WO2010118686A1 - System and method for processing video files - Google Patents
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- WO2010118686A1 WO2010118686A1 PCT/CN2010/071764 CN2010071764W WO2010118686A1 WO 2010118686 A1 WO2010118686 A1 WO 2010118686A1 CN 2010071764 W CN2010071764 W CN 2010071764W WO 2010118686 A1 WO2010118686 A1 WO 2010118686A1
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Classifications
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- H—ELECTRICITY
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- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N7/00—Television systems
- H04N7/24—Systems for the transmission of television signals using pulse code modulation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N19/00—Methods or arrangements for coding, decoding, compressing or decompressing digital video signals
- H04N19/60—Methods or arrangements for coding, decoding, compressing or decompressing digital video signals using transform coding
- H04N19/61—Methods or arrangements for coding, decoding, compressing or decompressing digital video signals using transform coding in combination with predictive coding
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- H04N19/40—Methods or arrangements for coding, decoding, compressing or decompressing digital video signals using video transcoding, i.e. partial or full decoding of a coded input stream followed by re-encoding of the decoded output stream
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- H04N19/50—Methods or arrangements for coding, decoding, compressing or decompressing digital video signals using predictive coding
- H04N19/597—Methods or arrangements for coding, decoding, compressing or decompressing digital video signals using predictive coding specially adapted for multi-view video sequence encoding
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- H04N21/23—Processing of content or additional data; Elementary server operations; Server middleware
- H04N21/234—Processing of video elementary streams, e.g. splicing of video streams or manipulating encoded video stream scene graphs
- H04N21/2343—Processing of video elementary streams, e.g. splicing of video streams or manipulating encoded video stream scene graphs involving reformatting operations of video signals for distribution or compliance with end-user requests or end-user device requirements
- H04N21/234327—Processing of video elementary streams, e.g. splicing of video streams or manipulating encoded video stream scene graphs involving reformatting operations of video signals for distribution or compliance with end-user requests or end-user device requirements by decomposing into layers, e.g. base layer and one or more enhancement layers
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- H04N21/40—Client devices specifically adapted for the reception of or interaction with content, e.g. set-top-box [STB]; Operations thereof
- H04N21/45—Management operations performed by the client for facilitating the reception of or the interaction with the content or administrating data related to the end-user or to the client device itself, e.g. learning user preferences for recommending movies, resolving scheduling conflicts
- H04N21/462—Content or additional data management, e.g. creating a master electronic program guide from data received from the Internet and a Head-end, controlling the complexity of a video stream by scaling the resolution or bit-rate based on the client capabilities
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- H04N21/60—Network structure or processes for video distribution between server and client or between remote clients; Control signalling between clients, server and network components; Transmission of management data between server and client, e.g. sending from server to client commands for recording incoming content stream; Communication details between server and client
- H04N21/65—Transmission of management data between client and server
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- H04N21/83—Generation or processing of protective or descriptive data associated with content; Content structuring
- H04N21/845—Structuring of content, e.g. decomposing content into time segments
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- H04N21/854—Content authoring
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Definitions
- the present invention relates generally to computer systems, and more particularly to a system and method for processing video files.
- a multi-view video bitstream may contain two views: one designated for the right eye and one designated for the left eye.
- Multi-view video techniques are also used in situations where it is useful to have multiple (more than two) views, for example, a sporting event or a live play.
- Such multi-view video content is implemented by encoding multiple views in the same video bitstream, using, for example a multi-view coding standard such as Multi-view Video Coding (MVC), which is the multi-view extension of the H.264/AVC, specified in Annex H of the H.264/AVC specification.
- MVC Multi-view Video Coding
- Another factor that has increased the amount of video processing is scalable video content, wherein different qualities, frame rates, and/or spatial resolutions, both standard definition (SD) and high definition (HD) video signals, can be represented in the same video bitstream.
- a method includes storing a video file comprising a first bitstream of a first format and a second bitstream of a second format.
- the first bitstream comprises a plurality of independently coded video components
- the second bitstream comprises one of the plurality of independently coded video components.
- the method also includes choosing the one of the plurality of independently coded video components and identifying a track storing the second bitstream.
- a method of operating a video server includes receiving a first video bitstream, storing the first bitstream in a memory, generating a second video bitstream from the first video bitstream, and storing the second video bitstream in the memory.
- the first video bitstream has a plurality of independently coded views and the second video bitstream has one of the plurality of independently coded views.
- a video server has a memory and a processor.
- the processor is configured to receive a first video bitstream having a first independently coded view and a second independently coded view and generate a second video bitstream having the second independently coded view from the first video bitstream.
- the processor stores the first and second video bitstream in the memory.
- Figure 1 illustrates a diagram of an embodiment video server system
- Figure 2 illustrates an embodiment memory allocation.
- FIG. 1 illustrates embodiment video distribution system 100.
- Client 104 is coupled to server 102 via connection 106. Only one client 104 is shown for ease of illustration, but more than one client can be connected to server 102 in embodiments.
- Server 102 has processor 112, network interface 116 and memory 114.
- server 102 is coupled to further networks, for example, Internet 110, via connection 108.
- Internet 110 and connection 108 are apart of connection 106.
- server 102 stores video content or part thereof in memory 114.
- Memory 114 is made of disc drive arrays in an embodiment, however, memory 114 can encompass other forms of storage, for example, solid state memory such as DRAM, and SRAM, other kinds of magnetic storage, or other forms of memory storage.
- Server 102 can be, for example, a remotely located server ran by a service provider in a wide area or metropolitan network, a local area network server, or another type of server.
- Connections 106 and 108 can be wire-line, wireless, DSL and/or other types of connections. Furthermore, connections 106 and 108 can be run according to TCP-IP, UDP-IP or other kinds of protocols.
- Figure 2 illustrates an embodiment allocation of memory 114 of server 102.
- Figure 1. In an embodiment of the present invention, first video bitstream 120 and second video bitstream 112 are stored in memory 114. In an embodiment, first video bitstream 120 has one or more independently coded views and the second video bitstream 122 has a single independently coded view.
- first bitstream 120 has at least two video components.
- a first video component is refereed to as an "A-view.”
- this "A- view” is an independently coded in first bitstream 120.
- First bitstream 122 also has at least one further video component, the first of which is referred to as a "B-view.”
- the "B-view” is not independently coded from the "A-view,” for example, in cases, such as 3-D video, where the "B- view” is closely correlated with the "A- View.”
- "B-View” information may be made of coded differences from the "A- View” rather than coding the "B-View” in its entirety.
- the "B-View” is independently coded, for example, when first bitstream 120 is carrying multiple views of a play, performance, or sporting event.
- the "A- View” might represent a bird's eye view of a race track
- the "B-View” might represent an in-car view of an auto race.
- first bitstream 120 has more than two views, for example, further including a "C- View,” "D-View” and so on. These additional views can be dependent or independent of the "A- View.”
- the "A- View,” and at least one further view, for example, the "B-View” are independently coded views.
- the "B-View” is independently coded. It should be understood that other views besides the "B-View” can be independently coded, so whenever a reference is made to the "B- View,” other views can be considered as well.
- the "B-View” is a dependent view and the "C-View” is an independent view.
- server 102 takes first bitstream having at least two independent views, and creates second bitstream 122 that contains a single view.
- the view encoded in the second bitstream is an independently coded view other than the "A- View.”
- the second bitstream can contain the "A- View” or any independently or dependency coded views.
- the server receives first bitstream 120 from connection 108, however, the first bitstream can also be written into memory or a hard disk or other device for storing locally by a user, for example, in cases where a user copies a DVD video directly without a network.
- Second bitstream 122 is generated and written soon after server 102 receives first bitstream 120 for later retrieval by client 104.
- second bitstream 122 can be generated at a later time, for example, in response to a request for an alternate by client 104 or other clients.
- a processor 112 transcodes subsets of compressed scalable or multi-view video contents, including a mapping of a track for transcoded layer or view to the track for the original layer or view.
- server 102 does not implement the transcoding functionality to provide a standard conforming scalable or multi-view bitstream corresponding to a subset of the original bitstream, where the subset does not depend on the base layer or base view. Rather server 102 creates second bitstream 122 having a single bitstream in some embodiments.
- multi-view and single-view bitstreams are formatted according to the H.264/AVC standard, which is also known as ITU-T Recommendation H.264 and ISO/IEC International Standard (IS) 14496-10.
- This standard was developed by the Joint Video Team (JVT) of the ISO/IEC Motion Picture Experts Group (MPEG) and ITU-T Video Coding Experts Group (VCEG).
- Scalable Video Coding (SVC) is the scalable extension of H.264/ A VC, specified in Annex G of the H.264/AVC spec
- MVC Multi-view Video Coding
- other standards such as ISO/IEC IS 13818-2 can also be used.
- an SVC bitstream has one base layer and a number of enhancement layers.
- the base layer bitstream subset is backward compatible to one or more of the non-scalable profiles earlier specified in Annex A of the H.264/AVC spec.
- an enhancement layer uses a lower layer for inter- layer prediction for improved coding efficiency. For simplicity, this disclosure also refers to an enhancement layer as a non-base layer.
- An embodiment MVC bitstream has one or more encoded views captured, for example, by multiple cameras. In alternative embodiments, these encoded views can have different video content from different sources. A portion of the bitstream is extracted and decoded to represent a subset of the views represented by the entire bitstream.
- One of the views in an MVC bitstream is the base view, for which the bitstream subset is backward compatible to one or more of the non-scalable profiles earlier specified in Annex A of the H.264/AVC spec.
- Other views are referred to as non-base views.
- a non-base view may use another view for improved coding efficiency in some embodiments.
- a bitstream or decoder compliant or conforming or compatible to or with a profile specified in Annex A of the H.264/AVC spec is referred to as compliant or conforming or compatible to or with H.264/AVC
- a bitstream or decoder compliant or conforming or compatible to or with a profile specified in Annex G of the H.264/AVC spec is referred to as compliant or conforming or compatible to or with SVC
- a bitstream or decoder compliant or conforming or compatible to or with a profile specified in Annex H of the H.264/AVC spec is referred to as compliant or conforming or compatible to or with MVC.
- a non-base layer or view may or may not depend on other layers or views.
- a non-base layer or view not dependent on other views is when all layers or views are independent from each other.
- Another example is when a subset of the non-base layers or views is independent from all other layers or views, and where dependency exists within the subset. In such a case there is at least one layer or view in the subset that does not depend on any other layers or views.
- a receiver issues a request to play one independently coded subset of non-base layers or views.
- the receiver can use a decoder compliant to H.264/AVC, or compliant to SVC or MVC.
- the extracted bitstream subset for the requested non-base layer or view is transcoded to comply with H.264/AVC.
- the non-base view or layer is also transcoded to comply with H.264/AVC is that, in SVC or MVC, a conforming bitstream may be needed to contain a base layer or view that is compliant to H.264/AVC. Therefore, when an independent subset of non-base layers or view is extracted, the independent non-base layer or view within the subset is transcoded to be compliant to H.264/AVC. When the number of non-base layers or views in the independent subset is greater than one, the receiver uses decoder compliant to SVC or MVC. Therefore, to generate a bitstream having the subset of layers or views, the independent non-base layer or view within the subset is transcoded to comply with H.264/AVC.
- transcoding an independent non-base layer to H.264/AVC compliant is described in sub-clause G.13.2.1 of the H.264/AVC specification, semantics of the syntax element conversion_type_idc[i], when conversion_type_idc[i] is equal to 2.
- a method of transcoding an independent non-base view in an independent subset of non-base views to a H.264/AVC compliant representation is accomplished according to a method described in subclause H.8.5.5 of the H.264/AVC specification.
- a video server in responding to a receiver's request for one independently coded subset of non-base layers or views, performs the transcoding, for example, as specified in the examples above, and sends the transcoded bitstream to the receiver.
- a mechanism stores a transcoded bitstream in a media file such that the server directly chooses a desired track in the file and sends the elementary stream to the receiver.
- the ISO base media file format is specified in ISO/IEC IS 14496- 12, which is widely used for storage of multimedia contents.
- a family of file format standards or draft standards, including MPEG-4 file format (ISO/IEC IS 14496-14), H.264/AVC file format (ISO/IEC IS 14496-15), SVC file format (ISO/IEC IS 14496-15 Amendment 2) and MVC file format (ISO/IEC IS 14496-15 Amendment 3) are derived based on the ISO base media file format in some embodiment.
- MPEG-4 file format ISO/IEC IS 14496-14
- H.264/AVC file format ISO/IEC IS 14496-15
- SVC file format ISO/IEC IS 14496-15 Amendment 2
- MVC file format ISO/IEC IS 14496-15 Amendment 3
- a new box named VirtualBaseViewTracks box
- the VirtualBaseViewTracks box is included in the Multi-view Information box, which is included in the Media Information box of the track containing the base view of the multi-view stream stored in the file.
- the new box is specified as follows.
- the Box Type is set to "vbvt".
- the container of the new box is a Multi-view Information box ('mvci').
- the new box is optional in some embodiments.
- the new box provides information of tracks storing virtual base views for independently coded non-base views.
- a virtual base view is an H.264/AVC compatible representation of the view, and can be created by the process specified in subclause H.8.5.5 of the H.264/AVC spec. Samples containing data units of an independently coded non-base view and samples of the virtual base view are aligned by decoding times.
- num_entries is the number of tracks or tiers for which the tracks containing the virtual base views are identified
- entryjype indicates which type of a track or tier follows. The following values of entryjype are specified:
- track_id contains only an independently coded non-base view
- the tier identified by track_id and tier_id contains only an independently coded non-base view
- track_id indicates a track
- tier_id indicates a tier within a track
- vbv_track_id indicates a track that contains the virtual base view for the view identified by track_id (when entryjype is equal to 0) or by track_id and tier_id (when entry_type is equal to 1).
- the VirtualBaseViewTracks box provides, for each independently coded non-base view (or a temporal subset of it), the track identifier of the track containing the virtual base view (or a temporal subset of it) that is H.264/AVC compliant and that is created, for example, according to the process specified in sub-clause H.8.5.5 of the H.264/AVC specification.
- the view with the smallest view order index among the subset of views is an independently coded non- base view (otherwise more views need to be extracted).
- the data units are taken from the corresponding virtual base view track.
- Data units for other views are taken as usual, from the original track(s). If the number of views in the subset of non-base views to be extracted and decoded is one, (i.e., only one independently coded non-base view is to be extracted and decoded), the virtual view is directly taken.
- a new track reference type of 'vbvt' is defined.
- any track containing a virtual base view includes a track reference of type Vbvt' referring to the source track containing the corresponding independently coded non-base view.
- a server identifies the file track containing the virtual base view of an independently coded non-base view, and when the independently coded non-base view is requested by a client, the server then sends the media data contained in the identified track to the client.
- a new box or a new track reference type is used to apply to scalable video contents.
- Such a new box or a new track reference type provides a similar functionality as above for multi-view video content, but herein for scalable video content, when a non-base layer is requested by a client.
- a method includes storing a video file comprising a first bitstream of a first format and a second bitstream of a second format.
- the first bitstream comprises a plurality of independently coded video components
- the second bitstream comprises one of the plurality of independently coded video components.
- the method also includes choosing the one of the plurality of independently coded video components and identifying a track storing the second bitstream.
- the method further includes transmitting the second bitstream to a client.
- each of the plurality of independently coded video components include an independently coded view and/or an independently coded layer.
- the first format is a Multiview Video Coding (MVC) format according to a profile specified in Annex H of the H.264/AVC video coding standard
- the second format is an Advanced Video Coding (AVC) format according to a profile specified in Annex A of the H.264/AVC video coding standard
- first format is a Scalable Video Coding (SVC) format according to a profile specified in Annex G of the H.264/AVC video coding standard
- the second format comprises an Advanced Video Coding (AVC) format according to a profile specified in Annex A of the H.264/AVC video coding standard
- the video file is stored according to a Multiview Video Coding (MVC) file format, or according to a Scalable Video Coding (SVC) file format.
- MVC Multiview Video Coding
- SVC Scalable Video Coding
- identifying a track storing the second bitstream includes using information from the video file, wherein the information from the video file is indicative of the track storing the second bitstream.
- the information from the video file indicative of the track storing the second bitstream comprises a box containing information of the track storing the second bitstream and/or a track reference indicative of information of the track storing the second bitstream.
- a method of operating a video server includes receiving a first video bitstream, where the first video bitstream includes a plurality of independently coded views. The method further includes storing the first bitstream in a memory, generating a second video bitstream from the first video bitstream, and storing the second video bitstream in the memory. The second video bitstream comprises one of the plurality of independently coded views. In an embodiment, the method further includes transmitting the second bitstream to a client. In further embodiments, the method also includes receiving a request for the one of the plurality of bitstreams from the client, where the transmitting is performed in response to receiving the request.
- Some embodiments include generating a third video bitstream from the first video bitstream, where the third video bitstream includes another one of the plurality of independently coded views, and storing the third video bitstream in the memory.
- the second video bitstream is stored in a same file as the first bitstream.
- the second bitstream is coded in a different format from the first bitstream.
- the first bitstream is encoded in a multi-view video coding (MVC) format; and the second bitstream is encoded in a scalable video coding (SVC) format.
- MVC multi-view video coding
- SVC scalable video coding
- the plurality of independently coded views comprise an A- view and at least one further independently coded view, and the one of the plurality of independently coded views in the second bitstream comprises the at least one further independently coded view.
- a video server includes a memory; and a processor, wherein the processor is configured to receive a first video bitstream having a first independently coded view and a second independently coded view. The processor is further configured to store the first bitstream in the memory, generate a second video bitstream from the first video bitstream, and store the second video bitstream in the memory. The second video bitstream includes the second independently coded views.
- the video server is configured to transmit the second bitstream.
- the video server is configured to transmit the second bitstream to a client in response to a request for the second video stream.
- the second bitstream is coded in a different format from the first bitstream.
- the first bitstream is encoded in a multiview video coding (MVC) format; and the second bitstream is encoded in a scalable video coding (SVC) format.
- MVC multiview video coding
- SVC scalable video coding
- the first independently coded views comprises an A-view and the second independently coded view comprises a B-view.
- a method of distributing video data includes providing a first video bitstream, where the first video bitstream includes a first independently coded view and a second independently coded view. The method also includes generating a second video bitstream from the first video bitstream and storing the second video bitstream in a memory, where the second video bitstream includes the second independently coded view. In embodiment, the method further includes transmitting the second bitstream to a client. In some embodiments, transmitting the second bitstream to the client is performed in response to a request from the client for the second independently coded view.
- generating is performed by a processor.
- providing the first video bitstream includes receiving the first video bitstream from a computer network.
- the first bitstream is encoded in a multiview video coding (MVC) format
- the second bitstream is encoded in a scalable video coding (SVC) format.
- MVC multiview video coding
- SVC scalable video coding
- embodiment algorithms can be implemented using a computer program or software running on a processor.
- Advantages of embodiments that create a single view bitstream from a multi-view bitstream is the ability to provide secondary views to clients without having to perform transcoding operations each time the view is requested.
- a further advantage of embodiments is that the client node requesting the secondary view does not have to support or perform multi-view decoding algorithms, and does not have to allocate processing resources to multi-view decoding. This allows lower power and/or lower performance clients such as smart-phones and netbooks, to access full featured video content without having to expend processing resources extracting views from multi-view bitstreams.
- the embodiments of present invention further provide a Video Files Processing apparatus which comprising: a storing unit, used for storing a video file, the video file comprising a first bitstream of a first format and a second bitstream of a second format, wherein the first bitstream comprises a plurality of independently coded video components, and the second bitstream comprises one of the plurality of independently coded video components; a choosing unit, used for choosing the one of the plurality of independently coded video components; and an identifying unit, used for identifying a track storing the second bitstream.
- the Video Files Processing apparatus may further comprises a transmitting unit, used for transmitting the second bitstream to a client.
- the identifying unit of the Video Files Processing apparatus may use information from the video file, wherein the information from the video file is indicative of the track storing the second bitstream.
- the embodiments of present invention also further provide an video server, which comprising: a receiving unit, used for receiving a first video bitstream, the first video bitstream comprising a plurality of independently coded views; a generating unit, used for generating a second video bitstream from the first video bitstream, wherein the second video bitstream comprises one of the plurality of independently coded views; and a storing unit, used for storing the first bitstream and the second video bitstream.
- the video server may further comprise a transmitting unit, used for transmitting the second bitstream to a client.
- the video server may further comprise: the generating unit further used for generating a third video bitstream from the first video bitstream, wherein the third video bitstream comprises another one of the plurality of independently coded views; and the storing unit further used for storing the third video bitstream in the memory.
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- Compression Or Coding Systems Of Tv Signals (AREA)
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Priority Applications (4)
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KR1020117022136A KR101265990B1 (en) | 2009-04-14 | 2010-04-14 | System and method for processing video files |
EP10764099A EP2420065A1 (en) | 2009-04-14 | 2010-04-14 | System and method for processing video files |
JP2012505036A JP5289618B2 (en) | 2009-04-14 | 2010-04-14 | System and method for processing video files |
CN201080006517.1A CN102224733B (en) | 2009-04-14 | 2010-04-14 | System and method for processing video files |
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US16924709P | 2009-04-14 | 2009-04-14 | |
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US12/754,896 US8948247B2 (en) | 2009-04-14 | 2010-04-06 | System and method for processing video files |
US12/754,896 | 2010-04-06 |
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CN103856778A (en) | 2014-06-11 |
JP5289618B2 (en) | 2013-09-11 |
US8948247B2 (en) | 2015-02-03 |
EP2420065A4 (en) | 2012-02-22 |
US20100259690A1 (en) | 2010-10-14 |
EP2420065A1 (en) | 2012-02-22 |
KR101265990B1 (en) | 2013-05-22 |
KR20110118174A (en) | 2011-10-28 |
CN102224733A (en) | 2011-10-19 |
CN102224733B (en) | 2014-03-12 |
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