Difference between revisions of "Dictionary"
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+ | {{See also|Category:Glossary|Win8 Dictionary}} | ||
+ | {{Historical}} | ||
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− | Some terms used in the area of Audio/Video and their meaning. | + | Some terms used in the area of Audio/Video and their meaning. |
− | + | === [[Aspect Ratio]] === | |
− | + | The ratio of width to height of a video. | |
− | The ratio of width to height of a video. | ||
− | ===[[Bitrate]]=== | + | === [[Bitrate]] === |
− | |||
− | + | The number of bits of data to be played per second. | |
− | |||
− | ===[[ | + | === [[Chroma]] === |
− | |||
− | + | Greek for color, the part of a video file or signal that encodes the color portion. | |
− | |||
− | ===[ | + | === [[Codec]] === |
− | |||
− | + | A part of the program which understands a type of video or audio (short for '''Co'''mpression/'''Dec'''ompression). DivX and Theora are examples of video codecs; MP3 and Vorbis are audio codecs. The output stream produced when a codec to audio or video is generally "muxed" into a container format, such as AVI or Ogg. As certain codecs are often associated with certain container formats, the name of the container is often used to imply the codec, such as "Ogg", which usually refers to a Vorbis stream in an Ogg container. | |
− | ===[[Encode]]=== | + | === [[Decode]] === |
+ | |||
+ | To understand and play a file, VideoLAN needs to decode it. It does this with a decoder. See codec. | ||
+ | |||
+ | === [[Deinterlacing]] === | ||
+ | |||
+ | Deinterlacing is the process of converting interlaced video (a sequence of fields) into a non-interlaced form (a sequence of frames). This is a fundamentally impossible process that must always produce some image degradation, since it ideally requires "temporal interpolation" which involves guessing the movement of every object in the image and applying motion correction to every object. | ||
+ | |||
+ | === [[Demuxing]] === | ||
+ | Process that reads the container format and separates audio, video, and subtitles, if any. Demuxing files doesn't weaken the video nor audio quality, it doesn't do anything for these data streams, it just simply saves them into separate files, each containing one element of the original file. | ||
+ | |||
+ | === [[Encode]] === | ||
+ | |||
+ | === [[ES]] === | ||
− | |||
An '''E'''lementry '''S'''tream, a single channel of audio, video or subtitles (without a container). | An '''E'''lementry '''S'''tream, a single channel of audio, video or subtitles (without a container). | ||
− | ===[[FourCC]]=== | + | === [[FourCC]] === |
+ | |||
+ | === [[Framerate]] === | ||
+ | |||
+ | The number of frames of video displayed (or encoded to be displayed) per unit time, usually expressed in frames per second (fps) or Hertz (Hz). One Hertz is equivilant to one frame per second. | ||
+ | |||
+ | |||
+ | {{wikipedia|Video_compression_picture_types#Summary|label1=Video compression picture types|Inter_frame#Frame_types|label2=Inter frame#Frame_types}} | ||
− | ===[[ | + | === [[Frame types]] === <!--([[I-frame|I-]], [[P-frame|P-]] & [[B-frame|B-]frames])--> |
− | |||
− | + | :[[I-frame]]: A full ''''I'''ntra-coded picture' | |
+ | :[[P-frame]]: ''''P'''redicted' from previous frame(s)'s picture | ||
+ | :[[B-frame]]: ''''B'''i-predictive' or ''''B'''idirectional' calculated from surrounding frames's pictures. Can painlessly be skipped. | ||
− | === | + | === IDCT === |
− | + | {{wikipedia|IDCT#DCT-III|label1=IDCT}} | |
− | + | '''I'''nverse '''D'''iscrete '''c'''osine '''t'''ransform | |
− | ===[[ | + | === [[Keyframe]] === |
− | + | A [[Frame]] of video which is stored as a complete image, not just as the changes from the previous image. | |
− | |||
− | ===[[ | + | === [[Lossless and Lossy|Lossless]] === |
− | |||
− | + | Compression by means of an algorithm that does not change the data once decompressed. Programs and most types of exact data are examples of types of information that suffer greatly from being changed. If information is lost then the compression method is considered to be lossy. | |
− | |||
− | ===[[ | + | === [[Lossless and Lossy|Lossy]] === |
− | + | Compression that causes some data to be changed in the process. Some data will not suffer from this, such as a photo that looks very much like the original despite some degradation. Photos, videos and audio are good examples of such compression. | |
− | |||
− | ===[[ | + | === [[Motion Compensation]] === |
− | + | Part of the video compression process. New frames normally store changes in the image since the previous frame. If the scene is moving as a whole (such as panning), motion compensation moves the reference frame to line up with the new frame. This means that there are less changes to be stored since the previous frame, and so less data needs to be stored. | |
− | |||
− | ===[[ | + | === [[Muxing]] === |
− | + | The process of encapsulating an encoded stream (see codec) into a container format, such as AVI, Ogg, or Matroska. | |
− | |||
− | |||
− | |||
− | |||
− | + | === [[Overlay]] === | |
− | Also note that, provided both container formats support the codec, transcoding is not necessary to switch container formats. | + | Displaying an image on top of the video |
+ | |||
+ | === [[Packetizing]] === | ||
+ | |||
+ | === [[Post Processing]] === | ||
+ | |||
+ | Post processing attempts to increase the quality of a decoded stream. In VLC media player, it will reduce blockiness for low-bitrate video streams, at the expense of smoothing out some detail. This feature is not available for all codecs that VLC supports. | ||
+ | |||
+ | === [[PCR]] (Program Clock Reference) === | ||
+ | |||
+ | === [[PS]] === | ||
+ | |||
+ | Abbreviation for '''P'''rogram '''S'''tream. | ||
+ | |||
+ | {{wikipedia|Presentation_time_stamps|label1=PTS}} | ||
+ | |||
+ | === [[PTS]] === | ||
+ | '''P'''resentation '''t'''ime-stamp | ||
+ | |||
+ | === [[Sample rate]] === | ||
+ | |||
+ | Usually used with audio, the frequency at which a signal is digitally sampled, usually expressed in Hertz (Hz) or kiloHertz (kHz). One Hertz is equivilant to one sample per second, One kiloHertz is a thousand (1000) Hertz. | ||
+ | |||
+ | === [[Transcode]] === | ||
+ | |||
+ | Transcoding is changing the format of a file. This can be for the purpose of changing the audio or video's bitrate, codec, or other attributes, to reduce disk usage or for compatibility with a certain program/device. | ||
+ | |||
+ | It is important to note that transcoding can be highly detrimental to quality when dealing with lossy codecs, particularly for video. This is because the second time a stream is encoded lossily the codec has less information to work with, causing it to produce a cruder approximation of the original. As with many other quality issues, this problem can be worked around by increasing the bitrate, though some quality loss (as well as possible re-encoding of the previous codec's artifacts) will inevitably occur. | ||
+ | |||
+ | Also note that, provided both container formats support the codec, transcoding is not necessary to switch container formats. For example, an XviD video stream in an AVI file can be losslessly remuxed into an Ogg file. | ||
+ | |||
+ | === [[TS]] === | ||
− | |||
Abbreviation for '''T'''ransport '''S'''tream, as in [[MPEG-TS]]. | Abbreviation for '''T'''ransport '''S'''tream, as in [[MPEG-TS]]. | ||
− | ===[[Transport Stream]]=== | + | === [[Transport Stream]] === |
+ | |||
See [[MPEG-TS]] | See [[MPEG-TS]] | ||
+ | |||
+ | [[Category:Proposed deletion]] | ||
+ | [[Category:Glossary]] | ||
+ | {{DEFAULTSORT:*}} |
Latest revision as of 06:11, 16 May 2019
This page is obsolete and kept only for historical interest. It may document features that are obsolete, superseded, or irrelevant. Do not rely on the information here being up-to-date. |
Some terms used in the area of Audio/Video and their meaning.
Aspect Ratio
The ratio of width to height of a video.
Bitrate
The number of bits of data to be played per second.
Chroma
Greek for color, the part of a video file or signal that encodes the color portion.
Codec
A part of the program which understands a type of video or audio (short for Compression/Decompression). DivX and Theora are examples of video codecs; MP3 and Vorbis are audio codecs. The output stream produced when a codec to audio or video is generally "muxed" into a container format, such as AVI or Ogg. As certain codecs are often associated with certain container formats, the name of the container is often used to imply the codec, such as "Ogg", which usually refers to a Vorbis stream in an Ogg container.
Decode
To understand and play a file, VideoLAN needs to decode it. It does this with a decoder. See codec.
Deinterlacing
Deinterlacing is the process of converting interlaced video (a sequence of fields) into a non-interlaced form (a sequence of frames). This is a fundamentally impossible process that must always produce some image degradation, since it ideally requires "temporal interpolation" which involves guessing the movement of every object in the image and applying motion correction to every object.
Demuxing
Process that reads the container format and separates audio, video, and subtitles, if any. Demuxing files doesn't weaken the video nor audio quality, it doesn't do anything for these data streams, it just simply saves them into separate files, each containing one element of the original file.
Encode
ES
An Elementry Stream, a single channel of audio, video or subtitles (without a container).
FourCC
Framerate
The number of frames of video displayed (or encoded to be displayed) per unit time, usually expressed in frames per second (fps) or Hertz (Hz). One Hertz is equivilant to one frame per second.
Frame types
- I-frame: A full 'Intra-coded picture'
- P-frame: 'Predicted' from previous frame(s)'s picture
- B-frame: 'Bi-predictive' or 'Bidirectional' calculated from surrounding frames's pictures. Can painlessly be skipped.
IDCT
Inverse Discrete cosine transform
Keyframe
A Frame of video which is stored as a complete image, not just as the changes from the previous image.
Lossless
Compression by means of an algorithm that does not change the data once decompressed. Programs and most types of exact data are examples of types of information that suffer greatly from being changed. If information is lost then the compression method is considered to be lossy.
Lossy
Compression that causes some data to be changed in the process. Some data will not suffer from this, such as a photo that looks very much like the original despite some degradation. Photos, videos and audio are good examples of such compression.
Motion Compensation
Part of the video compression process. New frames normally store changes in the image since the previous frame. If the scene is moving as a whole (such as panning), motion compensation moves the reference frame to line up with the new frame. This means that there are less changes to be stored since the previous frame, and so less data needs to be stored.
Muxing
The process of encapsulating an encoded stream (see codec) into a container format, such as AVI, Ogg, or Matroska.
Overlay
Displaying an image on top of the video
Packetizing
Post Processing
Post processing attempts to increase the quality of a decoded stream. In VLC media player, it will reduce blockiness for low-bitrate video streams, at the expense of smoothing out some detail. This feature is not available for all codecs that VLC supports.
PCR (Program Clock Reference)
PS
Abbreviation for Program Stream.
PTS
Presentation time-stamp
Sample rate
Usually used with audio, the frequency at which a signal is digitally sampled, usually expressed in Hertz (Hz) or kiloHertz (kHz). One Hertz is equivilant to one sample per second, One kiloHertz is a thousand (1000) Hertz.
Transcode
Transcoding is changing the format of a file. This can be for the purpose of changing the audio or video's bitrate, codec, or other attributes, to reduce disk usage or for compatibility with a certain program/device.
It is important to note that transcoding can be highly detrimental to quality when dealing with lossy codecs, particularly for video. This is because the second time a stream is encoded lossily the codec has less information to work with, causing it to produce a cruder approximation of the original. As with many other quality issues, this problem can be worked around by increasing the bitrate, though some quality loss (as well as possible re-encoding of the previous codec's artifacts) will inevitably occur.
Also note that, provided both container formats support the codec, transcoding is not necessary to switch container formats. For example, an XviD video stream in an AVI file can be losslessly remuxed into an Ogg file.
TS
Abbreviation for Transport Stream, as in MPEG-TS.
Transport Stream
See MPEG-TS