Techniques and developments of MPEG audio

Li Chao; Xiong Zhang; Ouyang Yuanxin

Volume 29 Issue 7

Jul. 2003

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Journal of Beijing University of Aeronautics and Astronautics > 2003 > 29(7): 649-653.

Wang Shuhe, He Linshu, Zhang Yuzhuet al. Flight vehicles multidisciplinary design optimization software system[J]. Journal of Beijing University of Aeronautics and Astronautics, 2005, 31(01): 51-55. (in Chinese)

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Li Chao, Xiong Zhang, Ouyang Yuanxinet al. Techniques and developments of MPEG audio[J]. Journal of Beijing University of Aeronautics and Astronautics, 2003, 29(7): 649-653. (in Chinese)

Citation:

Li Chao, Xiong Zhang, Ouyang Yuanxinet al. Techniques and developments of MPEG audio[J]. Journal of Beijing University of Aeronautics and Astronautics, 2003, 29(7): 649-653. (in Chinese)

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Techniques and developments of MPEG audio

School of Computer Science and Technology, Beijing University of Aeronautics and Astronautics, Beijing 100083, China

Received Date: 13 May 2002
Publish Date: 31 Jul 2003

Abstract

Abstract

Moving pictures experts group(MPEG) series standards have become one of the most popular families in the field of multimedia application. MPEG audio is an elementary part of these standards. With the normalization of new standards such as MPEG-4/7/21 in the recent several years, a novel multimedia application interoperability framework will be founded. However, many attentions should still be concentrated on improving the efficiency of audio coding and on mining more precise content-based description methods. A detailed review of the techniques and developments of MPEG audio standards was made, and possible problems of existing standards were pointed out. The conclusion and a brief description of the perspectives of MPEG audio were given.
- psychoacoustic,
- voice coding,
- sound masking,
- intellectual property,
- interoperability

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References

[1] ISO. ISO/IEC 11172-3, Coding of moving pictures and associated audio for digital storage media at up to about 1.5Mbps, part 3:audio .1993 [2] ISO. ISO/IEC 13818-3, Generic coding of moving pictures and associated audio information, part 3:audio[S] 1998 [3] ISO. ISO/IEC 13818-5/Amd.1, Generic coding of moving pictures and associated audio information, part 3:audio amd.1[S] 1999 [4] Zwicker E. Masking and psychological excitation as consequences of the ear's frequency analysis . Frequency Analysis and Periodicity Detection in Hearing . Lieden:Sijthoff, 1970. 376~396 [5] Tai H M. MPEG-4 parametric audio coding and its implementation . Proc of IECON'99 . California:IEEE, 1999. 762~766 [6] ISO. ISO/IEC 14496-3/AMD.1, Very low bitrate audio-visual coding, part 3:audio amd.1[S] 1999 [7] ISO. ISO/IEC 14496-3, Very low bitrate audio-visual coding, part 3:audio[S] 1998 [8] Schulyer R. Coding of natual audio in MPEG-4 . Proc of ICASSP'98 . Washington:IEEE, 1998. 3797~3800 [9] Scheirer E. Structured audio and effect processing in the MPEG-4 multimedia standard[J] Multimedia Systems, 1999, 7(1):11~22 [10] Scheirer E. Synthetic and SNHC audio in MPEG-4[J] Signal Processing:Image Communication, 2000, 15(4):445~461 [11] Scheirer E, Vaananen R. AudioBIFS:Describing audio scenes with the MPEG-4 multimedia standard[J] IEEE Transaction on Multimedia, 1999, 1(3):237~250 [12] ISO.ISO/IEC CD 15938-4, Multimedia content description interface, part 4:audio[S] 001 [13] Nack F. Everything you want to know about MPEG-7[J] IEEE Multimedia, 1999, 6(4):64~73 [14] ISO. ISO/IEC CD 21000-4:2001, Coding of audio-visual objects, part 4:IPMP[S] 2001 [15] Lacy J, Rump N, Kudumakis P. MPEG-4 IPMP overview & applications . ISO/IEC JTC1/SC29/WG11 N2614, 1998 [16] Keith W. AAC:life beyond MP3[J] Hi-Fi News, 2000, 10:68~72

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