MPEG-1 Video Compression. Furht, B., editor In Encyclopedia of Multimedia, pages 444–446. Springer US, 2008. 00000Paper abstract bibtex DefinitionMPEG-1 video and audio compression standards were mainly devised for CD-ROM applications at 1.5 Mbps.The MPEG-1 video compression algorithm was optimized for bitrates of 1.1 Mbps since coded video at about 1.1 Mbps and coded stereo audio at 128kbps together match the CD-ROM data rates of approximately 1.4Mbps [1]. SIF was used for optimal performance in MPEG-1 [1]. SIF corresponding to NTSC and PAL have the size of 352 × 240 at 29.97 fps and the size of 352 × 288 at 25 fps, respectively.Key Compression Tools for MPEG VideoAll MPEG standards are based on motion compensated transform coding, where main compression tools are following three: (1). Color conversion to YUV and down sampling in UV domain, (2). Spatial de-correlation, and (3). Temporal de-correlation. The video is encoded one macro block (MB) at a time. Each MB corresponds to a 16 × 16 luma component and the corresponding chroma components. First, UV domain down sampling ...
@incollection{furht_mpeg-1_2008,
title = {{MPEG}-1 {Video} {Compression}},
copyright = {©2008 Springer-Verlag},
isbn = {978-0-387-74724-8 978-0-387-78414-4},
url = {http://link.springer.com/referenceworkentry/10.1007/978-0-387-78414-4_118},
abstract = {DefinitionMPEG-1 video and audio compression standards were mainly devised for CD-ROM applications at 1.5 Mbps.The MPEG-1 video compression algorithm was optimized for bitrates of 1.1 Mbps since coded video at about 1.1 Mbps and coded stereo audio at 128kbps together match the CD-ROM data rates of approximately 1.4Mbps [1]. SIF was used for optimal performance in MPEG-1 [1]. SIF corresponding to NTSC and PAL have the size of 352 × 240 at 29.97 fps and the size of 352 × 288 at 25 fps, respectively.Key Compression Tools for MPEG VideoAll MPEG standards are based on motion compensated transform coding, where main compression tools are following three: (1). Color conversion to YUV and down sampling in UV domain, (2). Spatial de-correlation, and (3). Temporal de-correlation. The video is encoded one macro block (MB) at a time. Each MB corresponds to a 16 × 16 luma component and the corresponding chroma components. First, UV domain down sampling ...},
language = {en},
urldate = {2016-05-03},
booktitle = {Encyclopedia of {Multimedia}},
publisher = {Springer US},
editor = {Furht, Borko},
year = {2008},
note = {00000},
pages = {444--446}
}
Downloads: 0
{"_id":"Xp24YxWvKwuvLXp6Y","bibbaseid":"furht-mpeg1videocompression-2008","authorIDs":[],"bibdata":{"bibtype":"incollection","type":"incollection","title":"MPEG-1 Video Compression","copyright":"©2008 Springer-Verlag","isbn":"978-0-387-74724-8 978-0-387-78414-4","url":"http://link.springer.com/referenceworkentry/10.1007/978-0-387-78414-4_118","abstract":"DefinitionMPEG-1 video and audio compression standards were mainly devised for CD-ROM applications at 1.5 Mbps.The MPEG-1 video compression algorithm was optimized for bitrates of 1.1 Mbps since coded video at about 1.1 Mbps and coded stereo audio at 128kbps together match the CD-ROM data rates of approximately 1.4Mbps [1]. SIF was used for optimal performance in MPEG-1 [1]. SIF corresponding to NTSC and PAL have the size of 352 × 240 at 29.97 fps and the size of 352 × 288 at 25 fps, respectively.Key Compression Tools for MPEG VideoAll MPEG standards are based on motion compensated transform coding, where main compression tools are following three: (1). Color conversion to YUV and down sampling in UV domain, (2). Spatial de-correlation, and (3). Temporal de-correlation. The video is encoded one macro block (MB) at a time. Each MB corresponds to a 16 × 16 luma component and the corresponding chroma components. First, UV domain down sampling ...","language":"en","urldate":"2016-05-03","booktitle":"Encyclopedia of Multimedia","publisher":"Springer US","editor":[{"propositions":[],"lastnames":["Furht"],"firstnames":["Borko"],"suffixes":[]}],"year":"2008","note":"00000","pages":"444–446","bibtex":"@incollection{furht_mpeg-1_2008,\n\ttitle = {{MPEG}-1 {Video} {Compression}},\n\tcopyright = {©2008 Springer-Verlag},\n\tisbn = {978-0-387-74724-8 978-0-387-78414-4},\n\turl = {http://link.springer.com/referenceworkentry/10.1007/978-0-387-78414-4_118},\n\tabstract = {DefinitionMPEG-1 video and audio compression standards were mainly devised for CD-ROM applications at 1.5 Mbps.The MPEG-1 video compression algorithm was optimized for bitrates of 1.1 Mbps since coded video at about 1.1 Mbps and coded stereo audio at 128kbps together match the CD-ROM data rates of approximately 1.4Mbps [1]. SIF was used for optimal performance in MPEG-1 [1]. SIF corresponding to NTSC and PAL have the size of 352 × 240 at 29.97 fps and the size of 352 × 288 at 25 fps, respectively.Key Compression Tools for MPEG VideoAll MPEG standards are based on motion compensated transform coding, where main compression tools are following three: (1). Color conversion to YUV and down sampling in UV domain, (2). Spatial de-correlation, and (3). Temporal de-correlation. The video is encoded one macro block (MB) at a time. Each MB corresponds to a 16 × 16 luma component and the corresponding chroma components. First, UV domain down sampling ...},\n\tlanguage = {en},\n\turldate = {2016-05-03},\n\tbooktitle = {Encyclopedia of {Multimedia}},\n\tpublisher = {Springer US},\n\teditor = {Furht, Borko},\n\tyear = {2008},\n\tnote = {00000},\n\tpages = {444--446}\n}\n\n","editor_short":["Furht, B."],"key":"furht_mpeg-1_2008","id":"furht_mpeg-1_2008","bibbaseid":"furht-mpeg1videocompression-2008","role":"editor","urls":{"Paper":"http://link.springer.com/referenceworkentry/10.1007/978-0-387-78414-4_118"},"downloads":0,"html":""},"bibtype":"incollection","biburl":"http://www.telemidia.puc-rio.br/~alan/files/all.bib","creationDate":"2020-03-03T14:08:15.172Z","downloads":0,"keywords":[],"search_terms":["mpeg","video","compression"],"title":"MPEG-1 Video Compression","year":2008,"dataSources":["jAxurbvLP8q5LTdLa"]}