TH69307B - Reverse interchangeable image bundles in scalable video coding. - Google Patents

Abstract

Indirectly grouped NALs for SVC file formats and formats RTP payload for encoding animations The grouped NAL units This artifact indirectly simplifies the identification of scalable data within the bitstream, thereby enabling efficient and rapid data flow management. This indirect grouping of artifacts ensures that the layers The stream base can also be processed with the H.264/AVC compliant decoder. and the H.264/AVC RTP payload parser.

Claims (5)

Disclaimer (all) which will not appear on the advertisement page: Edit 21/11/2018 Page 1 of 7 pages Disclaimer 1. Method for encoding video encoded and can be adjusted. Size, including the base layer of An image that is encoded and at least one developed layer of the image, which is sequentially encrypted. Of the aggregate unit, including the first aggregate unit of information, which includes: Selecting one or more basic data units of the encrypted image to be encapsulated as. One unit of information included; Creating a base unit containing scalable data associated with the underlying unit. At least one unit; And encapsulation of the underlying data unit that contains at least the scalable data and the basic data units. One unit is the first total unit of information. -------------------------------------------------- -------------------------------------------------- ------ 09/02/2018 ------ (OCR) Page 1 of 7 pages Disclaimer 1. Method for encapsulating encoded and scalable video signals at Including the base layer of An image that is encoded and at least one developed layer of the image, which is sequentially encrypted. Of the aggregate unit, including the first aggregate unit of information, which includes: Selecting at least one base unit of the encrypted image to be encapsulated as One unit of information included; Creating a base unit containing scalable data associated with the underlying unit. At least one unit; And encapsulation of the underlying data unit that contains at least the scalable data and the basic data units. One unit to be one unit of information. 2. Method according to the claim No. 1, where the underlying unit containing the scaled data is associated with at least one of the fundamental units; Or a number of basic data units that are based on the underlying data unit with scalable data 3. Method according to claim 2, where, in response to the fundamental unit containing data to adjust Scalable, associated with a number of basic data units that are based on the underlying data unit with scalable data, additional assembly methods by creating an indicator, where an identifier is one of A number of bytes that follow the base unit in which the data is scalable, where the number of bytes. One attached a number of basic units of information; - A number of basic data units that are based on the underlying data unit with scalable data 4. Method according to claim 2, where the underlying data unit with scalable data will be The design does not require consideration during the removal of the data from the encapsulation. 5. Method of Claim No. 2, where the scalable data is selected from the group comprising the body. Specifies the piotrate for the base unit, the temprol level 1, the dependente liver indicator, the grade 1 factor, where the indicator indicates the base unit associated with the indicator. The Dependentee will require at least 2 pages of 7 pages, whether or not one part of the underlying unit for decoding, and which indicator will say. The underlying unit of information that is linked, depending on the transition point at which different layers can be changed. 6. Method according to claim 1, where the base data unit with scalable data will be Design without consideration by H.264 / AVC decoder, AVC decoder, H.264 / AVC RTP standard decoder. 1 and at least one SVC decoder (SVC) 7. Method according to claim 2, where the encrypted and scalable video signal is encapsulated. It is the order of the data groups and the aggregated data units, ie the payload of the data groups 8. Method of claim No. 7, which includes additions. Creating and encapsulating a class identifier of more than one base unit contained in the data unit. Include one unit; And organizing basic units with scalable data to track indicators in the unit. Data includes one and at least one basic unit of information to track the unit. The basis of which the data is scalable in the first aggregate unit 9. Clause 7 Clause 7 where the sequence of the data groups is composed of an RT-Pi 1 data stream 0. Hold a second or third right, where encrypted and scalable video signals are encapsulated into one or more files of at least one file format, and data units. Include at least one example based on the file format. 1. 1. Method of Claim 10, which includes additionally. Creating a basic unit of information that contains scalable data associated with the first subset of At least one basic unit of information, the first subset of which contains the data unit. The basis of the base layer of the image which is encrypted; And to encapsulate the second subset of at least one basic unit of information into the base information unit, including page 3 of the number 7, page 1 2. Method of Claim No. 11, where the basic data unit can be combined. It is designed to remove data from encapsulation in order of The basic data unit according to the first algorithm or the second algorithm, where, according to the first algorithm, the sequence of the fundamental data units is composed of the second subset of At least one basic unit of information, and according to the second algorithm, the order of the fundamental units includes no base unit of information. Of the second subset of at least one basic unit of information 1. 3. Method of Clause Clause 10, where at least one file format is one or more of ISO basic media file formats (International Organization for Standardization) (ISO), Avichi File Format, SVC File Format, Format, TrigP File (Third Generation Partnership Project), and Format 1. File \ 'Trig2 (Third Generation Partnership Project 2) 1 4. A device for encoded and scalable video encoding, integrated at the base. Of the encrypted image and at least one developed layer of the encrypted image to be Order of aggregate data including the first aggregate, device including: A path for selecting at least one basic unit of image encoded at. Will be encapsulated into one aggregate unit of information; A path for building a basic unit of information with scalable data associated with the unit. At least one unit of basic information; And a way for encapsulating basic units containing scalable data and data units. At least one basic unit is the first total unit of information. 1. 5. Equipment in accordance with claim 14, where the device is incorporated by means of a unit link. Basic data, which contains data to scale with one of the At least one basic unit of information; Or a number of basic data units that are based on basic data units with scalable data Page 4 of number 7 Page 1 6. Equipment according to Clause! 5, where the device is equipped with a path for constructing the identification of the It responds to the underlying unit containing data 1 in scalability 1, associated with the base unit. A number that follows the underlying unit with scalable data, where the identifier of one of the A number of bytes that follow the base unit in which the data is scalable, where the number of bytes. One attached a number of basic units of information; Or a number of basic data units that are based on basic data units with scalable data 1 7. Devices according to claim 1 5, where the device is equipped with a means for eliminating the need for Consider the basic unit with scalable data during removal from encapsulation 1 8. Device according to Clause No. 15, where the scalable data is chosen from a group that includes The pyrotechnic identifier for the base data unit, the level tempor, the number identifier, the dependence sequence, the quality level, in which the identifier indicates the base unit associated with the identifier. Chi, the deep well, Pendenti will want At least one element of the underlying unit of information associated for decoding or not 1, and for which the identifier will Say that the underlying unit of information associated with the transition point where Different layers can Switch to the current class 1. 9. Equipment according to the clause. 14, where the underlying unit with scalable data will be Design without consideration by H.264 / AVC codec, AVC decoder, digital decoder!] Load diode standard H.264 / AVC RTP, And an Swiss decoder like Any one less 2 0. Device according to claim 1 5, where the encrypted and scalable video signal is Encapsulate into a sequence of data groups and aggregated data units, ie, the load of data groups 2. 1. Equipment according to claim 20, where the device is included. A path for constructing and encapsulating identifiers of more than one basic data unit with Belong to one total unit of information; And page 5 of 7 pages, a path for organizing basic units with scalable data to track. An identifier in a data unit, including one. And at least one basic unit of information to track Basic data unit with scalable data in the first aggregate unit 2. 2. The device according to claim 20, where the sequence of the dataset consists of the RTP 2 stream. Claim 15 or 16, where video signals are encrypted and scalable. Yes, it will be encapsulated into at least one file according to one or more file formats, and the combined data is an example based on at least one file format. 2 4. Equipment according to claim 23. Where the accessories are included A path for building a basic unit with scalable data associated with a subset. The first set of at least one basic unit of information, the first subset made up of units. The basic information of the image base is encrypted; And the path for encapsulating the second subset of at least one basic data unit to be Total baseline unit 2 5. Devices in accordance with claim 24, where the aggregated baseline unit is designed to be removed from the encapsulation of the The basic data unit according to the first algorithm or the second algorithm, where, according to the first algorithm, the sequence of the basic information units is composed of the second subset of At least one basic unit of information, and according to the second algebra, the body of the base unit contains no base element. 2. Methods for removing data from the encapsulation of aggregated data units, including aggregated data, and the second subset of at least one basic unit of information. The first unit is the sequence of the fundamental units of information, the order of the fundamental units representing the video word. Encrypted and scalable images that are encapsulated, including the base of the encoded image and At least one developed pointer of an image that is encoded, including: 6 pages of 7 pages. First base unit detection containing scalable data from aggregated datasets. The first unit; Omitting the first basic unit of information that contains scalable data from the unit order. Basic information; Detection of at least one basic unit of image that is encoded from the datum. Include one unit; And a combination of at least one basic unit of image, which is encoded as a sequence of units. Basic Information 2 7. Method according to Clause 26, where the aggregate data unit is the Clause 2 payload 8. Method according to Clause 27, where the load of the dataset is the page. 2. Claim Method No. 26, where the aggregated data is an example based on at least one format of the file 3. Claim Method. Article 26, which includes additions A link to a first basic unit containing at least one of the scalable data - one base unit; And a number of basic data units that, according to the fundamental data unit, have data in the first scalable 3 1. Methods according to claim 30, where, in response to the fundamental unit containing information on claim 30 adjust It is associated with a number of basic data units that are based on the underlying data unit with scalable data, additional assembly methods with area indicator interpretations, where one of the number identifiers in A number of bytes that follow a base unit containing data in one scalable, where a number of bytes attach a number of base units; And a number of basic data units that, according to the baseline data unit, have data in the first scalable 3. 2. Method for claim 26, which is supplemented by page 7 of 7 pages. A developed layer, the first layer from the basic unit sequence; Obtaining aggregate units from a sequence of aggregated data units; Detecting whether a base unit containing scalable data exists in aggregate; It is a response to the underlying data unit with scalable data contained in the aggregate data unit, the basic unit interpretation containing the scalable data, is the response to the fundamental unit interpretation which has Scalable data to mean Developed layer one, summarizing a fundamental set of data linked to data in scalable baseline data, separating a set of basic data units from a sequence of basic data units. On the basis of the fundamental data unit with scalable data, the separation of the fundamental data unit which has The data in scaling can be from the order of the underlying data units, and the aggregation of the basic data units. Aggregate unit of information that is not associated with a base unit whose data is scalable to a sequence of Basic Unit ------------ 1. Method for encapsulating scalable and encoded video signals. This includes the image's base layer, which is decoded according to the first algorithm and the layer developed. Then at least the image layer, which was decoded according to the second algorithm. Which consists of Encoding at least one base layer and one developed layer as an access unit. In which access units will consist of At least one basic unit of information used for decoding and a base unit containing scalable information related to the access unit. At least one part Where basic units with scalable data are designed not to This must be considered during decryption according to the first algorithm 2. Method in claim 1, whereby the underlying unit containing the data to scale. Yes, it will be linked to the image in the access unit 3. Method in claim 1, where the basic unit containing information to resize. Yes, it contains information pertaining to at least one access unit. 4. Method in claim 3, where the data is selected from a group that contains the priority, temples, level. (Temporal level) a dcpcndcncy ordcr indicator, in which the indicator indicates that the underlying unit of information is linked to the higher dependence sequence indicator. Will at least one access unit be required for decryption? The indicator will tell the unit. At least one of the access points is the transition point, where the different can be switched to. Current class 5. The method of claim number 1 also consists of encapsulating the correct video signal. Encrypted and scalable to files 6. Method in Clause 5 where the video signal is encoded and can be adjusted. The size can be encapsulated into one or more of the following file formats: ISO base medis file format (AVC file format). ) SVC file format, 3GP file format, 3G2 file format 7. Correct video encapsulation Encrypted and scalable to packet stream 8. Method in Clause 7 where the packet stream consists of an RTP stream. Hold the 1st right whereby the underlying unit containing data to resize. Yes, it is designed without consideration by the H.264 / AVC decoder, the Vc Pile format parser. Depay-Load Dizer (depayloadizer) standard H.264 / AVC RTP and at least one of the SVC decoders 1 0. The method in claim 1 also consists of taking the connected portion of the unit. Access out of the encoded video signal that resides on the underlying unit with scalable data 1 1. The method in claim 1 also consists of stopping the processing of the part. Connect the access unit from the encoded video signal to the underlying unit that has Scalable data A computer program product that is encoded with a medium that can be interpreted through Scalable encapsulated video encapsulation computers have a base layer. One layer of an image, which can be decoded according to one algorithm. And another developed floor One or more layers of an image, which can be decrypted according to a second algorithm. Which will consist of Computer code for encoding a base layer with at least one developed layer. It is an access unit in which an access unit consists of At least one basic unit for decoding and a base unit containing scalable information related to the access unit. At least one part Where basic units with scalable data are designed not to This must be considered during decoding according to the first algorithm. 1. 3. Computer program product of Clause 12, where the data unit. The baseline with scalable data is linked to the image in Access Unit 1 4. Computer Program Product of Clause 12, where the data unit. The basics with scalable data contain information pertaining to easy access. At least one part 1. 5. Computer software product of Clause 14, where information is selected. It comes from a group made up of priority, temporal level, dependency order indicator, where the indicator indicates the underlying unit of information that is linked. Stay with me Indicates whether a higher dependency is required at least one access unit for decoding or not. The indicator tells whether at least one access unit is a layer interchange, where the Different will be able to switch to the current floor. Clause 12 is also included in the product program. Encapsulate a scalable and encoded video signal into a pack of 1 7. Computer program product of Clause 16, where the video signal at Encoded and scalable, it is encapsulated to a file according to one or more piles format. Following format ISO base media file format, AVC file format, SVC file format, Pile Tree GP format ( 3GP file format) Pile tree format (3G2 file format) 1 8. Computer program product of Clause 12 also includes: Encapsulates a scalable and encoded video signal into a packet stream. 1 9. Computer Program Product of Clause 18 whereby the packet stream is encoded into a packet stream. It consists of an RTP stream 2 0. Computer program product of Claim 12, where the data unit. The basics with scalable data are designed so that there is no discretion required. Decode in H.264 / AVC standard. AVC Pile format parser. Decoder Load Dizer (depayloadizer) H.264 / AVC RTP standard and SVC decoder like Any one of the little ones 2 1. The computer software product of Clause 12 also contains: The connected part of the access unit exits the encoded video signal that depends on the unit. Basics with scalable data 2 2. The computer program product of Clause 12 also contains a suspension. Processing of the connected part of the access unit from the encoded video signal that depends With a basic unit of information which has data in scalable 2 3.Electronic equipment consisting of a processor and a memory stick that can communicate with each other with the processor and includes computer program products for encapsulating video encoded and capable Scalable contains one base layer of an image which can be decoded according to the first algorithm and at least one more developed layer of the image, which can be decoded according to the second algorithm. Which will consist of Computer code for encoding a base layer with at least one developed layer. As an access unit In which access units will consist of At least one basic unit of information for decoding and A basic unit of information that contains scalable information related to the access unit. At least one part Where basic units with scalable data are designed not to This must be considered during the decoding according to the first algorithm 2. 4. Encrypted and scalable video signals that are encapsulated are composed of an access unit consisting of an encoded base layer of images which can Can be decoded according to the first algorithm And the layers being developed, at least the layers of the image, which Can be decrypted according to two algorithms, the access unit consists of At least one basic unit for decoding and a base unit containing scalable information related to the access unit. At least one part Where the underlying unit containing data to scale is designed not to This must be considered during the decoding according to the first algorithm 2. 5. A method for decoding encoded and scalable video signals. Yes, which has been encapsulated will include the base layer of the image, which can be decoded according to the first algorithm. And at least one developed layer of the image, which can be decoded according to the algorithm that Two of which will consist of Decoding of a base layer to a layer is developed as one from an access unit where an access unit consists of At least one basic unit of information for decoding and Basic unit of information that contains scalable information about access units. At least one part Where the basic unit with data to scale is designed to be This must be considered during decryption according to the first algorithm.