transform coding using filter bank designs based on time domain aliasing cancellation". ICASSP '87. IEEE International Conference on Acoustics, Speech, and Signal Processing. Vol. 12. pp. 2161–2164. doi:10.1109/ICASSP.1987.1169405. S2CID 58446992.
- Princen, J.; Bradley, A. (1986). "Analysis/Synthesis filter bank design based on time domain aliasing cancellation". IEEE Transactions on Acoustics, Speech, and Signal Processing. 34 (5): 1153–1161. doi:10.1109/TASSP.1986.1164954.
- ^ Luo, Fa-Long (2008). Mobile Multimedia Broadcasting Standards: Technology and Practice. Springer Science & Business Media. p. 590. ISBN 9780387782638.
- Britanak, V. (2011). "On Properties, Relations, and Simplified Implementation of Filter Banks in the Dolby Digital (Plus) AC-3 Audio Coding Standards". IEEE Transactions on Audio, Speech, and Language Processing. 19 (5): 1231–1241. doi:10.1109/TASL.2010.2087755. S2CID 897622.
- ^ Brandenburg, Karlheinz (1999). "MP3 and AAC Explained" (PDF). Archived (PDF) from the original on 2017-02-13.
- "Video Developer Report 2019" (PDF). Bitmovin. 2019. Retrieved 5 November 2019.
- "Does Dolby AC-4 support Dolby Atmos?". Dolby Professional Support. 2023-05-23. Retrieved 2024-11-08.
- "Just wait until you hear lossless Dolby Atmos Music". Digital Trends. 2023-05-03. Retrieved 2024-11-08.
- Britanak, V. (2011). "On Properties, Relations, and Simplified Implementation of Filter Banks in the Dolby Digital (Plus) AC-3 Audio Coding Standards". IEEE Transactions on Audio, Speech, and Language Processing. 19 (5): 1231–1241. doi:10.1109/TASL.2010.2087755. S2CID 897622.
- Andersen, Robert Loring; Crockett, B.; Davidson, G.; Davis, Mark; Fielder, L.; Turner, Stephen C.; Vinton, M.; Williams, P. (1 October 2004). "Introduction to Dolby Digital Plus, an Enhancement to the Dolby Digital Coding System" (PDF). Journal of The Audio Engineering Society. Archived from the original (PDF) on 2016-11-19.
- Digital Audio Compression (AC-3, Enhanced AC-3) Standard (PDF), European Telecommunications Standards Institute, 20 September 2017, ETSI TS 102 366 V1.4.1 (2017-09, retrieved 21 September 2023
- Stanković, Radomir S.; Astola, Jaakko T. (2012). "Reminiscences of the Early Work in DCT: Interview with K.R. Rao" (PDF). Reprints from the Early Days of Information Sciences. 60. Retrieved 13 October 2019.
- Xiph.Org Foundation (2009-06-02). "Vorbis I specification - 1.1.2 Classification". Xiph.Org Foundation. Retrieved 2009-09-22.
- Terriberry, Timothy B. Presentation of the CELT codec. Presentation (PDF).
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- Spanias, Andreas; Painter, Ted; Atti, Venkatraman (2006). Audio Signal Processing and Coding. John Wiley & Sons. p. 338. ISBN 9780470041963.
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