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CAN/CSA-ISO/IEC TR 14496-24-08(R2018)

Current

Current

The latest, up-to-date edition.

Information technology - Coding of audio-visual objects - Part 24: Audio and systems interaction (Adopted ISO/IEC TR 14496-24:2008, first edition, 2008-01-15)

Available format(s)

Hardcopy , PDF

Language(s)

English

Published date

01-01-2008

€69.09
Excluding VAT

CSA Preface Standards development within the Information Technology sector is harmonized with international standards development. Through the CSA Technical Committee on Information Technology (TCIT), Canadians serve as the Canadian Advisory Committee (CAC) on ISO/IEC Joint Technical Committee 1 on Information Technology (ISO/IEC JTC1) for the Standards Council of Canada (SCC), the ISO member body for Canada and sponsor of the Canadian National Committee of the IEC. Also, as a member of the International Telecommunication Union (ITU), Canada participates in the International Telegraph and Telephone Consultative Committee (ITU-T). Scope This part of ISO/IEC TR 14496 describes the desired joint behavior of MPEG-4 Systems (MPEG-4 File Format) and MPEG-4 Audio codecs. It is desired that MPEG-4 Audio encoders and decoders permit finite length signals to be encoded to a file (particularly MPEG-4 files) and decoded again to obtain the identical signal, subject to codec distortions. This will allow the use of audio in systems implementations (particularly MPEG-4 Systems), perhaps with other media such as video, in a deterministic fashion. Most importantly, the decoded signal will have nothing \"extra\" at the beginning or \"missing\" at the end. This permits: a) an exact \"round trip\" from raw audio to encoded file back to raw audio (excepting encoding artifacts); b) predictable synchronization between audio and other media such as video; c) correct behavior when performing random access as well as when starting at the beginning of a stream; d) identical behavior when edits are applied in the raw domain and the encoded domain (again, excepting encoding artifacts). It is also required that there be predictable interoperability between encoders (as represented by files) and decoders. There are two kinds of audio \"offsets\" (or \"delay\" in the context of transmission): those that result from the encoding process, and those that result from the decoding process. This document is primarily concerned with the latter. These issues are resolved by the following: - The handling of composition time stamps for audio composition units is specified. Special care is taken in the case of compressed data, like HE-AAC coded audio, that can be decoded in a backward compatible fashion as well as in an enhanced fashion. - Examples are given that show how finite length signals can be encoded to an MPEG-4 file and decoded again to obtain the identical signal, excepting codec distortions. Most importantly, the decoded signal has nothing \"extra\" at the beginning or \"missing\" at the end.

DocumentType
Standard
ISBN
978-1-55436-849-5
Pages
0
PublisherName
Canadian Standards Association
Status
Current

CSA Preface Standards development within the Information Technology sector is harmonized with international standards development. Through the CSA Technical Committee on Information Technology (TCIT), Canadians serve as the Canadian Advisory Committee (CAC) on ISO/IEC Joint Technical Committee 1 on Information Technology (ISO/IEC JTC1) for the Standards Council of Canada (SCC), the ISO member body for Canada and sponsor of the Canadian National Committee of the IEC. Also, as a member of the International Telecommunication Union (ITU), Canada participates in the International Telegraph and Telephone Consultative Committee (ITU-T). Scope This part of ISO/IEC TR 14496 describes the desired joint behavior of MPEG-4 Systems (MPEG-4 File Format) and MPEG-4 Audio codecs. It is desired that MPEG-4 Audio encoders and decoders permit finite length signals to be encoded to a file (particularly MPEG-4 files) and decoded again to obtain the identical signal, subject to codec distortions. This will allow the use of audio in systems implementations (particularly MPEG-4 Systems), perhaps with other media such as video, in a deterministic fashion. Most importantly, the decoded signal will have nothing \"extra\" at the beginning or \"missing\" at the end. This permits: a) an exact \"round trip\" from raw audio to encoded file back to raw audio (excepting encoding artifacts); b) predictable synchronization between audio and other media such as video; c) correct behavior when performing random access as well as when starting at the beginning of a stream; d) identical behavior when edits are applied in the raw domain and the encoded domain (again, excepting encoding artifacts). It is also required that there be predictable interoperability between encoders (as represented by files) and decoders. There are two kinds of audio \"offsets\" (or \"delay\" in the context of transmission): those that result from the encoding process, and those that result from the decoding process. This document is primarily concerned with the latter. These issues are resolved by the following: - The handling of composition time stamps for audio composition units is specified. Special care is taken in the case of compressed data, like HE-AAC coded audio, that can be decoded in a backward compatible fashion as well as in an enhanced fashion. - Examples are given that show how finite length signals can be encoded to an MPEG-4 file and decoded again to obtain the identical signal, excepting codec distortions. Most importantly, the decoded signal has nothing \"extra\" at the beginning or \"missing\" at the end.

Standards Relationship
ISO/IEC TR 14496-24:2008 Identical

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