WO2017002455A1 - 送信装置及び送信方法、並びに受信装置及び受信方法 - Google Patents
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Definitions
- the technology disclosed in this specification includes a transmission device and a transmission method for transmitting a file constituting a data broadcast and transmission control information thereof, and a reception device and a reception method for receiving a file constituting the data broadcast and transmission control information thereof.
- a transmission device and a transmission method for transmitting a file constituting a data broadcast and transmission control information thereof and a reception device and a reception method for receiving a file constituting the data broadcast and transmission control information thereof.
- next-generation digital broadcasting standard a change from MPEG2-TS to MMT (MPEG Media Transport) system is being studied (for example, see Patent Document 1).
- MMT MPEG Media Transport
- Broadcast signals are synchronized (Timed) media related to the main part of a broadcast program such as video, audio, and subtitles, and asynchronous (Non-Timed) media such as file data used for data broadcasting accompanying the broadcast program. Composed.
- media data encoded by these is converted into a format of a transmission unit called MPU (Media Processing Unit), converted into an MMTP (MMT Protocol) packet, and further placed on an IP (Internet Protocol) packet.
- MPU Media Processing Unit
- MMTP MMT Protocol
- IP Internet Protocol
- these IP packets are transmitted in the form of TLV (Type Value Length) packets on the broadcast transmission path (see, for example, Patent Document 2).
- An object of the technology disclosed in this specification is to provide an excellent transmission apparatus and transmission method capable of suitably transmitting a file constituting a data broadcast and transmission control information thereof.
- a further object of the technology disclosed in the present specification is to provide an excellent receiving apparatus and receiving method capable of suitably receiving a file constituting a data broadcast and its transmission control information.
- a transmission unit for transmitting a transmission unit composed of a set of items used for file transmission A control information transmitting unit for transmitting transmission control information, including a first table describing first information about files for each directory, and a second table describing second information about items for each transmission unit; Comprising When the transmission unit transmits a transmission unit matched with the directory, The control information transmission unit transmits the first table in which the first information under the directory matching the transmission unit is omitted and the second table in which the second information under the transmission unit matching the directory is omitted.
- the transmission unit includes an index item including a description of the omitted first information and the second information in a transmission unit; It is a transmission device.
- control information transmission unit of the transmission device includes a descriptor indicating that a transmission unit matches a directory in the second table. Arranged to transmit the transmission control information.
- control information transmission unit of the transmission device includes node identification information for identifying a directory that matches a transmission unit, and the index item. Is transmitted, and the descriptor specifying the item identification information of the index item is transmitted.
- the transmission unit of the transmission device is transmitted with item identification information and an item for each item under a transmission unit that matches the directory.
- the index item associated with the file name of the file is transmitted.
- the transmission unit of the transmission device is configured to transmit the index item further including size information of each item. Yes.
- the transmission unit of the transmission device is configured to transmit the index item further including checksum information of each item. ing.
- the transmission unit of the transmission device further includes type identification information that specifies a media type of a file transmitted in each item. Configured to send index items.
- the transmission unit of the transmission device further includes a compression algorithm applied to each item and compression identification information that specifies an original size.
- the index item containing is configured to be transmitted.
- a transmission step of transmitting a transmission unit comprising a set of items used for file transmission A control information sending step for sending transmission control information, comprising: a first table describing first information about files for each directory; and a second table describing second information about items for each transmission unit; Have When sending the transmission unit matched with the directory in the sending step, In the control information transmission step, the first table in which the first information under the directory matching the transmission unit is omitted and the second table in which the second information under the transmission unit matching the directory is omitted are transmitted. And In the transmission step, an index item including a description of the omitted first information and the second information is included in a transmission unit and transmitted. It is a transmission method.
- a receiving unit for receiving a transmission unit comprising a set of items used for file transmission A control information receiving unit for receiving transmission control information, including a first table describing first information about files for each directory, and a second table describing second information about items for each transmission unit; Based on the transmission control information, a processing unit that processes a file transmitted in an item; Comprising When a transmission unit that matches the directory is transmitted, The control information receiving unit receives the first table in which the first information under the directory matching the transmission unit is omitted and the second table in which the second information under the transmission unit matching the directory is omitted. And The receiving unit receives a transmission unit including an index item including a description of the omitted first information and the second information; The processing unit obtains a file based on a description of the index item. It is a receiving device.
- the processing unit of the reception device has the descriptor indicating that a transmission unit matches a directory in the control information reception unit.
- the receiving unit is configured to cache the entire transmission unit received.
- control information receiving unit of the receiving device includes node identification information for identifying a directory that matches a transmission unit, and the index item. Is received, and the descriptor specifying the item identification information of the index item is received.
- the processing unit of the reception device is configured so that the item identification information specified by the descriptor from among transmission units received by the reception unit Is configured to obtain the index item.
- the reception unit of the reception device is transmitted with item identification information and an item for each item under a transmission unit that matches the directory.
- the index item associated with the file name of the file is received.
- the processing unit of the reception device specifies item identification information used for file transmission based on the index item. , Configured to obtain an item from a transmission unit.
- the reception unit of the reception device is configured to receive the index item further including size information of each item. Yes.
- the reception unit of the reception device is configured to receive the index item further including checksum information of each item. ing.
- the reception unit of the reception device further includes type identification information that specifies a media type of a file transmitted in each item. It is configured to receive index items.
- the reception unit of the reception device further includes a compression algorithm applied to each item and compression identification information that specifies an original size. It is configured to receive the index item including.
- a receiving step of receiving a transmission unit comprising a set of items used for file transmission A control information receiving step for receiving transmission control information, comprising: a first table describing first information about files for each directory; and a second table describing second information about items for each transmission unit; A processing step for processing a file transmitted in an item based on the transmission control information; Have When a transmission unit that matches the directory is transmitted, In the control information receiving step, the first table in which the first information under the directory matching the transmission unit is omitted and the second table in which the second information under the transmission unit matching the directory is omitted are received. And In the receiving step, a transmission unit including an index item including a description of the omitted first information and the second information is received; In the processing step, a file is obtained based on the description of the index item. It is a receiving method.
- an excellent transmission apparatus and transmission method capable of reducing transmission of data broadcast transmission control information when matching a directory and a data broadcast transmission unit in content production. Can be provided.
- a receiving device and a receiving method can be provided.
- FIG. 1 is a diagram schematically illustrating a configuration example of a digital broadcasting system 10.
- FIG. 2 is a diagram showing a protocol stack 200 in the digital broadcasting system 10 using the MMT method.
- FIG. 3 is a diagram illustrating a configuration example of the broadcast transmission system 11.
- FIG. 4 is a diagram illustrating a configuration example of the receiver 12 that receives a broadcast signal from the broadcast transmission system 11.
- FIG. 5 is a diagram showing an image of a broadcast signal 500 transmitted by the MMT method.
- FIG. 6 is a diagram showing a mechanism for designating each asset related to the broadcast service from the MP table in the PA message.
- FIG. 7 is a diagram illustrating a syntax example 700 of the MP table.
- FIG. 8 is a diagram illustrating an example MH-AIT syntax 800.
- FIG. 9 is a diagram illustrating a syntax example 900 of a transmission protocol descriptor.
- FIG. 10 is a diagram illustrating a syntax example 1000 of a selector byte common to HTTP / HTTPS and MMT asynchronous transmission.
- FIG. 11 is a diagram illustrating a syntax example 1100 of the data directory management table (DDMT).
- FIG. 12 is a diagram illustrating a syntax example 1200 of the data asset management table (DAMT).
- FIG. 13 is a diagram illustrating a syntax example of the MMTP packet 1300.
- FIG. 14 is a diagram illustrating a syntax example of the extension header 1400 in the case of an MMTP packet that transmits asynchronous media.
- FIG. 15 is a diagram illustrating a syntax example of the MMTP payload 1500 in the MPU mode.
- FIG. 16 is a diagram illustrating a syntax example 1600 of DU_Header stored in the MMTP payload 1500 in which asynchronous media is arranged.
- FIG. 17 is a diagram for explaining a packet configuration method when transmitting asynchronous media.
- FIG. 18 is a diagram illustrating a syntax example 1800 of the MPU node descriptor.
- FIG. 19 is a diagram illustrating a syntax example 1900 of index_item.
- FIG. 20 is a diagram schematically illustrating a configuration example of an MPU including an index_item.
- FIG. 21 is a diagram illustrating a relationship between signaling tables for obtaining an application (a case where no index_item is used).
- FIG. 22 is a diagram illustrating a relationship between each signaling table for acquiring an application (a case in which index_item is used).
- FIG. 23 is a flowchart illustrating a processing procedure for starting an application.
- FIG. 24 is a diagram showing another syntax example 2400 of the data asset management table (DAMT).
- FIG. 25 is a diagram showing a syntax example 2500 of the MPU node descriptor used in conjunction with the data / asset management table 2400 shown in FIG.
- FIG. 26 is a diagram showing a syntax example 2600 of index_item used in conjunction with the data asset management table 2400 shown in FIG.
- FIG. 24 is a diagram showing a relationship between each signaling table for obtaining an application when the data asset management table 2400 shown in FIG. 24 is used.
- FIG. 28 is a flowchart showing a processing procedure for starting an application using the data / asset management table 2400 shown in FIG.
- FIG. 29 is a flowchart showing a processing procedure for starting an application using the
- FIG. 1 schematically shows a configuration example of a digital broadcasting system 10.
- the illustrated digital broadcast system 10 includes a broadcast transmission system 11 and a receiver 12.
- the broadcast transmission system 11 applies the MMT system for transmission of broadcast signals, and transmits each component constituting the broadcast service as an IP (Internet Protocol) packet. Specifically, the broadcast transmission system 11 puts the video signal of the broadcast program, the code of the audio signal, the signal of content, subtitles, and the like on the MMTP (MMT Protocol) payload to form an MMTP packet, further to an IP packet, In the broadcast transmission path, it is transmitted in the form of a TLV (Type Length Value) packet.
- TLV Type Length Value
- components related to the broadcast program main body such as video, audio, and subtitles are synchronized media.
- the content is an asynchronous (Non-Timed) medium including an application (for example, an HTML5 document) that provides a multimedia service and files such as image data and audio data used by the application.
- the broadcast transmission system 11 also performs MMT-SI signaling (notification), which is control information related to a broadcast service that transmits synchronous and asynchronous media.
- MMT-SI includes a message, a table, and a descriptor.
- the table is transmitted as a container for messages. Some parameters shown in messages and tables are described in descriptor format.
- the receiver 12 receives the TLV packet sent from the broadcast transmission system 11 through the broadcast transmission path.
- the receiver 12 then decodes a synchronous transmission medium constituting a broadcast program such as video, audio, and subtitles from the received packet, and presents images, audio, and subtitles.
- the receiver 12 acquires each data file for data broadcasting from the received packet, the receiver 12 starts an application engine such as an HTML browser and displays the data broadcast linked to the broadcast program and the video of the TV program. Display in part or all of the screen area.
- the receiver 12 also receives MMT-SI that is control information related to the broadcast service. Based on the MMT-SI, the receiver 12 performs reception control of transmission media such as video, audio, captions, and data broadcasting, and output (display, audio output) control on the receiver 12.
- MMT-SI that is control information related to the broadcast service.
- the receiver 12 Based on the MMT-SI, the receiver 12 performs reception control of transmission media such as video, audio, captions, and data broadcasting, and output (display, audio output) control on the receiver 12.
- FIG. 2 shows a protocol stack 200 in the digital broadcasting system 10 using the MMT method.
- One broadcast service is composed of video 201, audio 202, subtitle 203, application 204, and content / download 205 components.
- the video 201 is encoded 211 in the HEVC (High Efficiency Video Coding) format
- the audio 202 is encoded 212 in the AAC (Advanced Audio Coding) format
- the subtitle 203 is subtitle encoded 213.
- the application 204 includes EPG (Electric Program Guide), but is encoded in HTML5 format, for example, as indicated by reference numeral 214.
- the video signal and audio signal encoding components 211 and 212 of the broadcast program are MFUs (Media Fragment Units) and MPUs, which are MMTP packetized on the MMTP payload.
- MPU is a transmission unit
- MFU is a smaller unit than MPU.
- the subtitle signal encoding component 213 and the application HTML5 encoding component 214 are also MFUs and MPUs, which are carried on the MMTP payload and converted into MMTP packets.
- MMT-SI which is control information related to the media transport system MMT (indicating the configuration of a broadcast program) is also put into an MMTP packet in the MMTP payload. Details of the control information MMT-SI related to the MMT will be described later.
- the application transmission method is used for a data transmission service asynchronous with a broadcast program.
- the general-purpose data transmission method is a method for transmitting various types of data in a synchronous or asynchronous manner. Data used by a player that presents data other than video, audio, and subtitles and data used in multimedia services. It can be applied to streaming.
- the MMTP packet is converted into an IP packet.
- An NTP (Network Time Protocol) packet 206 including information on the current time for the synchronous media is also converted into an IP packet. Further, these IP packets are converted into TLV packets in the TLV layer 240 and transmitted through the broadcast transmission path 250 which is the lowermost physical layer.
- a TLV-SI related to a TLV multiplexing format for multiplexing IP packets indicated by reference numeral 241 is also converted into a TLV packet and transmitted through the broadcast transmission path 250.
- a transmission slot in which a TLV packet is multiplexed is specified by using a TLV stream identifier (TLV_stream_id) from a TMCC (Transmission and Multiplexing Configuration Control) signal 251 of the transmission path.
- TLV_stream_id TLV stream identifier
- TMCC Transmission and Multiplexing Configuration Control
- FIG. 3 shows a configuration example of a broadcast transmission system 11 that transmits a broadcast signal having a protocol stack structure as shown in FIG.
- the broadcast transmission system 11 shown in the figure includes a clock unit 301, a signal transmission unit 302, a video encoder 303, an audio encoder 304, a caption / text super encoder 305, a signaling encoder 306, and a file encoder 307.
- An electronic data processing system (Electronic Data Processing System: EDPS) 308, a TLV signaling encoder 309, an IP service multiplexer (MUX) 310, a TLV multiplexer (MUX) 311, and a modulation / transmission unit 312.
- EDPS Electronic Data Processing System
- the signal transmission unit 302 corresponds to, for example, a recording / playback device such as a studio of a TV broadcast station or a VTR, and stream data such as video, audio, subtitles, and character supers, which are synchronous media, are respectively converted into a video encoder 303 and an audio Send to encoder 304 and subtitle / character super encoder 305.
- the signal transmission unit 302 sends the content that is an asynchronous medium, and synchronous and asynchronous general-purpose data to the file encoder 307.
- the electronic data processing system 308 is a TV broadcast station scheduler and a file supply source.
- the electronic data processing system 308 sends contents, which are asynchronous media, and synchronous and asynchronous general-purpose data to the file encoder 307.
- the electronic data processing system 308 also sends control information indicating the configuration of the broadcast service to the signaling encoder 306. Also, the electronic data processing system 308 sends control information related to multiplexing of IP packets to the TLV signaling encoder 309.
- the subtitle / character super encoder 305 encodes the subtitle signal and the character super signal transmitted from the signal transmission unit 302, further generates an MPU in units of presentation processing, and generates an IP packet including the MMT packet of the subtitle. Send to IP service multiplexer 310.
- the broadcast transmission system 11 transmits a plurality of broadcast services (that is, components of a plurality of broadcast channels), HEVC encoding of the video signal, AAC encoding of the audio signal, and subtitle / text super encoding are performed for each broadcast service.
- the processing is performed and sent to the IP service multiplexers 310-1,..., 310-N corresponding to the respective broadcast services # 1 to #N.
- the signaling encoder 306 generates control information (MMT-SI) indicating the configuration of the broadcast signal based on information transmitted from the electronic data processing system 308, and an MMT packet in which the MMT-SI is arranged in the payload portion Is sent to the IP service multiplexer 310.
- MMT-SI includes messages, tables, and descriptors (described above).
- the signaling encoder 306 generates MMT-SI for each broadcasting service, and also generates MMT-SI for broadcasting services.
- the file encoder 307 encodes the content and general-purpose data sent from the signal sending unit 302 or the electronic data processing system 308, further packetizes them, and sends an IP packet containing this MMT packet to the IP service multiplexer 310.
- the broadcast transmission system 11 is equipped with a plurality of IP service multiplexers 310-1,..., 310-N for each broadcast service (broadcast channel) # 1 to #N to be transmitted.
- the IP service multiplexer 310 of the channel for each broadcast service receives an IP packet including each of video, audio, caption, (broadcast service unit) MMT-SI, content, and general-purpose data sent from each encoder 303-307. Multiplexed to generate a TLV packet including a broadcast signal for each broadcast service and MMT-SI across the broadcast service.
- the TLV signaling encoder 309 Based on the information sent from the electronic data processing system 308, the TLV signaling encoder 309 generates a TLV packet in which the control information (TLV-SI) related to the multiplexing of the IP packet is arranged in the payload portion.
- TLV-SI control information
- the TLV multiplexer 311 multiplexes the TLV packets generated by the IP service multiplexers 310-1 to 310-N and the TLV signaling encoder 309, and generates a TLV stream identified by the TLV stream identifier. .
- the modulation / transmission unit 312 performs RF modulation processing on the TLV stream generated by the TLV multiplexer 311 and sends it to the broadcast transmission path.
- the video signal transmitted from the signal transmission unit 302 is supplied to the video encoder 303.
- the video signal is HEVC encoded and further packetized to generate an IP packet including an MMT packet of the HEVC encoded video signal. This IP packet is sent to the IP service multiplexer 310.
- an IP packet including the MMT packet of the AAC encoded audio signal generated by the audio encoder 304 is sent to the IP service multiplexer 310 and the subtitle encoded signal generated by the subtitle / character super encoder 305 is transmitted.
- An IP packet including the MMT packet is sent to the IP service multiplexer 310.
- the signaling encoder 306 generates control information (MMT-SI) indicating the configuration of the broadcast signal based on information transmitted from the electronic data processing system 308, and the MMT-SI is arranged in the payload portion.
- MMT-SI control information
- An IP packet including the MMT packet is generated. These IP packets are sent to the IP service multiplexer 310.
- content and general-purpose data sent from the signal sending unit 302 or the electronic data processing system 308 are supplied to the file encoder 307.
- content and general-purpose data are encoded and further packetized, and an IP packet including this MMT packet is generated. This IP packet is sent to the IP service multiplexer 310.
- each IP service multiplexer 310-1,..., 310-N video, audio, subtitles, MMT-SI (broadcast service unit and service crossing), content, general-purpose data sent from each encoder 303-307
- the IP packets including each of these are multiplexed to generate a TLV packet that constitutes one channel.
- the TLV signaling encoder 309 generates a TLV packet in which the control information (TLV-SI) related to the multiplexing of the IP packet is arranged in the payload portion based on the information transmitted from the electronic data processing system 308.
- TLV-SI control information
- the TLV packets generated by the IP service multiplexers 310-1 to 310 -N and the TLV signaling encoder 309 are multiplexed to generate a TLV stream.
- the modulation / transmission unit 312 performs RF modulation processing on the TLV stream generated by the TLV multiplexer 311 and sends the RF modulation signal to the broadcast transmission path.
- FIG. 4 shows a configuration example of the receiver 12 that receives a broadcast signal from the broadcast transmission system 11.
- the illustrated receiver 12 includes a tuner / demodulator 401, an MMT demultiplexer (DEMUX) 402, a clock recovery unit 403, a video decoder 404, an audio decoder 405, a character super decoder 406, and a subtitle.
- Decoder 407 multimedia (MM) cache 408, SI cache 409, broadcast system control unit 410, application (App) engine 411, communication interface (IF) 412, scaler 414, synthesis unit 415 ⁇ 418.
- the tuner / demodulator 401 receives a broadcast signal, performs demodulation processing, and obtains a TLV stream.
- the MMT demultiplexer 402 performs demultiplex processing and depacketization processing on this TLV stream.
- the demultiplexer 402 includes a packet filter 402-1 and an SI filter 402-2.
- the packet filter 402-1 performs filtering of the IP packet based on the TLV stream identifier and the IP address, and further filters the MMTP packet from the IP packet based on the information in the MMTP header so that the video, audio, and character super
- synchronous transmission media such as subtitles are distributed to a video decoder 404, an audio decoder 405, a character super decoder 406, and a subtitle decoder 407, respectively.
- the packet filter 402-1 distributes each encoded component of content and general-purpose data to the multimedia (MM) cache 408.
- the packet filter 402-1 distributes the MMTP packet carrying the signaling information to the SI filter 402-2. Then, the SI filter 402-2 filters the signaling information SI and caches it in the SI cache 409.
- the clock recovery unit 403 Based on the current time information included in the NTP packet filtered by the packet filter 402-1 in the MMT demultiplexer 402, the clock recovery unit 403 generates time information synchronized with this time information, and In order to decode the synchronous transmission media, they are output to the video decoder 404, the audio decoder 405, the character super decoder 406, and the subtitle decoder 407, respectively.
- the video decoder 404 decodes the encoded video signal obtained by the MMT demultiplexer 402 to obtain a baseband video signal.
- the audio decoder 405 decodes the encoded audio signal obtained by the MMT demultiplexer 402 to obtain a baseband audio signal.
- the character super decoder 406 and the caption decoder 407 decode the character super and the caption encoded signal obtained by the MMT demultiplexer 402, respectively, and obtain the character super and caption display signals, respectively.
- the broadcast system control unit 410 controls the broadcast service reception operation of the entire receiver 12 based on the MMT-SI cached in the SI cache 409. For example, when the broadcast system control unit 410 analyzes the application execution control information (MH-AIT) included in the MMT-SI and finds an application instructed to start, the broadcast system control unit 410 performs data broadcasting to the application engine 411. Instruct the presentation process.
- MH-AIT application execution control information
- the application engine 411 is, for example, an HTML browser or the like, and processes an application (HTML5 document or the like) cached in the multimedia cache 408 to generate a data broadcast display signal and an audio signal.
- the application engine 411 acquires data files (media data used for data broadcast display, link destination applications, etc.) necessary for data broadcast display from the IP network via the communication interface 412. You can also.
- the scaler 414 performs a scaling process on the video signal (broadcast video) decoded by the video decoder 404 in accordance with the screen size of the receiver 12.
- the synthesizing unit 415 synthesizes the audio signal decoded by the audio decoder 405 and the audio signal for data broadcasting reproduced by the application engine 411 to generate an audio signal for output.
- the composition unit 416 synthesizes the character super display decoded by the character super decoder 406 and the subtitle display decoded by the subtitle decoder 407.
- the combining unit 417 combines the broadcast video scaled by the scaler 414 and the data broadcast display signal generated by the application engine 411. Further, the synthesizing unit 418 at the subsequent stage synthesizes the broadcast video on which the display of the data broadcast is superimposed, the character super display and the subtitle display output from the synthesizing unit 416, and generates an output video signal.
- the tuner / demodulator 401 receives a broadcast signal, performs demodulation processing, and obtains a TLV stream.
- this TLV stream is subjected to demultiplexing processing and packetization processing, and NTP time information, video, audio, character super and subtitles, content, general-purpose data encoded signals,
- the video filter 404, the audio decoder 405, the character super decoder 406, the subtitle decoder 407, the multimedia (MM) cache 408, the SI filter 402- 2 is assigned to each.
- the NTP packet extracted by the demultiplexer 402 is distributed to the clock recovery unit 403.
- the clock recovery unit 403 generates time information synchronized with the time information based on the time information put on the NTP packet. That is, the clock recovery unit 403 generates time information that matches the time information generated by the clock unit 301 on the broadcast transmission system 11 side.
- the generated time information is output to the video decoder 404, the audio decoder 405, the character super decoder 406, and the subtitle decoder 407, respectively, for decoding each synchronous transmission medium.
- the encoded video signal extracted by the MMT demultiplexer 402 is sent to the video decoder 404 and decoded to obtain a baseband video signal.
- the character super encoded signal extracted by the demultiplexer 402 is sent to the character super decoder 406 to be decoded to obtain a character super display signal.
- the caption encoded signal extracted by the demultiplexer 402 is sent to the caption decoder 407 and decoded, so that a caption display signal is obtained.
- the broadcast system control unit 410 controls the entire reception processing operation by the receiver 12 including application processing based on the MMT-SI received via the SI filter 402-2 and the SI cache 409.
- the application engine 411 processes an application (such as an HTML5 document) cached in the multimedia cache 408, and generates a data broadcast display signal and an audio signal.
- the application engine 411 the acquired general-purpose data is reflected in the display of the application.
- the scaler 414 performs a scaling process on the video signal (broadcast video) decoded by the video decoder 404.
- the synthesizing unit 416 synthesizes the character super display decoded by the character super decoder 406 and the subtitle display decoded by the subtitle decoder 407.
- the combining unit 417 combines the broadcast video scaled by the scaler 414 and the display signal of the data broadcast generated by the application engine 411. Further, in the subsequent synthesis unit 418, the broadcast video on which the display of the data broadcast is superimposed, the character super display and the caption display output from the synthesis unit 416 are synthesized, and an output video signal is generated.
- the synthesizing unit 415 synthesizes the audio signal decoded by the audio decoder 405 and the audio signal for data broadcasting reproduced by the application engine 411 to generate an output audio signal.
- One broadcast service is a package composed of a plurality of components such as video, audio, subtitles and content (provided that one broadcast service corresponds to one channel, that is, a broadcast program). .
- Video, audio, subtitles, etc. related to the main part of the broadcast program are synchronous media, and content is asynchronous media.
- MMT mobile telephone network
- FIG. 5 shows an image of a broadcast signal 500 transmitted to the broadcast transmission path from the broadcast transmission system 11 toward the receiver 12 according to the MMT method.
- each component constituting a broadcast service is defined as an “asset”, and each asset is transmitted by a dedicated Elementary Stream (ES) (hereinafter also referred to as “stream”).
- ES Elementary Stream
- the broadcast signal 500 includes streams 501 to 505 for each asset, such as video, audio, subtitles, content, and general data. Also included is a stream 506 for signaling control information (MMT-SI) related to the broadcast service.
- MMT-SI signaling control information
- Each asset is identified by a unique asset identifier (asset_id).
- asset identifier uniquely corresponds to a component tag (component_tag) that identifies the component.
- Video assets correspond to video components
- audio assets correspond to audio components
- subtitle assets correspond to subtitle components
- content assets correspond to data file components that make up content
- generic data assets correspond to generic data components.
- Each asset is composed of a set (logical group) of one or more MPUs that share the same asset identifier, and is transmitted in corresponding streams 501 to 505, respectively. Therefore, each MPU is uniquely identified by the asset identifier and the sequence number of the MPU on the stream corresponding to the asset identifier.
- the MPU is a format that is a transmission unit in the MMT system, and is composed of one or more MFUs.
- each file (item) constituting the content is stored and transmitted in one MFU (however, a large file may be divided and stored in a plurality of MFUs).
- it is assumed that the MPU which is a transmission unit is matched with the directory in content production.
- each ES encoded synchronous and asynchronous media data are converted into MMTP packets in the MPU format and transmitted as IP packets.
- Each ES corresponds to one IP data flow.
- the IP data flow referred to here is that the values of the five types of fields of the IP header and the UDP header in the source IP address, destination IP address, IP header protocol type, source port number, and destination port number are all the same. Is a set of IP packets.
- an MMTP packet of an encoded video signal composed of an MPU logical group having a common asset identifier is transmitted for the video signal.
- the stream 502 transmits an MMT packet of an encoded audio signal having an MPU logical group having a common asset identifier for an audio signal
- the stream 503 includes an MPU group having a common asset identifier for a caption signal.
- the MMTP packet of the encoded subtitle signal is transmitted.
- an MMTP packet of an encoding application consisting of an MPU logical group having a common asset identifier for data broadcasting service is transmitted, and in stream 504-2, a common asset for other data broadcasting services is transmitted.
- An MMTP packet of an encoding application consisting of an MPU logical group having an identifier is transmitted.
- an MMTP packet of an encoded general-purpose data signal composed of an MPU group having a common asset identifier is transmitted.
- Streams 504-1 and 504-2 are assumed to be dedicated ESs for transmitting individual data assets to which different asset identifiers are allocated. For example, in one stream 504-1, data assets for providing a program-linked data broadcasting service linked to a broadcast program are transmitted, and in the other stream 504-2, a program non-linked data broadcast not linked to a broadcast program is transmitted. Data assets for providing a service (for example, independent data broadcasting that is not directly related to the main part of the broadcast program and is completed by itself, such as weather forecast and news) are transmitted. In each stream 504-1 and 504-2, each file constituting the data broadcast is repeatedly transmitted at a predetermined cycle (for example, every 10 seconds) over the local content period.
- a predetermined cycle for example, every 10 seconds
- a broadcast transmission path and a communication transmission path can be used in common.
- asynchronous media such as data broadcasting together with synchronous media of the same broadcast service using the stream 504-1 or 504-2 of the broadcast signal 500, it is transmitted via a communication transmission path such as an IP network.
- the stream 506 is used for MMT signaling, that is, transmission of MMT-SI, which is control information indicating information related to the configuration of the MMT package and the broadcast service.
- MMT-SI which is control information indicating information related to the configuration of the MMT package and the broadcast service.
- an MMT message including MMT-SI is converted into an MMTP packet and repeatedly transmitted by the carousel method.
- MMT-SI has messages, tables, and descriptors.
- Messages transmitted in the stream 506 may include a PA message 510, an M2 section message 520, and a data transmission message 530.
- the PA message 510 is control information indicating the structure of a broadcast program, and includes an MP (MMT Package) table 511 and a PL (Package List) table (PLT) that describe information constituting a package such as an asset list and its position.
- MP MMT Package
- PLT Package List
- a container for storing an LC (Layout Configuration) table (LCT) (not shown except for the MP table).
- PLT indicates a list of IP data flows and packet IDs for transmitting PA messages of MMT packages provided as broadcasting services, and IP data flows for transmitting IP services.
- the LCT is used to associate layout information for presentation with a layout number.
- the MP table 511 is a table showing basic reception control information for each broadcast service, and specifically gives information constituting a package such as an asset list and asset location information (packet identifier).
- the MP table 511 includes MPT descriptors such as application service descriptors.
- the application service descriptor indicates application entry information (for example, data transmission message and entry information of each M2 section message that transmits MH-AIT and EMT).
- an MPU time stamp descriptor that provides the presentation time of the MPU is arranged.
- the PA message 510 is an entry point of the broadcast service, and a fixed packet identifier (for example, 0x0000) is assigned to the MMTP packet that transmits the PA message 510. Therefore, on the receiver side, the PA message 510 can be acquired by directly specifying the fixed packet identifier on the stream 506. Then, as shown in FIG. 6, referring to the MP table 511 transmitted by the PA message 510, each asset (video, audio, subtitle, content, general-purpose data) and other messages constituting the package (broadcast program) and other messages Can be specified indirectly.
- a fixed packet identifier for example, 0x0000
- FIG. 7 shows an example MP table syntax 700. Hereinafter, the meaning of each parameter of the MP table will be described.
- Table_id is an 8-bit fixed value (0x20) for identifying that the table is an MP table.
- version is an 8-bit integer value indicating the version number of the MP table. For example, when some parameters (descriptors) constituting the MP table are also updated, version is incremented by +1.
- the length is a 32-bit parameter indicating the size of the MP table in bytes, which is counted immediately after this field.
- MPT_mode indicates an operation when this MP table is divided into subsets.
- MMT_package_id_length indicates the size of text information of a package identifier (MMT_package_id) in bytes.
- MMT_package_id indicates the package identifier in bytes (MMT_package_id_byte).
- the package identifier is an identifier as an entire package including assets such as all signals (video, audio, subtitles) and file data transmitted as broadcast signals (IP data flow). This identifier is text information, and the upper 16 bits have the same value as the service identifier for identifying the service.
- MPT_descriptor_length indicates the size of the MP table descriptor area in bytes.
- the contents of the MP table descriptor are described in units of bytes (MPT_descriptors_byte).
- MPT_descriptors_byte In the MPT descriptor, basic information related to reception control of the entire corresponding broadcast service (package) is described.
- an application service descriptor that specifies application entry information related to a service such as an application information table (MH-AIT), a data transmission message, and an event message table (EMT) is one of the MPT descriptors. Always placed.
- Number_of_assets is an 8-bit parameter indicating the number of assets to which information is provided in the MP table.
- each parameter of asset identifier (asset_id), general location information (MMT_general_location_info), and asset descriptor (asset_descriptor) as individual asset information is arranged. The information arranged in the asset information loop will be described below.
- Identifier_type indicates the ID system of the MMTP packet flow. If the ID system indicates an asset identifier (asset_id), 0x00 is set.
- asset_id_scheme indicates the format of the asset identifier.
- asset_id_length indicates the size of the text information of the asset identifier in bytes. In the subsequent asset identifier loop, the asset identifier is indicated in bytes (asset_id_byte).
- Asset_type indicates the type of asset (video, audio, text super / caption, application, etc.) as a 32-bit character string.
- asset_clock_relation_flag is a flag indicating the presence or absence of an asset clock information field. When the flag is 1, there are a clock information identification field (asset_clock_relation_id) and a time scale flag field (asset_timescale_flag). When the flag is 0, these fields do not exist.
- location_count indicates the number of location information of the asset, and in a loop of location information repeated for the number of subsequent location_counts, MMT_general_location_info which is the location information of the corresponding asset is indicated.
- Asset_type indicates the type of asset (video, audio, text super / caption, application, etc.) as a 32-bit character string.
- the types of assets represented by asset_type (characters) are shown in Table 1 below.
- Asset_clock_relation_flag is a flag indicating the presence / absence of an asset clock information field.
- flag_id there are a clock information identification field
- assert_timescale_flag When the flag is 0, these fields do not exist.
- location_count indicates the number of location information of the asset, and in a loop of location information repeated for the number of subsequent location_counts, MMT_general_location_info which is the location information of the corresponding asset is indicated.
- the MMT_general_location_info is omitted, but the asset location information about the MMTP packet of the IPv4 and IPv6 data flows is described in a packet identifier (packet_id: PID) format on the ES from which the asset is acquired.
- packet_id packet identifier
- Asset_descriptor_length indicates the size of the text information of the asset descriptor (asset_descriptor) in bytes. In the asset descriptor loop that follows, the contents of the descriptor for each asset are indicated in units of bytes (asset_descriptors_byte).
- MH stream identification descriptor that labels a component stream as an asset descriptor placed in a loop of asset information (second loop of the MP table) (ie, specifies a component tag corresponding to the asset)
- MH-data encoding scheme descriptor used to identify the data encoding scheme to identify the data encoding scheme for each asset other than video and audio
- MPU time providing the MPU presentation time Stamp Descriptor
- MPU Extended Time Stamp Descriptor that provides the decoding time of the access unit in the MPU, etc.
- Asset Group Descriptor that provides asset group relationship and priority within the group
- MPU “MPU presentation area specification descriptor” that provides the presentation position of To provide asset ID can be mentioned the "dependency descriptor”.
- the M2 section message 520 is a message that transmits the section extension format of MPEG-2 Systems, and is a container that stores section format signaling tables one by one.
- tables such as MH-AIT (Application Information Table) 521 and EMT (Event Message Table) 522 are stored one by one.
- the MH-AIT 521 is a table that specifies dynamic control information related to an application and additional information necessary for execution.
- the EMT 522 is a signaling table used for the event message transmission method, and stores information (event message descriptor) regarding the event message (synchronous / asynchronous message from the broadcasting station to the application on the receiver).
- FIG. 8 shows a syntax example 800 of MH-AIT transmitted using the M2 section message as a container.
- the meaning of each parameter of MH-AIT will be described.
- Table_id (table identification) is an 8-bit fixed value that identifies the application information (AI) table in various signaling information, and is 0x89 in this embodiment.
- the section_syntax_indicator (section syntax instruction) is a 1-bit field and is always “1”.
- sectoin_length (section length) is a 12-bit field and defines the byte length of the section from the section length field to the end of the section including CRC32. This value shall not exceed 4093 (0xEFD in hexadecimal).
- Application_type is a 16-bit field indicating the type of application to be controlled by the MH-AIT.
- Application type assignments shall be in accordance with Table 2 below.
- Version_number is a 5-bit field and is a partition number of the sub-table.
- version_number is the version number of the MH-AIT, and is incremented by +1 when there is a change in the information in the sub-table. When the value of the version number becomes “31”, it returns to “0” next.
- the current_next_indicator current next instruction is always “1”.
- the section_number section number is an 8-bit field and represents a section number. The section number of the first section in the subtable is 0x00. The section number is incremented by +1 each time a section with the same table identification and application type is added.
- last_section_number (last section number) is an 8-bit field that defines the last section number in the subtable to which the section belongs.
- Common_descriptor_length (common descriptor loop length) is an 8-bit field, indicating the byte length of the subsequent descriptor, and the descriptor (common descriptor) is written in a series of areas consisting of the common loop for the number of bytes.
- the common descriptor area applies to all applications in the AIT subtable.
- Application_loop_length is an area in which the number of application information included in the MH-AI table is written. Then, application information loops are arranged by the number indicated by application_loop_length.
- application_identifier application identifier
- application_control_code application control code
- application information is arranged.
- application_identifier is a parameter for identifying an application.
- application_control_code application control code
- application control code is an 8-bit field that defines a control code for controlling the state of the application. The semantics of this field depend on the application type value. Table 3 shows the semantics of the application control code when it does not depend on the application type.
- Application_descriptor_loop_length indicates the byte length of the application information descriptor, and a descriptor (application information descriptor) is written in the application information descriptor area 801 consisting of loops of this number of bytes.
- the application information descriptor in the descriptor area 801 is different from the above-described common descriptor, and is applied only to the application specified by application_identifier.
- an MH-application descriptor and an MH-transmission protocol descriptor are arranged.
- FIG. 9 shows a syntax example 900 of the MH-transmission protocol descriptor (hereinafter simply referred to as “transmission protocol descriptor”).
- the transmission protocol descriptor is a MH-AIT common descriptor loop or application information descriptor for the purpose of designating a transmission protocol such as broadcasting and communication as application transmission means and indicating location information of the application depending on the transmission protocol. Placed in the loop.
- the meaning of each parameter of the transmission protocol descriptor will be described.
- Descriptor_tag indicates an 8-bit fixed value for identifying the descriptor 900.
- Descriptor_length is an 8-bit area in which the byte length of the data of the descriptor following this field is written.
- Protocol_id indicates a protocol for transmitting an application.
- the meaning of each value of the protocol identifier is shown in Table 4 below.
- 0x0003 specifies HTTP and HTTPS transmission
- 0x0005 specifies MMT and asynchronous transmission.
- the transport_protocol_label (transmission protocol label) is a value for uniquely identifying the transmission means when one application is transmitted through a plurality of paths, and corresponds to the field of the same name in the application information descriptor.
- the selector_byte (selector byte) is an area for storing supplementary information, and the syntax is defined for each protocol identifier.
- FIG. 10 shows a syntax example 1000 of a selector byte common to HTTP / HTTPS and MMT asynchronous transmission. Hereinafter, each parameter of the selector byte will be described.
- URL_base_length indicates the byte length of the base portion of the URL for acquiring the application, and the character string of the URL base portion for acquiring the application is a byte unit (URL_base_byte). Written in.
- URL_extension_count indicates the number of URL extensions (URL_extension following URL_base) for acquiring an application, and URL_extension loops are arranged by the number of URL_extension_count.
- URL_extension_length indicates the byte length of the URL extension part, and the character string of the URL extension part is written in byte units (URL_extension_byte) in a series of areas consisting of loops corresponding to the number of bytes. .
- MH-AIT indicates the status and location information of each application in the application information loop.
- application_control_code indicates the application status
- transmission protocol descriptor indicates application location information in URL format.
- the data transmission message 530 is a message for storing a table relating to data transmission of files constituting the content.
- the data transmission message 530 includes a data directory management table (Data Directory management Table: DDMT) 531, a data asset management table (Data Asset Management Table: DAMT) 532, and a data content management table (Data Content ConfigurationTable 33: This is a container that can store up to three tables at the same time.
- the data directory management table and the data asset management table are indispensable for the data broadcasting service, but the data / content management table is optional.
- the data directory management table 531 is a table for managing the file structure of the application in units of directories in content production.
- the directory structure related to nodes (directories and subdirectories and files included in a directory) included in one package is described, so that the file structure of an application and the structure for file transmission can be separated. it can.
- the table shows the correspondence between the path name of each node, such as a directory or file, and the node tag that identifies each node in the data transmission message.
- the data asset management table 532 is a table for managing data assets that transmit content, and describes version information for each MPU with the configuration of the MPU in the data assets. Specifically, the table identifies a node on the ES and a node tag that identifies a download identifier of each component and a node (file or directory) included in each MPU that transmits the component in the data transmission message. The correspondence with the item identifier is shown.
- the data / content management table 533 is a table for managing content configuration information, and can describe a node tag for identifying a node (file or directory) included in the content in the data transmission message.
- the table can indicate information of presentation units (PUs) included in the content. In this case, a presentation unit identifier for identifying a presentation unit and a node (file or directory) included in each presentation unit are displayed. Describes the node tag identified in the data transmission message.
- the table also includes a linked PU descriptor indicating a presentation unit linked to the presentation unit, a lock cache designation descriptor for controlling the cache (to the multimedia cache 408) of each node, and an unlock cache designation. Descriptors can be arranged, and the receiver side can be used for flexible and effective cache control of file data for a data broadcasting application.
- the current MMT broadcasting standard adopts a data transmission control signaling method in which the directory structure of content in production is described in the data directory management table 531 while the structure of broadcast transmission data is described in the data asset management table 532. Yes. Therefore, it is possible to operate the content production and the broadcast transmission data independently.
- FIG. 11 shows a syntax example 1100 of a data directory management table (DDMT) transmitted using a data transmission message as a container. The meaning of each parameter in the data directory management table will be described below.
- DDMT data directory management table
- version_ is an 8-bit integer parameter indicating the version of the data directory management table. For example, when some parameters constituting the table are updated, version is incremented by +1.
- the length is a 16-bit parameter indicating the size of the data directory management table in bytes, which is counted immediately after this field.
- Base_directory_path_length indicates the byte length of the base directory node path area, and the base node directory path is written in units of bytes (base_directory_path_byte) in a series of areas consisting of loops corresponding to the number of bytes.
- the base directory path is expressed in, for example, an absolute URL format for accessing a corresponding directory.
- Num_of_directory_nodes indicates the number of nodes in the directory described in the data directory management table. Then, directory node loops are arranged by the number of num_of_directory_nodes, and information for each directory is stored.
- attribute information of each directory node stored in the data directory management table and information of each file data included in the directory are stored.
- Node_tag indicates a label for identifying the directory as a node tag of the directory node.
- directory_node_version indicates the version of the directory node.
- directory_node_path_length indicates the byte length of the directory node path area, and the directory node path is written in units of bytes (directory_node_path_bytes) in a series of areas consisting of this number of bytes.
- Num_of_files indicates the number of files included in the directory.
- file node loops indicated by reference numeral 1101 are arranged by the number of num_of_files.
- node_tag and a file name are stored as detailed information for each file included in the directory.
- the node_tag in this loop indicates a label that identifies the file as a node tag of the file.
- file_name_byte indicates the byte length of the file name area, and the file name is written in units of bytes (file_name_length) in a series of areas consisting of loops corresponding to the number of bytes.
- the file_name corresponds to the item_URL specified by the transmission protocol descriptor (selector byte) of the MH-AIT.
- the directory node path is expressed in the URL format relative to the base directory path for accessing the corresponding directory. Furthermore, a complete URL for accessing the file can be obtained by concatenating these character strings including the file name. For example, the base directory path (URL) is “http://www.xbc.com”, the directory node path (URL) is “programA”, and further described in the loop 1101 of the file node. If the file name is “index.html”, these character strings are concatenated as specified by the data directory management table, and the complete URL “http://www.xbc.com/programA/index.html” is obtained. Obtainable.
- FIG. 12 shows a syntax example 1200 of a data asset management table (DAMT) transmitted as a data transmission message as a container.
- DAMT data asset management table
- Table_id (table identification) is an 8-bit fixed value indicating a data asset management table in various signaling information.
- the version (version) is an 8-bit integer parameter indicating the version of this data asset management table. For example, when some parameters constituting the data asset management table are also updated, version is incremented by +1.
- the length is a 16-bit parameter indicating the size of the data asset management table counted in bytes immediately after this field.
- Number_of_data_components is an 8-bit parameter indicating the number of data components included in the package (that is, the number of data assets included in the broadcast signal).
- Data component loops are arranged by the number of number_of_data_components, and information for each data component is stored. In each data component loop, attribute information of the data component and information of the MPU transmitting the data component are written.
- Attribute information of the data component includes transaction_id (transaction identifier), component_tag (component tag), and download_id (download identifier).
- transaction_id is an identifier having a version function of the data component.
- the component_tag is a label for identifying the data component. It is assumed that component_tag is the same value as component_tag in the MH stream identification descriptor arranged as an asset descriptor in the MP table.
- the download_id is information set for the purpose of identifying the download acceptance number, and serves as a label for uniquely identifying the data content. Note that, in the MMTP packet that transmits asynchronous media such as content, a download identifier is written in the multi-extension header area as necessary.
- Num_of_mpus indicates the number of MPUs that transmit items (files) included in the data component.
- the attribute information of each MPU is stored in a loop of MPUs arranged by the number of num_of_mpus.
- MPU_sequence_number is an MPU sequence number assigned to the MPU in the data component (data asset).
- Num_of_items indicates the number of items (file data) included in the MPU.
- an item loop indicated by reference number 1201 is arranged by the number of num_of_items.
- item_id, node_tag, item_size, item_version, item_checksum, and item_info are stored as detailed information for each item, that is, for each file.
- Item_id (item identifier) is a 32-bit value that uniquely identifies an item used for file transmission within a data asset.
- the node_tag is a 16-bit value that identifies an item as a node tag corresponding to the item, and corresponds to a node tag that identifies a file to be transmitted using this item.
- 16-bit node_tag as signaling information instead of 32-bit item_id, the bit size required for identifying items on the data transmission message can be reduced.
- item_size represents the size of the item in bytes.
- the item_version indicates the version of the item, and the item_version is incremented by +1 every time the content of the item is updated.
- Item_checksum indicates the checksum of the item. Note that since it is considered that the amount of information is always set for all files, the checksum is set to 1-bit check_sum_flag, and only when 1 is assigned to this, the 32-bit item_checksum is an item. Appears in the loop 1201. checksum_flag is a flag indicating whether or not a checksum is described. When this flag is 1, item_checksum is described.
- Item_info_length indicates the byte length of the subsequent item information area, and information on the item, that is, the file, is written in units of bytes (item_info_byte) in a series of areas consisting of loops corresponding to the number of bytes.
- descriptors such as MH-Type descriptor and MH-Compression Type descriptor are arranged.
- the MH-Type descriptor is a descriptor indicating a media type of a file transmitted in an application transmission method.
- the MH-Compression Type descriptor means that the item to be transmitted is compressed, and indicates the compression algorithm and the number of bytes of the item before compression.
- MPU_info_length indicates the byte length of the subsequent MPU information area, and information on the MPU is written in units of bytes (item_info_bytes) in a series of areas composed of loops corresponding to the number of bytes.
- the MPU node descriptor is arranged in the MPU information area 1202.
- the MPU in which the MPU node descriptor is arranged indicates that only items used for transmission of files under a certain directory are stored.
- the MPU node descriptor indicates information related to a node tag for identifying a corresponding directory and index_item, and details will be given later.
- Descriptor_loop_length indicates the total byte length of the descriptor.
- the descriptor stores descriptor information in a series of areas composed of loops corresponding to the number of descriptor_loop_lengths. The descriptor to be stored is defined separately.
- Packet configuration in the MMT system Elements constituting the encoded signal in the MMT include MFU, MPU, MMTP payload, and MMTP packet.
- MFU MFU
- MPU MPU
- MMTP payload MPU
- MMTP packet MMTP packet
- MMTP header When an MMTP header is added to the MMTP payload, it becomes an MMTP packet.
- synchronous media such as video, audio, and subtitles
- asynchronous media such as content are transmitted as MMTP packets.
- FIG. 13 shows a syntax example of the MMTP packet 1300.
- An MMTP packet is a unit of media data that is formatted to be transmitted using the MMT protocol.
- the packet counter 1302 is a 32-bit length field in which an integer value indicating the order of MMTP packets in the same stream (IP data flow) is written regardless of the packet identifier. Each time an MMTP packet is transmitted, the packet counter 1302 Counter 1302 is incremented by one. The packet counter 1302 starts from an arbitrary value.
- extension header flag “X” indicated by the reference number 1303 it indicates that the extension header 1304 indicated by the reference number 1304 exists.
- the extension header 1304 includes a 16-bit type field indicated by a reference number 1304-1, a length field indicated by a reference number 1304-2, and a header_extension_value field indicated by a reference number 1304-3.
- the length field the byte length of the header_extension_value field is written. Extension information outside the MMT specification can be written in the header_extension_value field.
- RAP Random Access Point
- a type value indicating the data type of the payload of the MMTP packet is written.
- the definition of the type value is shown in Table 5 below. If the type value “0x00” is written in the type field, it can be understood that the payload of the MMTP packet is an MPU (including an MPU fragment that is conscious of media).
- packet_id In the 16-bit packet_id field indicated by reference number 1307, an integer value that is a packet identifier for identifying the type of payload data (in other words, distinguishing assets) is written.
- the value of this field is derived from the asset identifier (asset_id) that identifies the asset to which the MMTP packet belongs.
- asset identifier assert_id
- the mapping between the packet identifier (packet_id) and the asset identifier (asset_id) is shown in the MP table (described above).
- the time when the first byte of the MMTP packet is output from the transmitting entity is a short-format NTP timestamp specified in RFC5905. be written.
- the sequence number of the MMTP packet having the same packet identifier (packet_id) is described as an integer value.
- the packet sequence number starts from an arbitrary value.
- FIG. 14 shows a syntax example of the extension header 1400 in the case of an MMTP packet that transmits asynchronous media such as content. As illustrated, in this case, 4 is written in the length field 1401 as the byte length of the header_extension_value field.
- a header_extension_value field 1402 describes a 4-byte download identifier (download_id).
- the MPU When transmitting MPU using the MMT protocol, packetization and depacketization are required on the transmission side and reception side, respectively.
- packetization the MPU is inserted into the MMTP payload and transmitted as an MMTP packet.
- the format of the MMTP payload allows fragmentation of the MMTP payload so that large payloads can be transmitted.
- the MTP payload format also allows aggregation to insert multiple MMTP payloads into a single MMTP payload, corresponding to small data units.
- the original MPU data is restored by depacketizing.
- FIG. 15 shows a syntax example of the MMTP payload 1500 in the MPU mode.
- the MPU mode is a case where “0x00” is written in the type field 1306 of the MMTP header (see FIG. 13).
- the MPU mode MMTP packet is used for transmission of video, audio, and file data (data broadcasting application).
- the fragment type (MPU Fragment Type: FT) field indicated by reference number 1501 the fragment type of information stored in the MMTP payload is indicated by a 4-bit value.
- the MMTP payload is encoded according to the FT value.
- the definition of the FT value is shown in Table 6 below.
- Timed (T) indicated by reference number 1502 is a time data flag and indicates whether or not the data stored in the MMTP payload is data specifying the presentation time. When 1 is written in this time data flag, it indicates that the fragment of the MPU that transmits the synchronous media is stored in the MMTP payload, and when 0 is written, the MPU that transmits the asynchronous media. Indicates that this fragment is stored in the MMTP payload.
- the Fragmentation Identifier (f_i) field indicated by reference number 1503 represents information on fragmentation of the data unit stored in the MMTP payload in 2 bits.
- the definition of the four values of f_i is shown in Table 7 below.
- the aggregation (A) flag indicated by reference number 1504 indicates whether or not the MMTP payload stores two or more data.
- the MMTP payload is an aggregate of a plurality of data units, 1 is written in the aggregation (A) flag.
- MPU sequence number (MPU_sequence_number) field indicated by reference number 1506, when MPU metadata, movie fragment metadata, and MFU are stored in the MMTP payload, the sequence number of the MPU to which they belong is described.
- the MPU sequence number is information for identifying the MPU in the asset, and the same MPU sequence number is given to all the MFUs in the same MPU.
- DU_length field indicated by reference number 1507 the length of the data unit (DU: Data Unit) following the field is described. However, when the above-described aggregation (A) flag 1504 is 0, there is no DU_length field 1507.
- DU_Header indicated by reference number 1508 is a header of the data unit. However, when the FT value 1501 is 0 or 1 (in other words, not an MFU), there is no DU_Header 1508.
- the MFU includes timed media samples or subsamples or non-timed media items.
- FIG. 16 shows a syntax example 1600 of DU_Header stored in the MMTP payload 1500 in which asynchronous media is arranged. Description of the DU_Header stored in the MMTP payload in which the synchronous media is arranged is omitted.
- an item identifier (item_id) having a 32-bit length for identifying an item transmitted as a part of the MFU is stored.
- the item corresponds to a file constituting the content such as an HTML document (application) or mono media (image, sound, text, etc.) referenced from the HTML document.
- the item identifier is information for identifying an item, that is, an MFU in the MPU. Therefore, on the stream specified by the asset identifier, a combination of the packet identifier (packet_id) in the header of the MMTP packet and the download identifier (download_id) in the extension header, and the item identifier (item_id) in the DU header, Items can be uniquely identified.
- MMU, MPU, MMTP payload, and MMTP packet are elements that constitute the encoded signal in MMT.
- the MPU is a unit of transmission in the MMT system
- the MFU is a unit smaller than the MPU.
- the MPU In transmission of video signals and audio signals, the MPU is also a unit of processing, and the MPU includes one or more access units, and is a unit that can perform video and audio decoding processing by the MPU alone.
- one MFU stores one item used in the application (that is, a file such as an HTML document or a monomedia), and an MPU as a transmission unit is configured by a group of a plurality of items. .
- FIG. 17 illustrates a configuration method of packets transmitted on a stream (IP data flow). The figure shows an example of a packet configuration when transmitting asynchronous media.
- one MPU is composed of a group of three files F1, F2, and F3, and another MPU is composed of another group of three files F4, F5, and F6.
- MPU sequence numbers that are uniquely identified on the stream (within the data asset) are assigned to the MPUs configured by file groups. Assume that an MPU sequence number “A” is allocated to the group of the files F1, F2, and F3.
- FIGS. 17B and 17C show a state in which the files F1, F2,... Grouped into MPUs are arranged in one MFU. Since the file size of the file data F1 is not large, it becomes one DU payload as it is. On the other hand, since the file data F2 has a large file size, it is divided (fragmented) into F2-1 and F2-2, and each becomes a separate DU payload. Then, by adding a DU header storing an item identifier (item_id) as shown in FIG. 16 to each DU payload, it becomes an MFU.
- item_id item identifier
- FIG. 17D shows a state in which each MFU is converted into an MMTP payload.
- a fragment type MPU Fragment Type: FT
- T time data
- f_i fragmentation identifier
- f_counter field (however, fragmented)
- MFU by adding an MMTP payload header composed of an MPU sequence number or the like, the MFU is converted into an MMTP payload.
- the value “2” indicating “MPU” is described as the FT value, and the time data (T) flag indicates that the medium is asynchronous.
- FIG. 17 (E) shows a state where an MMTP header and an extension header are added to each MMTP payload to form an MMTP packet.
- the MMTP header includes a type field and a packet identifier (packet_id).
- packet_id packet identifier
- download_id a download identifier
- the MMTP payload is transmitted in one MMTP packet.
- One MMTP packet carries a plurality of MMTP payloads, and one MMTP payload is not transmitted across a plurality of MMTP packets.
- FIG. 17F shows a state where the MMTP packet is converted into an IP packet. As shown in the figure, a UDP header and an IP header are added to the MMTP packet to form an IP packet. The MMTP packet is transmitted as one IP packet. One IP packet carries a plurality of MMTP payloads, and one MMTP payload is not transmitted across a plurality of IP packets.
- the current MMT broadcasting standard has a degree of freedom that allows the content directory structure and broadcast transmission data structure in production to be operated independently.
- this specification proposes a technique for reducing the amount of information in the data directory management table and the data asset management table on the assumption that the content production directory and the broadcast transmission unit MPU match. .
- content can be efficiently received at the receiver by matching the directory and the MPU.
- index_item a file describing detailed information of items under the MPU deleted from the data asset management table is described as one item (hereinafter referred to as “index_item”). Instead of MMT-SI, pass on data assets and transmit. Also, in the index_item, detailed information of files under the directory that matches the MPU is also described.
- the MPU node descriptor indicating that the MPU matches the directory and mapping between the MPU and the directory node is displayed in the MPU information area 1202. To be placed in.
- the MPU node descriptor specifies the node tag of the corresponding directory, the presence of index_item and its item identifier.
- index_item a file or item transmitted by MMT-SI (data directory management table and data asset management table) as an item called index_item, and the MPU of the data asset. Passed to and transmitted.
- the information size of index_item is almost the same as that described in MMT-SI.
- MMT-SI data directory management table and data asset management table
- the transmission amount is reduced as a whole. And a sufficient bandwidth for transmission of data assets can be secured.
- FIG. 18 shows a syntax example 1800 of the MPU node descriptor.
- the MPU node descriptor is placed in the loop of the MPU that matches the directory in the data asset management table.
- each parameter of the MPU node descriptor will be described.
- Descriptor_tag is an 8-bit integer value that identifies the descriptor 1800.
- the descriptor_length is an area in which the byte length of the data of the descriptor 1800 that follows this field is written.
- node_tag a node tag for identifying a directory that matches the MPU is indicated.
- Index_item_exist_flag is a flag indicating whether or not index_item exists.
- index_item_exist_flag 0 indicates that index_item does not exist.
- detailed information 1201 of items under the MPU is described in the loop of the MPU in the data / asset management table. Further, in the loop of this MPU and the corresponding directory node in the data directory management table, detailed information 1101 on the files under the directory is described.
- Index_item_id_flag is a flag indicating whether or not to specify an item identifier of index_item.
- FIG. 19 shows a syntax example 1900 of index_item.
- the index_item is an item that describes detailed information of an item or file that should be transmitted in the data asset management table and the data directory management table, and is transmitted as a data asset.
- each parameter of ixdex_item will be described.
- Num_of_items indicates the number of items for which information is provided by this index_item.
- num_of_items corresponds to the number of items (that is, the number of MFUs) included in the corresponding MPU. Further, detailed information of each item or file is described in a loop of items corresponding to the number of num_of_items.
- item_id and item_size have the same meaning as the parameter of the same name in the data asset management table. That is, item_id (item identifier) is a 32-bit value that uniquely identifies an item on the stream, and item_size represents the size of the item in bytes.
- File_name has the same meaning as the parameter of the same name in the data directory management table. That is, file_name_byte indicates the byte length of the file name area, and the file name of the item is written in units of bytes (file_name_length) in a series of areas consisting of loops corresponding to the number of bytes.
- Item_checksum has the same meaning as the parameter of the same name in the data asset management table. That is, a flag check_sum_flag indicating whether or not a checksum is described is set, and only when 1 is assigned to this flag, a 32-bit item_checksum appears and the checksum of the item is described.
- the item_type has the same meaning as the parameter of the same name described in the MH-Type descriptor arranged in the item information (item_info) area of the data / asset management table. That is, the item_type_length describes the byte length of the area in which the media type of the item is described, and the text_char in which the loop is continued by the byte length describes information about the media type of the file transmitted by the item in 8-bit units.
- “Compression_type” and “original_size” have the same meaning as the parameter of the same name described in the MH-Compression Type descriptor arranged in the item information (item_info) area in the data asset management table.
- the MH-Compression Type descriptor itself is arranged in the item information area only when the item to be transmitted is compressed, and indicates the compression algorithm (compression_type) and the number of bytes of the item before compression (original_size).
- the compression_type and the original_size are always described regardless of whether or not the item is compressed. If not compressed, FF is specified for compression_type.
- FIG. 20 schematically shows a configuration example of the MPU including the index_item 1900.
- An ordinary MPU transmitted as a data asset includes an application (HTML5 document) that provides a multimedia service and items corresponding to media files such as image data, audio data, and text used by the application. It is a set of a plurality of MFUs to be stored.
- MFU-1 stores index_item
- other MFU-2 stores items corresponding to the files under the directory.
- MFU-n store items corresponding to the files under the directory.
- the description of the detailed information of the file under the corresponding directory is omitted in the data directory management table
- the MPU under the corresponding MPU is omitted in the data asset management table.
- the description of the detailed information of the item is omitted, and the index_item file describing the detailed information of the item or file with the description omitted is transferred to one of the items in the MPU and transmitted.
- the MPU node descriptor indicating that the MPU matches the directory is arranged in the MPU information area 1202 in the data asset management table. Then, as described with reference to FIG. 18, the MPU node descriptor indicates whether or not index_item exists in the MPU with index_item_exist_flag, and if it exists, indicates the item identifier of index_item with index_item_id. It is a fixed item identifier. In the example shown in FIG. 20, index_item is stored in MFU-1. It is assumed that index_item_id specified by the MPU node descriptor or a fixed item identifier is stored in the DU header of MFU-1.
- the index_item includes a data asset management table such as an item identifier (item_id) and a corresponding file name (file_name) of each item giving information in the same item, Detailed information for each item and file for which description is omitted in the directory management table is described.
- index_item in the corresponding MPU is accessed based on the MPU node descriptor in the data / asset management table, information in the index_item is subsequently analyzed to determine an item identifier corresponding to a desired file name. In this way, the corresponding item, that is, the MFU can be accessed.
- FIG. 21 illustrates the relationship between each signaling table for obtaining an application.
- this figure assumes a case where the directory and the MPU are not matched, or matched but index_item is not used.
- index_item is not used.
- the receiver 12 refers to the data directory management table 2102 sent in the data transmission message, and extracts all the character strings of the base_URL, directory_URL, and item_URL (file_name) of the extracted URL information that match. node_tag (node of file) is acquired.
- the receiver 12 refers to the data asset management table 2103 sent in the data transmission message, and from the loop of items included in the loop of the MPU in the loop of each data component, the data directory management table.
- the item having the node_tag (file node) acquired in 2102 is specified.
- the MPU sequence number that uniquely identifies the MPU to which the item belongs, the component tag (component_tag) that identifies the data asset (component) to which the MPU that transmits the item belongs, and the data content are uniquely identified.
- a download identifier (download_id) is acquired.
- the receiver 12 sets the same value as the component tag acquired in the data asset management table 2103 from the asset information loop (second loop) of the MP table 2104 sent in the PA message as the MH stream identification description.
- a packet identifier (packet_id) for distinguishing the data asset is acquired with reference to MMT_general_location_info in the same loop.
- the receiver 12 includes the packet identifier acquired in the MP table 2104 in the MMTP header, and the download identifier, the MPU sequence number, and the item identifier acquired in the data asset management table 2103 are the extension header of the MMTP header, the MMTP payload
- the MFU that transmits the file (item) of the application instructed to be automatically started.
- FIG. 22 illustrates the relationship between each signaling table for obtaining an application.
- this figure assumes a case where the directory and MPU are matched and index_item is used.
- index_item is used.
- the receiver 12 refers to the data directory management table 2202 sent in the data transmission message, identifies the directory where the base_URL and directory_URL of the extracted URL information match, and acquires the node_tag of that directory To do.
- the receiver 12 refers to the data asset management table 2203 sent in the data transmission message, and the MPU node descriptor that specifies the node_tag of the above directory is arranged from the loop of the MPU. The MPU that matches the directory is specified. Then, the item identifier (index_item_id) of the index_item is acquired from the MPU node descriptor (including the case of a fixed item identifier). Further, the receiver 12 uniquely identifies the MPU sequence number that uniquely identifies the MPU, the component tag (component_tag) that identifies the data asset (component) to which the MPU that transmits the item belongs, and the data content. A download identifier (download_id) for identification is also acquired.
- the receiver 12 sets the same value as the component tag acquired in the data asset management table 2203 from the asset information loop (second loop) of the MP table 2204 sent in the PA message as the MH stream identification description.
- a packet identifier (packet_id) for distinguishing the data asset is acquired with reference to MMT_general_location_info in the same loop.
- the receiver 12 receives the MFU (in other words, the files under the directory) belonging to the MPU that matches the directory in the data asset identified by the acquired packet identifier, and receives all (multimedia / multimedia Cache to cache 408).
- the packet identifier acquired in the MP table 2204 is included in the MMTP header, and the packet including the download identifier and MPU sequence number acquired in the data asset management table 2203 in the extension header of the MMTP header and the MMTP payload header, respectively. Filter all MFUs belonging to the MPU matching the above directory and cache them.
- the receiver 12 identifies the MFU including the index_item_id specified by the MPU node descriptor in the DU header from the cached MPU, and extracts the body of the index_item.
- the receiver 12 sets a file that matches the item_URL character string extracted from the transmission protocol descriptor (selector byte) arranged for the desired application in the MH-AI table 2201 from the loop of the item of index_item.
- the item_id of the item having the name (file_name) is specified.
- the main body of the file (item) of the application instructed to be automatically started can be acquired by extracting the MFU including the item_id in the DU header from the cached MPU.
- FIG. 23 shows a processing procedure for starting an application in the receiver 12 in the form of a flowchart.
- the illustrated processing procedure is such that the directory does not match the MPU, the directory matches the MPU, but the index_item is not used (that is, the amount of data transmission message transmission is not reduced), and the directory matches the MPU. Covers all three cases of index_item.
- the illustrated processing procedure is mainly executed by the broadcast system control unit 410.
- the receiver 12 refers to the data directory management table sent in the data transmission message, specifies the directory where the base_URL and directory_URL of the extracted URL information match, and acquires the node_tag of that directory. (Step S2302).
- the receiver 12 tries to extract the MPU that specifies the node_tag of the directory acquired in the preceding step S2302 by the MPU node descriptor from the MPU loop of the data asset management table sent in the data transmission message (step S2302). S2303).
- the receiver 12 When there is an MPU that specifies the node_tag of the directory in the MPU node descriptor, that is, when there is an MPU that matches the directory (Yes in step S2304), the receiver 12 performs the above in the data asset. MFUs belonging to the MPU that match the directory (in other words, files under the directory) are received and all (in the multimedia cache 408) are cached (step S2305). Specifically, the packet identifier acquired in the MP table is included in the MMTP header, and the packet including the download identifier acquired in the data asset management table and the MPU sequence number in the extension header of the MMTP header and the MMTP payload header is filtered. Cache everything.
- the receiver 12 refers to the index_item_exist_flag of the MPU node descriptor and checks whether or not the value of the flag is 1, that is, whether or not index_item exists (step S2306).
- the receiver 12 extracts the item_URL character string of the item_URL in the URL information extracted in the preceding step S2301, that is, the node_tag of the item whose file name matches from the data directory management table (step S2307). Then, the receiver 12 specifies the item_id corresponding to the node_tag (node of the file) extracted in step S2307 from the item loop in the data / asset management table, and the main body of the item (the application instructed to start automatically). When the file is acquired, it is input to the browser (application engine 411) (step S2308).
- step S2308 the MFU having the specified item_id in the DU header is extracted from the cached MPU. Processing will be performed.
- step S2308 according to the procedure shown in FIG. 21, the corresponding MFU is received from the data asset.
- index_item_exist_flag 1 of the MPU node descriptor, that is, index_item exists (Yes in step S2306)
- the receiver 12 acquires the item identifier (index_item_id) of index_item from the MPU node descriptor (fixed). Including the case of an item identifier) (step S2309).
- the receiver 12 identifies the MFU that includes the index_item_id acquired from the MPU node descriptor from the MPU cached in the multimedia cache 411 in the preceding step S2305, and sets the index_item.
- the main body is extracted and its content is analyzed (step S2310).
- the receiver 12 identifies the item_id of the item having the file name (file_name) that matches the character string of the item_URL for the desired application from the index_item item loop, and caches the MFU including this item_id in the DU header.
- the main body of the item (the file of the application instructed to be automatically activated) is input to the browser (application engine 411) (step S2311).
- the directory and MPU are matched to perform broadcast transmission of data contents, thereby transferring the detailed information of the file or item to the data asset item. By doing so, it is possible to reduce the transmission amount in the transmission control signaling and to secure a band for transmitting the data content (application).
- the receiver 12 side is also useful because it can cache the MPU, that is, in transmission units, and perform efficient reception processing.
- FIG. 24 shows another syntax example 2400 of the data asset management table (DAMT). Unlike the syntax example 1200 of the data asset management table (DAMT) shown in FIG. 12, even if the MPU does not match the directory in content production, the information of the item under the MPU is transferred to the index_item. It has a structure that can be specified.
- each parameter of the data asset management table 2400 will be described with a focus on differences from the syntax example 1200 shown in FIG.
- the data asset management table 2400 as many data component loops as the number of data components specified by the parameter number_of_data_components (that is, the number of data assets included in the broadcast signal) are arranged. Information is stored. In each data component loop, as many MPU loops as the number of mpu included in the data component specified by the parameter num_of_mpus are arranged.
- MPU attribute information such as MPU_sequence_number, index_item_exist_flag, index_item_id_flag, and num_of_items is specified.
- MPU_sequence_number is an MPU sequence number assigned to the MPU in the data component (data asset), and num_of_items indicates the number of items (file data) included in the MPU (same as above).
- Index_item_exist_flag and index_item_id_flag respectively indicated by reference numbers 2401 and 2402 have the same meaning as the parameter of the same name in the MPU node descriptor 1800 shown in FIG.
- Index_item_exist_flag is a flag indicating whether or not index_item exists.
- index_item_exist_flag 0 indicates that index_item does not exist. In this case, information on an item under the MPU indicated by reference numeral 2404 is stored in the loop of the MPU.
- index_item_id_flag is a flag indicating whether or not to specify an item identifier of index_item.
- num_of_items specifies the actual number of items existing under the MPU, and the number of item loops is equal to the number of num_of_items. Is placed.
- index_item_exist_flag 1
- index_item_exist_flag 1
- each parameter is transmitted by index_item, so that the transmission amount can be reduced without transmitting it by the data asset management table.
- item_id, node_tag, item_size, item_version, item_checksum, and item_info have the same meaning as the parameters of the road name shown in FIG.
- MPU_info_length indicates the byte length of the subsequent MPU information area
- information on the MPU is written in units of bytes (item_info_bytes) in a series of areas composed of loops corresponding to the number of bytes.
- the MPU node descriptor is arranged in the MPU information area 2405. In other words, the MPU in which the MPU node descriptor is arranged indicates that only items used for transmission of files under a certain directory are stored.
- the MPU node descriptor indicates a node tag that identifies the corresponding directory. However, since the information about index_item is specified in the text of the data / asset management table as indicated by reference numerals 2401 to 2403, it is not necessary to specify it in the MPU node descriptor.
- FIG. 25 shows a syntax example 2500 of the MPU node descriptor used in combination with the data / asset management table 2400 shown in FIG. Unlike the MPU node descriptor 1800 shown in FIG. 18, the MPU node descriptor 2500 specifies only a node tag that identifies a directory that matches the MPU.
- FIG. 26 shows a syntax example 2600 of index_item used together with the data / asset management table 2400 shown in FIG. num_of_items indicates the number of items for which information is given by this index_item, and the detailed information of each item or file is described in the loop of items for the number of num_of_items, as in the syntax example 1900 shown in FIG. is there. The only difference is that it includes a node tag (node_tag) indicated by reference numeral 2601 as the detailed information of the item.
- node tag node tag
- This node tag 2601 has the same meaning as the parameter of the same name arranged in the item loop 1201 of the data asset management table 1200 shown in FIG. 12, and is 16 bits for identifying the item as a node tag corresponding to the item. This value corresponds to a node tag for identifying a file to be transmitted using this item.
- the detailed information 1101 regarding the files under the corresponding directory in the data directory management table is omitted on condition that the directory and the MPU match.
- the detailed information 2404 of the item under the MPU may be omitted only for the data asset management table. For this reason, the node tag of the file transmitted by the item is arranged in the loop of the item of index_item, and collation with the file information of the data directory management table is enabled.
- FIG. 27 illustrates the relationship between the signaling tables for obtaining an application when the data asset management table 2400 shown in FIG. 24 is used.
- a procedure for acquiring an application in the case of using the index_item 2600 will be described with reference to FIG.
- the receiver 12 refers to the data directory management table 2702 sent in the data transmission message, identifies the directory where the base_URL and directory_URL of the extracted URL information match, and acquires the node_tag of that directory To do.
- the receiver 12 refers to the data / asset management table 2703 sent in the data transmission message, and the MPU node descriptor that specifies the node_tag of the above directory is arranged from the loop of the MPU.
- the MPU that matches the directory is specified.
- an item identifier (index_item_id) of the index_item specified in the loop of the MPU in which the MPU node descriptor is arranged is acquired (including the case of a fixed item identifier).
- the receiver 12 sets the same value as the component tag acquired in the data asset management table 2703 from the asset information loop (second loop) of the MP table 2704 sent in the PA message as the MH stream identification description.
- a packet identifier (packet_id) for distinguishing the data asset is acquired with reference to MMT_general_location_info in the same loop.
- the receiver 12 receives the MFU (in other words, the files under the directory) belonging to the MPU that matches the directory in the data asset identified by the acquired packet identifier, and receives all (multimedia / multimedia Cache to cache 408).
- the packet identifier acquired in the MP table 2704 is included in the MMTP header
- the download identifier acquired in the data asset management table 2703 and the MPU sequence number are included in the MMTP header extension header and the MMTP payload header, respectively. Filter all MFUs belonging to the MPU matching the above directory and cache them.
- the receiver 12 identifies the MFU including the index_item_id specified for the corresponding MPU in the data asset management table 2703 in the DU header from the cached MPU, and extracts the body of the index_item.
- the receiver 12 sets a file that matches the item_URL character string extracted from the transmission protocol descriptor (selector byte) arranged for the desired application in the MH-AI table 2701 from the loop of the item of index_item.
- the item_id of the item having the name (file_name) is specified.
- the main body of the file (item) of the application instructed to be automatically started can be acquired by extracting the MFU including the item_id in the DU header from the cached MPU.
- the receiver 12 refers to the data directory management table 2702 and acquires the node_tag of the item that matches all the URL character strings that reach the item_URL (file_name).
- the receiver 12 refers to the data asset management table 2703 sent in the data transmission message, and from the MPU loop in the loop of each data component, the node_tag (node_tag () acquired in the data directory management table 2702 An MPU to which an item having a file node) belongs is specified.
- the receiver 12 acquires an item identifier (index_item_id) of the index_item specified in the loop of the MPU (fixed). Including item identifiers).
- the receiver 12 identifies the MPU sequence number that uniquely identifies the MPU, the component tag (component_tag) that identifies the data asset (component) to which the MPU belongs, and the download identifier that uniquely identifies the data content. (Download_id) is also acquired.
- the receiver 12 sets the same value as the component tag acquired in the data asset management table 2703 from the asset information loop (second loop) of the MP table 2704 sent in the PA message as the MH stream identification description.
- a packet identifier (packet_id) for distinguishing the data asset is acquired with reference to MMT_general_location_info in the same loop.
- the receiver 12 includes the packet identifier acquired in the MP table 2704 in the MMTP header, the download identifier acquired in the data asset management table 2103, the MPU sequence number, and the index_item_id acquired in the data asset management table 2704, respectively.
- the MFU that transmits the index_item is identified from the corresponding MPU, and the body of the index_item is specified. Extract.
- the receiver 12 specifies the item identifier (item_id) of the item having the node_tag (file node) acquired in the data directory management table 2702 from the extracted index_item item loop, the receiver 12 selects the item identifier (item_id) from the same MPU. It is possible to extract the MFU including the item_id in the DU header from the cached MPU and obtain the main body of the file (item) of the application instructed to be automatically started.
- the receiver 12 refers to the data asset management table 2703, and sets the MPU loop in each data component loop.
- An item having a node_tag (a node of a file) acquired by the data directory management table 2702 is specified from the loop of items included. Then, the MPU sequence number that uniquely identifies the MPU to which the item belongs, the component tag (component_tag) that identifies the data asset (component) to which the MPU that transmits the item belongs, and the data content are uniquely identified.
- a download identifier (download_id) is acquired.
- the receiver 12 sets the same value as the component tag acquired in the data asset management table 2703 from the asset information loop (second loop) of the MP table 2104 sent in the PA message as the MH stream identification description.
- a packet identifier (packet_id) for distinguishing the data asset is acquired with reference to MMT_general_location_info in the same loop.
- the receiver 12 includes the packet identifier acquired in the MP table 2704 in the MMTP header, and the download identifier, the MPU sequence number, and the item identifier acquired in the data asset management table 2703 are respectively an extension header of the MMTP header, an MMTP payload, By filtering the header and the packet included in the DU header on the IP data flow, it is possible to extract the MFU that transmits the file (item) of the application instructed to be automatically started.
- FIG. 28 and 29 show, in the form of a flowchart, a processing procedure for starting an application in the receiver 12 using the data / asset management table 2400 shown in FIG.
- the illustrated processing procedure is mainly executed by the broadcast system control unit 410.
- the receiver 12 refers to the data directory management table sent in the data transmission message, specifies the directory where the base_URL and directory_URL of the extracted URL information match, and acquires the node_tag of that directory. (Step S2802).
- the receiver 12 tries to extract the MPU specifying the node_tag of the directory acquired in the preceding step S2802 from the MPU loop of the data asset management table sent in the data transmission message (step S2802) S2803).
- step S2804 if there is no MPU that matches the directory (No in step S2804), the item_tag character string of item_URL in the URL information extracted in the preceding step S2801, that is, the node_tag of the item whose file name matches, is stored in the data directory. Extracted from the management table (step S2812).
- the receiver 12 specifies the MPU to which the item having the node_tag (file node) acquired in the preceding step S2812 belongs in the data asset management table (step S2813).
- the receiver 12 uses the item identifier of the index_item specified in the loop of the MPU. Based on (index_item_id), index_item is acquired from the corresponding MPU of the data asset and analyzed (step S2815).
- this item identifier is stored in the DU header.
- the data body is extracted from the MPU on the data asset, and the item body (the file of the application instructed to be automatically activated) is input to the browser (application engine 411) (step S2816).
- the item identifier is extracted from the MPU on the data asset having the DU header, and the item body (the file of the application instructed to be automatically started) is displayed in the browser (application Input to the engine 411) (step S2817).
- the receiver 12 uses the MFU belonging to the MPU that matches the directory in the data asset (in other words, The files under the directory) are received and cached (in the multimedia cache 408) (step S2805).
- the packet identifier acquired in the MP table is included in the MMTP header, and the packet including the download identifier acquired in the data asset management table and the MPU sequence number in the extension header of the MMTP header and the MMTP payload header is filtered. Cache everything.
- the receiver 12 refers to the index_item_exist_flag in the loop of the corresponding MPU in the data / asset management table, and checks whether the value of the flag is 1, that is, whether the index_item exists (step S2806). ).
- index_item_exist_flag 1 is specified for the corresponding MPU, that is, when index_item exists (Yes in step S2806), the receiver 12 specifies the loop of the corresponding MPU in the data asset management table.
- the acquired item identifier (index_item_id) of index_item is acquired (including the case of a fixed item identifier) (step S2809).
- the receiver 12 specifies the MFU that includes the index_item_id acquired from the data asset management table from the MPU cached (in the multimedia cache 411) in the preceding step S2805, and includes the DU header.
- the main body of index_item is extracted and the content is analyzed (step S2810).
- the receiver 12 identifies the item_id of the item having the file name (file_name) that matches the character string of the item_URL for the desired application from the index_item item loop, and caches the MFU including this item_id in the DU header.
- the main body of the item (the file of the application instructed to start automatically) is input to the browser (application engine 411) (step S2811).
- index_item_exist_flag 0 is specified for the corresponding MPU, that is, when index_item does not exist (No in step S2806), the receiver 12 sets the item_URL in the URL information extracted in the preceding step S2801.
- the node_tag of the item with the matching character string, that is, the file name is extracted from the data directory management table (step S2807).
- the receiver 12 specifies the item_id corresponding to the node_tag (node of the file) extracted in step S2807 from the item loop in the data asset management table, the item_id is selected from the corresponding MPU of the data asset.
- the main body of the item (the file of the application for which automatic activation is instructed) is acquired from the MFU having DU header in the DU header, it is input to the browser (application engine 411) (step S2808).
- the broadcast station reduces the transmission amount in the transmission control signaling by transferring the detailed information of the item to be specified in the data asset management table to the data asset item.
- a band for transmitting data content (application) can be secured.
- the embodiment in which the technology disclosed in this specification is applied to a broadcasting system adopting the MMT method for media transmission has been mainly described.
- the gist of the technology disclosed in this specification is limited to this. It is not something.
- the amount of data transmission transmission control information transmission can be reduced by applying the technology disclosed in this specification when operating the directory structure and transmission unit in content production.
- the receiver can efficiently receive the data broadcast.
- a transmission unit that transmits a transmission unit including a set of items used for file transmission;
- a control information transmitting unit for transmitting transmission control information, including a first table describing first information about files for each directory, and a second table describing second information about items for each transmission unit; Comprising When the transmission unit transmits a transmission unit matched with the directory, The control information transmission unit transmits the first table in which the first information under the directory matching the transmission unit is omitted and the second table in which the second information under the transmission unit matching the directory is omitted.
- the transmission unit includes an index item including a description of the omitted first information and the second information in a transmission unit; Transmitter device.
- the control information transmission unit arranges a descriptor indicating that a transmission unit matches a directory in the second table, and transmits the transmission control information.
- (4) The transmission unit transmits the index item in which item identification information for each item under a transmission unit matching the directory is associated with a file name of a file transmitted in the item.
- the transmission unit transmits the index item further including size information of each item.
- the transmission unit transmits the index item further including checksum information of each item.
- the transmission device according to any one of (4) and (5) above.
- the transmission unit transmits the index item further including type identification information that specifies a media type of a file transmitted in each item.
- the transmission device according to any one of (4) to (6) above.
- the transmission unit transmits the index item further including compression identification information that specifies a compression algorithm applied to each item and an original size.
- the transmission device according to any one of (4) to (7) above.
- (9) a transmission step of transmitting a transmission unit comprising a set of items used for file transmission;
- a control information sending step for sending transmission control information comprising: a first table describing first information about files for each directory; and a second table describing second information about items for each transmission unit;
- the first table in which the first information under the directory matching the transmission unit is omitted and the second table in which the second information under the transmission unit matching the directory is omitted are transmitted.
- an index item including a description of the omitted first information and the second information is included in a transmission unit and transmitted. Transmission method.
- a receiving unit that receives a transmission unit including a set of items used for file transmission;
- a control information receiving unit for receiving transmission control information, including a first table describing first information about files for each directory, and a second table describing second information about items for each transmission unit;
- a processing unit that processes a file transmitted in an item; Comprising When a transmission unit that matches the directory is transmitted, The control information receiving unit receives the first table in which the first information under the directory matching the transmission unit is omitted and the second table in which the second information under the transmission unit matching the directory is omitted.
- the receiving unit receives a transmission unit including an index item including a description of the omitted first information and the second information;
- the processing unit obtains a file based on a description of the index item.
- Receiver device (11) In response to the reception of the transmission control information in which the descriptor indicating that the transmission unit matches the directory is received in the second table in the control information receiving unit, Cache the entire transmission unit received by the receiver, The receiving device according to (10) above. (12)
- the description in which the control information receiving unit specifies node identification information that identifies a directory that matches a transmission unit, whether or not the index item exists, and item identification information of the index item Receive the child, The receiving device according to (11) above.
- the processing unit acquires the index item based on item identification information specified by the descriptor from transmission units received by the receiving unit.
- the receiving device according to (12) above.
- the receiving unit receives the index item in which item identification information for each item under a transmission unit matching the directory is associated with a file name of a file transmitted in the item.
- the receiving device according to any one of (10) to (13).
- the processing unit specifies item identification information used for file transmission based on the index item, and acquires an item from a transmission unit.
- the receiving unit receives the index item further including size information of each item.
- the receiving device according to any one of (14) and (15).
- the receiving unit receives the index item further including checksum information of each item.
- the receiving device receives the index item further including type identification information that specifies a media type of a file transmitted in each item.
- the receiving unit receives the index item further including compression identification information that specifies a compression algorithm and an original size applied to each item.
- the receiving device according to any one of (14) to (18).
- a receiving step of receiving a transmission unit comprising a set of items used for file transmission A control information receiving step for receiving transmission control information, comprising: a first table describing first information about files for each directory; and a second table describing second information about items for each transmission unit; A processing step for processing a file transmitted in an item based on the transmission control information; Have When a transmission unit that matches the directory is transmitted, In the control information receiving step, the first table in which the first information under the directory matching the transmission unit is omitted and the second table in which the second information under the transmission unit matching the directory is omitted are received. And In the receiving step, a transmission unit including an index item including a description of the omitted first information and the second information is received; In the processing step, a file is obtained based on the description of the index item. Reception method.
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Abstract
Description
ファイル伝送に用いられるアイテムの集合からなる伝送単位を送信する送信部と、
ディレクトリー毎にファイルに関する第1の情報を記述する第1のテーブルと、伝送単位毎にアイテムに関する第2の情報を記述する第2のテーブル含む、伝送制御情報を送信する制御情報送信部と、
を具備し、
前記送信部がディレクトリーと合致させた伝送単位を送信する際に、
前記制御情報送信部は、伝送単位と合致するディレクトリー下の第1の情報を省略した前記第1のテーブルと、ディレクトリーと合致する伝送単位下の第2の情報を省略した第2のテーブルを送信し、
前記送信部は、省略した前記第1の情報及び前記第2の情報に関する記述を含むインデックス・アイテムを伝送単位に含めて送信する、
送信装置である。
ファイル伝送に用いられるアイテムの集合からなる伝送単位を送信する送信ステップと、
ディレクトリー毎にファイルに関する第1の情報を記述する第1のテーブルと、伝送単位毎にアイテムに関する第2の情報を記述する第2のテーブル含む、伝送制御情報を送信する制御情報送信ステップと、
を有し、
前記送信ステップでディレクトリーと合致させた伝送単位を送信する際に、
前記制御情報送信ステップでは、伝送単位と合致するディレクトリー下の第1の情報を省略した前記第1のテーブルと、ディレクトリーと合致する伝送単位下の第2の情報を省略した第2のテーブルを送信し、
前記送信ステップでは、省略した前記第1の情報及び前記第2の情報に関する記述を含むインデックス・アイテムを伝送単位に含めて送信する、
送信方法である。
ファイル伝送に用いられるアイテムの集合からなる伝送単位を受信する受信部と、
ディレクトリー毎にファイルに関する第1の情報を記述する第1のテーブルと、伝送単位毎にアイテムに関する第2の情報を記述する第2のテーブル含む、伝送制御情報を受信する制御情報受信部と、
前記伝送制御情報に基づいて、アイテムで伝送されるファイルを処理する処理部と、
を具備し、
ディレクトリーと合致した伝送単位が伝送される場合に、
前記制御情報受信部は、伝送単位と合致するディレクトリー下の第1の情報を省略した前記第1のテーブルと、ディレクトリーと合致する伝送単位下の第2の情報を省略した第2のテーブルを受信し、
前記受信部は、省略した前記第1の情報及び前記第2の情報に関する記述を含むインデックス・アイテムが含まれた伝送単位を受信し、
前記処理部は、前記インデックス・アイテムの記述に基づいてファイルを取得する、
受信装置である。
ファイル伝送に用いられるアイテムの集合からなる伝送単位を受信する受信ステップと、
ディレクトリー毎にファイルに関する第1の情報を記述する第1のテーブルと、伝送単位毎にアイテムに関する第2の情報を記述する第2のテーブル含む、伝送制御情報を受信する制御情報受信ステップと、
前記伝送制御情報に基づいて、アイテムで伝送されるファイルを処理する処理ステップと、
を有し、
ディレクトリーと合致した伝送単位が伝送される場合に、
前記制御情報受信ステップでは、伝送単位と合致するディレクトリー下の第1の情報を省略した前記第1のテーブルと、ディレクトリーと合致する伝送単位下の第2の情報を省略した第2のテーブルを受信し、
前記受信ステップでは、省略した前記第1の情報及び前記第2の情報に関する記述を含むインデックス・アイテムが含まれた伝送単位を受信し、
前記処理ステップでは、前記インデックス・アイテムの記述に基づいてファイルを取得する、
受信方法である。
図1には、ディジタル放送システム10の構成例を模式的に示している。図示のディジタル放送システム10は、放送送出システム11と、受信機12で構成される。
1つの放送サービスは、映像、音声、字幕、コンテンツなど複数のコンポーネントで構成されるパッケージである(但し、1つの放送サービスは、1つのチャンネルすなわち放送番組に対応するものとする)。放送番組本編に関わる映像、音声、字幕などは同期型メディアであり、コンテンツは非同期型メディアである。MMT方式では、これら同期型並びに非同期型メディアを、放送伝送路と通信伝送路の組み合わせで利用することが容易である。
MMTにおける符号化信号を構成する要素として、MFU、MPU、MMTPペイロード、MMTPパケットがある。MMTPペイロードにMMTPヘッダーを付加するとMMTPパケットになる。上述したように、映像、音声、字幕などの同期型メディアや、コンテンツのような非同期メディアは、MMTPパケットとして伝送される。
上述したように、現在のMMT放送規格では、制作におけるコンテンツのディレクトリー構成と放送伝送データの構成を独立させて運用することが可能な自由度を持つ。
上記D項では、コンテンツの制作におけるディレクトリーと放送の伝送単位であるMPUが合致する場合に限定して、データ・ディレクトリー管理テーブルにおける該当するディレクトリー下のファイルの情報、及び、データ・アセット管理テーブルの該当するMPU下のアセットの情報の両方をindex_itemに転嫁して伝送することで、伝送制御シグナリングにおける伝送量を削減する技術について説明した。
(1)ファイル伝送に用いられるアイテムの集合からなる伝送単位を送信する送信部と、
ディレクトリー毎にファイルに関する第1の情報を記述する第1のテーブルと、伝送単位毎にアイテムに関する第2の情報を記述する第2のテーブル含む、伝送制御情報を送信する制御情報送信部と、
を具備し、
前記送信部がディレクトリーと合致させた伝送単位を送信する際に、
前記制御情報送信部は、伝送単位と合致するディレクトリー下の第1の情報を省略した前記第1のテーブルと、ディレクトリーと合致する伝送単位下の第2の情報を省略した第2のテーブルを送信し、
前記送信部は、省略した前記第1の情報及び前記第2の情報に関する記述を含むインデックス・アイテムを伝送単位に含めて送信する、
送信装置。
(2)前記制御情報送信部は、伝送単位がディレクトリーと合致することを示す記述子を前記第2のテーブルに配置して、前記伝送制御情報を送信する、
上記(1)に記載の送信装置。
(3)前記制御情報送信部は、伝送単位と合致するディレクトリーを識別するノード識別情報と、前記インデックス・アイテムが存在するか否か、及び、前記インデックス・アイテムのアイテム識別情報を指定する前記記述子を送信する、
上記(2)に記載の送信装置。
(4)前記送信部は、ディレクトリーと合致する伝送単位下のアイテム毎のアイテム識別情報とアイテムで伝送されるファイルのファイル名を対応付けた前記インデックス・アイテムを送信する、
上記(1)乃至(3)のいずれかに記載の送信装置。
(5)前記送信部は、各アイテムのサイズ情報をさらに含む前記インデックス・アイテムを送信する、
上記(4)に記載の送信装置。
(6)前記送信部は、各アイテムのチェックサム情報をさらに含む前記インデックス・アイテムを送信する、
上記(4)又は(5)のいずれかに記載の送信装置。
(7)前記送信部は、各アイテムで伝送されるファイルのメディア型を指定するタイプ識別情報をさらに含む前記インデックス・アイテムを送信する、
上記(4)乃至(6)のいずれかに記載の送信装置。
(8)前記送信部は、各アイテムに適用される圧縮アルゴリズム及び元のサイズを指定する圧縮識別情報をさらに含む前記インデックス・アイテムを送信する、
上記(4)乃至(7)のいずれかに記載の送信装置。
(9)ファイル伝送に用いられるアイテムの集合からなる伝送単位を送信する送信ステップと、
ディレクトリー毎にファイルに関する第1の情報を記述する第1のテーブルと、伝送単位毎にアイテムに関する第2の情報を記述する第2のテーブル含む、伝送制御情報を送信する制御情報送信ステップと、
を有し、
前記送信ステップでディレクトリーと合致させた伝送単位を送信する際に、
前記制御情報送信ステップでは、伝送単位と合致するディレクトリー下の第1の情報を省略した前記第1のテーブルと、ディレクトリーと合致する伝送単位下の第2の情報を省略した第2のテーブルを送信し、
前記送信ステップでは、省略した前記第1の情報及び前記第2の情報に関する記述を含むインデックス・アイテムを伝送単位に含めて送信する、
送信方法。
(10)ファイル伝送に用いられるアイテムの集合からなる伝送単位を受信する受信部と、
ディレクトリー毎にファイルに関する第1の情報を記述する第1のテーブルと、伝送単位毎にアイテムに関する第2の情報を記述する第2のテーブル含む、伝送制御情報を受信する制御情報受信部と、
前記伝送制御情報に基づいて、アイテムで伝送されるファイルを処理する処理部と、
を具備し、
ディレクトリーと合致した伝送単位が伝送される場合に、
前記制御情報受信部は、伝送単位と合致するディレクトリー下の第1の情報を省略した前記第1のテーブルと、ディレクトリーと合致する伝送単位下の第2の情報を省略した第2のテーブルを受信し、
前記受信部は、省略した前記第1の情報及び前記第2の情報に関する記述を含むインデックス・アイテムが含まれた伝送単位を受信し、
前記処理部は、前記インデックス・アイテムの記述に基づいてファイルを取得する、
受信装置。
(11)前記処理部は、前記制御情報受信部で伝送単位がディレクトリーと合致することを示す記述子が前記第2のテーブルに配置された前記伝送制御情報を受信したことに応答して、前記受信部が受信した伝送単位全体をキャッシュする、
上記(10)に記載の受信装置。
(12)前記制御情報受信部は、伝送単位と合致するディレクトリーを識別するノード識別情報と、前記インデックス・アイテムが存在するか否か、及び、前記インデックス・アイテムのアイテム識別情報を指定した前記記述子を受信する、
上記(11)に記載の受信装置。
(13)前記処理部は、前記受信部が受信した伝送単位の中から前記記述子が指定するアイテム識別情報に基づいて前記インデックス・アイテムを取得する、
上記(12)に記載の受信装置。
(14)前記受信部は、ディレクトリーと合致する伝送単位下のアイテム毎のアイテム識別情報とアイテムで伝送されるファイルのファイル名を対応付けた前記インデックス・アイテムを受信する、
上記(10)乃至(13)のいずれかに記載の受信装置。
(15)前記処理部は、前記インデックス・アイテムに基づいて、ファイル伝送に用いられるアイテム識別情報を特定して、伝送単位の中からアイテムを取得する、
上記(14)に記載の受信装置。
(16)前記受信部は、各アイテムのサイズ情報をさらに含む前記インデックス・アイテムを受信する、
上記(14)又は(15)のいずれかに記載の受信装置。
(17)前記受信部は、各アイテムのチェックサム情報をさらに含む前記インデックス・アイテムを受信する、
上記(14)乃至(16)のいずれかに記載の受信装置。
(18)前記受信部は、各アイテムで伝送されるファイルのメディア型を指定するタイプ識別情報をさらに含む前記インデックス・アイテムを受信する、
上記(14)乃至(17)のいずれかに記載の受信装置。
(19)前記受信部は、各アイテムに適用される圧縮アルゴリズム及び元のサイズを指定する圧縮識別情報をさらに含む前記インデックス・アイテムを受信する、
上記(14)乃至(18)のいずれかに記載の受信装置。
(20)ファイル伝送に用いられるアイテムの集合からなる伝送単位を受信する受信ステップと、
ディレクトリー毎にファイルに関する第1の情報を記述する第1のテーブルと、伝送単位毎にアイテムに関する第2の情報を記述する第2のテーブル含む、伝送制御情報を受信する制御情報受信ステップと、
前記伝送制御情報に基づいて、アイテムで伝送されるファイルを処理する処理ステップと、
を有し、
ディレクトリーと合致した伝送単位が伝送される場合に、
前記制御情報受信ステップでは、伝送単位と合致するディレクトリー下の第1の情報を省略した前記第1のテーブルと、ディレクトリーと合致する伝送単位下の第2の情報を省略した第2のテーブルを受信し、
前記受信ステップでは、省略した前記第1の情報及び前記第2の情報に関する記述を含むインデックス・アイテムが含まれた伝送単位を受信し、
前記処理ステップでは、前記インデックス・アイテムの記述に基づいてファイルを取得する、
受信方法。
11…放送送出システム、12…受信機
301…時計部、302…信号送出部
303…ビデオ・エンコーダー、304…オーディオ・エンコーダー
305…字幕/文字スーパー・エンコーダー
306…シグナリング・エンコーダー
307…ファイル・エンコーダー
308…電子データ処理システム、
309…TLVシグナリング・エンコーダー
310…IPサービス・マルチプレクサー
311…TLVマルチプレクサー、312…変調・送信部
401…チューナー復調部、402…MMTデマルチプレクサー
403…時計回復部、404…ビデオ・デコーダー
405…オーディオ・デコーダー
406…文字スーパー・デコーダー、407…字幕デコーダー
408…マルチメディア・キャッシュ、409…SIキャッシュ
410…放送システム制御部、411…アプリケーション・エンジン
412…通信インターフェース、414…スケーラー
415~418…合成部
Claims (20)
- ファイル伝送に用いられるアイテムの集合からなる伝送単位を送信する送信部と、
ディレクトリー毎にファイルに関する第1の情報を記述する第1のテーブルと、伝送単位毎にアイテムに関する第2の情報を記述する第2のテーブル含む、伝送制御情報を送信する制御情報送信部と、
を具備し、
前記送信部がディレクトリーと合致させた伝送単位を送信する際に、
前記制御情報送信部は、伝送単位と合致するディレクトリー下の第1の情報を省略した前記第1のテーブルと、ディレクトリーと合致する伝送単位下の第2の情報を省略した第2のテーブルを送信し、
前記送信部は、省略した前記第1の情報及び前記第2の情報に関する記述を含むインデックス・アイテムを伝送単位に含めて送信する、
送信装置。 - 前記制御情報送信部は、伝送単位がディレクトリーと合致することを示す記述子を前記第2のテーブルに配置して、前記伝送制御情報を送信する、
請求項1に記載の送信装置。 - 前記制御情報送信部は、伝送単位と合致するディレクトリーを識別するノード識別情報と、前記インデックス・アイテムが存在するか否か、及び、前記インデックス・アイテムのアイテム識別情報を指定する前記記述子を送信する、
請求項2に記載の送信装置。 - 前記送信部は、ディレクトリーと合致する伝送単位下のアイテム毎のアイテム識別情報とアイテムで伝送されるファイルのファイル名を対応付けた前記インデックス・アイテムを送信する、
請求項1に記載の送信装置。 - 前記送信部は、各アイテムのサイズ情報をさらに含む前記インデックス・アイテムを送信する、
請求項4に記載の送信装置。 - 前記送信部は、各アイテムのチェックサム情報をさらに含む前記インデックス・アイテムを送信する、
請求項4に記載の送信装置。 - 前記送信部は、各アイテムで伝送されるファイルのメディア型を指定するタイプ識別情報をさらに含む前記インデックス・アイテムを送信する、
請求項4に記載の送信装置。 - 前記送信部は、各アイテムに適用される圧縮アルゴリズム及び元のサイズを指定する圧縮識別情報をさらに含む前記インデックス・アイテムを送信する、
請求項4に記載の送信装置。 - ファイル伝送に用いられるアイテムの集合からなる伝送単位を送信する送信ステップと、
ディレクトリー毎にファイルに関する第1の情報を記述する第1のテーブルと、伝送単位毎にアイテムに関する第2の情報を記述する第2のテーブル含む、伝送制御情報を送信する制御情報送信ステップと、
を有し、
前記送信ステップでディレクトリーと合致させた伝送単位を送信する際に、
前記制御情報送信ステップでは、伝送単位と合致するディレクトリー下の第1の情報を省略した前記第1のテーブルと、ディレクトリーと合致する伝送単位下の第2の情報を省略した第2のテーブルを送信し、
前記送信ステップでは、省略した前記第1の情報及び前記第2の情報に関する記述を含むインデックス・アイテムを伝送単位に含めて送信する、
送信方法。 - ファイル伝送に用いられるアイテムの集合からなる伝送単位を受信する受信部と、
ディレクトリー毎にファイルに関する第1の情報を記述する第1のテーブルと、伝送単位毎にアイテムに関する第2の情報を記述する第2のテーブル含む、伝送制御情報を受信する制御情報受信部と、
前記伝送制御情報に基づいて、アイテムで伝送されるファイルを処理する処理部と、
を具備し、
ディレクトリーと合致した伝送単位が伝送される場合に、
前記制御情報受信部は、伝送単位と合致するディレクトリー下の第1の情報を省略した前記第1のテーブルと、ディレクトリーと合致する伝送単位下の第2の情報を省略した第2のテーブルを受信し、
前記受信部は、省略した前記第1の情報及び前記第2の情報に関する記述を含むインデックス・アイテムが含まれた伝送単位を受信し、
前記処理部は、前記インデックス・アイテムの記述に基づいてファイルを取得する、
受信装置。 - 前記処理部は、前記制御情報受信部で伝送単位がディレクトリーと合致することを示す記述子が前記第2のテーブルに配置された前記伝送制御情報を受信したことに応答して、前記受信部が受信した伝送単位全体をキャッシュする、
請求項10に記載の受信装置。 - 前記制御情報受信部は、伝送単位と合致するディレクトリーを識別するノード識別情報と、前記インデックス・アイテムが存在するか否か、及び、前記インデックス・アイテムのアイテム識別情報を指定した前記記述子を受信する、
請求項11に記載の受信装置。 - 前記処理部は、前記受信部が受信した伝送単位の中から前記記述子が指定するアイテム識別情報に基づいて前記インデックス・アイテムを取得する、
請求項12に記載の受信装置。 - 前記受信部は、ディレクトリーと合致する伝送単位下のアイテム毎のアイテム識別情報とアイテムで伝送されるファイルのファイル名を対応付けた前記インデックス・アイテムを受信する、
請求項10に記載の受信装置。 - 前記処理部は、前記インデックス・アイテムに基づいて、ファイル伝送に用いられるアイテム識別情報を特定して、伝送単位の中からアイテムを取得する、
請求項14に記載の受信装置。 - 前記受信部は、各アイテムのサイズ情報をさらに含む前記インデックス・アイテムを受信する、
請求項14に記載の受信装置。 - 前記受信部は、各アイテムのチェックサム情報をさらに含む前記インデックス・アイテムを受信する、
請求項14に記載の受信装置。 - 前記受信部は、各アイテムで伝送されるファイルのメディア型を指定するタイプ識別情報をさらに含む前記インデックス・アイテムを受信する、
請求項14に記載の受信装置。 - 前記受信部は、各アイテムに適用される圧縮アルゴリズム及び元のサイズを指定する圧縮識別情報をさらに含む前記インデックス・アイテムを受信する、
請求項14に記載の受信装置。 - ファイル伝送に用いられるアイテムの集合からなる伝送単位を受信する受信ステップと、
ディレクトリー毎にファイルに関する第1の情報を記述する第1のテーブルと、伝送単位毎にアイテムに関する第2の情報を記述する第2のテーブル含む、伝送制御情報を受信する制御情報受信ステップと、
前記伝送制御情報に基づいて、アイテムで伝送されるファイルを処理する処理ステップと、
を有し、
ディレクトリーと合致した伝送単位が伝送される場合に、
前記制御情報受信ステップでは、伝送単位と合致するディレクトリー下の第1の情報を省略した前記第1のテーブルと、ディレクトリーと合致する伝送単位下の第2の情報を省略した第2のテーブルを受信し、
前記受信ステップでは、省略した前記第1の情報及び前記第2の情報に関する記述を含むインデックス・アイテムが含まれた伝送単位を受信し、
前記処理ステップでは、前記インデックス・アイテムの記述に基づいてファイルを取得する、
受信方法。
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Also Published As
Publication number | Publication date |
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JP2018061072A (ja) | 2018-04-12 |
JP6323518B2 (ja) | 2018-05-16 |
JPWO2017002455A1 (ja) | 2018-04-19 |
JP6323519B2 (ja) | 2018-05-16 |
US10547881B2 (en) | 2020-01-28 |
JP2017017722A (ja) | 2017-01-19 |
US20180192084A1 (en) | 2018-07-05 |
PH12017502430A1 (en) | 2018-07-02 |
BR112017027861A2 (ja) | 2018-11-06 |
EP3319321A4 (en) | 2019-02-20 |
JP2018061073A (ja) | 2018-04-12 |
JP6729379B2 (ja) | 2020-07-22 |
JP6024854B1 (ja) | 2016-11-16 |
EP3319321A1 (en) | 2018-05-09 |
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