Video coding format: Difference between revisions

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Rescuing 6 sources and tagging 0 as dead.) #IABot (v2.0.9.5
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| 1995|| ISO, IEC, [[ITU-T]]
| MPEG, VCEG
| [[Sony]], [[Technicolor SA|Thomson]], [[Mitsubishi Electric|Mitsubishi]], [[H.262/MPEG-2 Part 2#Patent holders|etc.]]<ref name="mp2-patents">{{cite web |title=MPEG-2 Patent List |url=https://www.mpegla.com/wp-content/uploads/m2-att1.pdf |website=[[MPEG LA]] |access-date=July 7, 2019 |archive-date=May 29, 2019 |archive-url=https://web.archive.org/web/20190529164140/https://www.mpegla.com/wp-content/uploads/m2-att1.pdf |url-status=dead }}</ref>
| 29%
| [[DVD|DVD Video]], [[Blu-ray]], [[DVB]], [[ATSC]], [[SVCD]], [[SDTV]]
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| 1996|| ITU-T
| VCEG
| Mitsubishi, [[Hitachi]], Panasonic, [[MPEG-4 Part 2#Patent holders|etc.]]<ref name="mp4-patents">{{cite web |title=MPEG-4 Visual - Patent List |url=https://www.mpegla.com/wp-content/uploads/m4v-att1.pdf |website=[[MPEG LA]] |access-date=July 6, 2019 |archive-date=July 6, 2019 |archive-url=https://web.archive.org/web/20190706184814/https://www.mpegla.com/wp-content/uploads/m4v-att1.pdf |url-status=dead }}</ref>
| {{unk}}
| Videoconferencing, videotelephony, [[H.320]], [[ISDN]],<ref>{{cite news |last1=Davis |first1=Andrew |title=The H.320 Recommendation Overview |url=https://www.eetimes.com/document.asp?doc_id=1275886 |access-date=November 7, 2019 |work=[[EE Times]] |date=June 13, 1997}}</ref><ref>{{cite book |doi=10.1109/WESCAN.1997.627108 |chapter=H.263 based facial image compression for low bitrate communications |title=IEEE WESCANEX 97 Communications, Power and Computing. Conference Proceedings |date=1997 |last1=Li Ding |last2=Takaya |first2=K. |pages=30–34 |isbn=0-7803-4147-3 |quote-page=30 |quote=H.263 is similar to, but more complex than H.261. It is currently the most widely used international video compression standard for video telephony on ISDN (Integrated Services Digital Network) telephone lines. }}</ref> [[mobile video]] ([[3GP]]), [[MPEG-4 Visual]]
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| 2003|| ISO, IEC, ITU-T
| MPEG, VCEG
| Panasonic, [[Godo kaisha|Godo Kaisha IP Bridge]], [[LG Electronics|LG]], [[H.264/MPEG-4 AVC#Patent holders|etc.]]<ref name="avc-patents">{{cite web |title=AVC/H.264 {{ndash}} Patent List |url=https://www.mpegla.com/wp-content/uploads/avc-att1.pdf |website=MPEG LA |access-date=July 6, 2019 |archive-date=January 25, 2023 |archive-url=https://web.archive.org/web/20230125102953/https://www.mpegla.com/wp-content/uploads/avc-att1.pdf |url-status=dead }}</ref>
| 91%
| [[Blu-ray]], [[HD DVD]], [[HDTV]] ([[DVB]], [[ATSC]]), [[video streaming]] ([[YouTube]], [[Netflix]], [[Vimeo]]), [[iTunes Store]], [[iPod Video]], [[Apple TV]], videoconferencing, [[Flash Player]], [[Silverlight]], [[VOD]]
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| [[SMPTE]]
| [[SMPTE]]
| [[Microsoft]], Panasonic, LG, [[Samsung Electronics|Samsung]], [[VC-1#Patent holders|etc.]]<ref>{{cite web |title=VC-1 Patent List |url=https://www.mpegla.com/wp-content/uploads/vc-1-att1.pdf |website=[[MPEG LA]] |access-date=July 11, 2019 |archive-date=July 6, 2019 |archive-url=https://web.archive.org/web/20190706203225/https://www.mpegla.com/wp-content/uploads/hevc-att1.pdf |url-status=dead }}</ref>
| {{unk}}
| Blu-ray, Internet video
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| ISO, IEC, ITU-T
| MPEG, VCEG
| Samsung, [[GE]], [[Nippon Telegraph and Telephone|NTT]], [[JVCKenwood]], [[High Efficiency Video Coding#Patent holders|etc.]]<ref name="hevc-patents">{{cite web |title=HEVC Patent List |url=https://www.mpegla.com/wp-content/uploads/hevc-att1.pdf |website=[[MPEG LA]] |access-date=July 6, 2019 |archive-date=April 10, 2021 |archive-url=https://web.archive.org/web/20210410171930/https://www.mpegla.com/wp-content/uploads/hevc-att1.pdf |url-status=dead }}</ref><ref name="hevcadvance">{{cite web|url=https://www.hevcadvance.com/licensors/|title=HEVC Advance Patent List|website=[[HEVC Advance]]|access-date=July 6, 2019|archive-date=August 24, 2020|archive-url=https://web.archive.org/web/20200824174620/https://www.hevcadvance.com/licensors/|url-status=dead}}</ref>
| 43%
|[[UHD Blu-ray]], DVB, [[ATSC 3.0]], [[Ultra-high-definition television|UHD]] streaming, [[HEIF]], [[macOS High Sierra]], [[iOS 11]]
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==Intra-frame==
Interframe compression complicates editing of an encoded video sequence.<ref name="Bhojani">{{cite web|last=Bhojani|first=D.R.|title=4.1 Video Compression|url=http://shodh.inflibnet.ac.in/bitstream/123456789/821/5/05_hypothesis.pdf|work=Hypothesis|access-date=March 6, 2013|archive-date=May 10, 2013|archive-url=https://web.archive.org/web/20130510133020/http://shodh.inflibnet.ac.in/bitstream/123456789/821/5/05_hypothesis.pdf|url-status=dead}}</ref>
One subclass of relatively simple video coding formats are the [[intra-frame]] video formats, such as [[DV (video format)|DV]], in which each frame of the video stream is compressed independently without referring to other frames in the stream, and no attempt is made to take advantage of correlations between successive pictures over time for better compression. One example is [[Motion JPEG]], which is simply a sequence of individually [[JPEG]]-compressed images. This approach is quick and simple, at the expense of the encoded video being much larger than a video coding format supporting [[Inter frame]] coding.