JP2014053950A - Stream transmission system, transmitting device, receiving device, and stream transmission method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve the reproduction quality by using transmission paths of a plurality of different types.SOLUTION: A stream transmission system according to this embodiment has: in a transmission system 1, a transmission adjustment part 11 respectively packetizing first hierarchy data and second hierarchy data and transmitting a first hierarchy data packet and a second hierarchy data packet; an RF transmitting device 51 transmitting the first hierarchy data packet to a reception system 2 via an RF transmission path; and an IP transmitting device 70 transmitting the second hierarchy data packet via an IP transmission path, and has: in the reception system 2, an RF receiving device 60 receiving the data packet transmitted from the RF transmission path; an IP receiving device 80 receiving the data packet transmitted from the IP transmission path; and a reception adjustment device 21 re-configuring a hierarchically-encoded data stream on the basis of the data packets received by the RF receiving device 60 and the IP receiving device 80.

Description

  Embodiments described herein relate generally to a stream transmission system, a transmission device, a reception device, and a stream transmission method for streaming video data and audio data.

  With the progress of digital broadcasting and the convergence of broadcasting and communication, new services are being developed in these integrated areas.

  Conventional broadcasting is transmitted by optimizing various parameters in the allocated radio frequency band. Broadcast transmission channels are extremely wide-area and broadcast (simultaneity / identity), and are suitable for distributing a small number of contents simultaneously to a large number of geographically dispersed receivers. ing. However, since the target receiver specifications are determined in advance and are assumed to be operated for a long period of time, it is difficult to change various parameters greatly and to implement the revision of the system in the first place.

  On the other hand, conventional communication is performed by optimizing various parameters in a transmission band that can be used in a communication path. The communication transmission path is very excellent in locality and individuality, and is suitable for distributing different contents separately to an explicit individual terminal. Therefore, it is possible to individually assume the target receiver specifications, and it is relatively easy to change various parameters greatly and to revise the system in the first place. Although there is a method for realizing wide-area and broadcast performance by multicast or the like in communication, it is disadvantageous in terms of scale and simultaneity, although it is advantageous in terms of quality compared to broadcasting.

  Conventionally, when the communication quality of a transmission path deteriorates for some reason, the transmission rate of content is dynamically changed, or a data stream with a plurality of different parameters can be selected according to different receiver specifications. As a technology of H. H.264 / SVC (Scalable Video Coding). H. In H.264 / SVC, a plurality of data streams are generated and output at the same time, and a content having a desired transmission rate can be obtained only from the combination thereof.

  Specifically, for the basic stream that is the lowest-rate data stream itself and other multiple data streams at a higher rate, data configured as a plurality of extension streams that are only the differences from the basic stream. It is a stream. The encoding device generates these data streams, and the transmission device, the receiving device, or the decoding device can change the transmission rate simply by increasing / decreasing the selection of the number of extension streams transmitted by the transmitting device. It is possible to obtain content according to the receiver specifications simply by discarding the stream.

JP 2004-266503 A

Scalable Video Coding over RTP and MPEG-2 Transport Stream in Broadcast and IPTV Channels, Thomas Schierl, Karsten Gruneberg, and Thomas Wiegand, IEEE Wireless Communications Magazine, vol. 16, no. 5, pp. 64-71, October 2009.

  Non-Patent Document 1 described above includes H.C. A technique for storing video data hierarchically encoded in the H.264 / SVC format in an RTP packet or an MPEG2-TS packet so that the video data can be transmitted / received using a conventional communication or broadcast transmission path is described.

  However, in the prior art, it is assumed that a video stream is simply transmitted and received using a single type of transmission path. Further, it is desirable that the data stream sent through the broadcast transmission path is exactly the same as the data stream sent out in the current broadcast in accordance with the receiver specifications assumed in the existing broadcast. Under such circumstances, it is extremely difficult to improve reproduction quality using a plurality of different types of transmission lines.

  An object of the present embodiment is to provide a stream transmission system, a transmission device, a reception device, a stream transmission method, and a program that can improve reproduction quality using a plurality of different types of transmission paths.

  The stream transmission system according to the present embodiment is a system for transmitting a data stream having a first layer including basic data and a second layer including data for reinforcing the basic data from a transmitting device to a receiving device, A transmission apparatus configured to packetize the data of the first layer and the data of the second layer, and to transmit a data packet of the first layer and a data packet of the second layer; A first transmitting means for transmitting a data packet to the receiving apparatus through a first transmission path; and a second transmitting section for transmitting the second layer data packet to the receiving apparatus through a second transmission path of a transmission method different from the first transmission path. 2 receiving means, and the receiving device receives the data packet sent from the first transmission path, and receives the data packet from the second transmission path. A second receiving means for receiving the received data packet, the data stream received by the first receiving means and the data packet received by the second receiving means to replay the hierarchically encoded data stream. And a reception adjustment unit.

  The transmitting apparatus according to the present embodiment is a transmitting apparatus that transmits a data stream having a first layer including basic data and a second layer including data for reinforcing the basic data to the receiving apparatus, the first layer Transmission control means for packetizing the first layer data packet and the second layer data packet to send out the first layer data packet and the second layer data packet, respectively, and the first layer data packet through the first transmission path First transmission means for transmitting to the reception apparatus, and second transmission means for transmitting the data packet of the second layer to the reception apparatus through a second transmission path of a transmission scheme different from the first transmission path.

  The receiving apparatus according to the present embodiment packetizes the first layer data and the second layer data constituting the layer-encoded data stream, and transmits the first layer data packet through the first transmission path. And a receiving apparatus connected to a transmitting apparatus for transmitting a second layer data packet through a second transmission path having a transmission method different from that of the first transmission path, wherein the data packet is transmitted from the first transmission path. First receiving means for receiving data, second receiving means for receiving data packets sent from the second transmission path, data packets received by the first receiving means, and data received by the second receiving means Receiving adjustment means for reconstructing the hierarchically encoded data stream based on the packet.

  The stream transmission method according to the present embodiment is a method used in a transmission system for transmitting a data stream having a first layer including basic data and a second layer including data reinforcing the basic data from a transmission device to a reception device. The transmitting apparatus packetizes the first layer data and the second layer data, respectively, and transmits the first layer data packet and the second layer data packet; Transmitting a first layer data packet to the receiving device through a first transmission path, and transmitting the second layer data packet to the receiving device through a second transmission path of a transmission scheme different from the first transmission path. And the receiving device receives a data packet sent from the first transmission path, and sends the data packet from the second transmission path. Receiving the received data packet, and reconstructing the hierarchically encoded data stream based on the data packet received by the first receiving means and the data packet received by the second receiving means And have.

  The stream transmission program according to the present embodiment is a program used in a transmission system for transmitting a data stream having a first layer including basic data and a second layer including data for reinforcing the basic data from a transmission device to a reception device. A process of packetizing the first layer data and the second layer data and transmitting the first layer data packet and the second layer data packet in the transmission device; Processing for transmitting a data packet of one layer to the receiving device through a first transmission path, and processing for transmitting the data packet of the second layer to the receiving device through a second transmission path of a transmission scheme different from the first transmission path In the receiving device, a process of receiving a data packet sent from the first transmission path and the second transmission path The hierarchically encoded data stream is reconstructed based on the process of receiving the transmitted data packet and the data packet received by the first receiving means and the data packet received by the second receiving means. Processing is executed by a computer.

  The stream transmission system according to the present embodiment is a system that transmits a first data stream and a second data stream that extends the first data stream from a transmission device to a reception device, and the transmission device includes: The first configuration information table indicating the configuration information of the first data stream together with the first data stream is transmitted to the receiving device, and the second configuration information indicating the configuration information of the second data stream together with the second data stream A transmission unit configured to transmit a table to the reception device, wherein the reception device transmits the first data stream, the first configuration information table, the second data stream, and the second configuration transmitted from the transmission unit; Receiving means for receiving an information table, the first configuration information table and the second configuration information table The basis comprises a reception adjustment means constituting the video using the second data stream and said first data stream.

  The stream transmission system according to the present embodiment is a system that transmits a first data stream and a second data stream that extends the first data stream from a transmission device to a reception device, and the transmission device includes: A first configuration information table indicating configuration information of the first data stream together with the first data stream is transmitted to the receiving device, and configuration information of the first data stream and configuration of the second data stream are transmitted together with the second data stream. A transmission unit configured to transmit a third configuration information table indicating information to the reception device, wherein the reception device transmits the first data stream, the first configuration table, and the second data stream transmitted from the transmission unit; And receiving means for receiving the third configuration table, and the third configuration information table Hazuki comprises a reception adjustment means constituting the video using the second data stream and said first data stream.

  The stream transmission system according to the present embodiment is a system that transmits a first data stream and a second data stream that extends the first data stream from a transmission device to a reception device, and the transmission device includes: Transmission means for transmitting a first data stream including a first configuration information table indicating configuration information of the first data stream together with the first data stream to the receiving device, and transmitting the second data stream to the receiving device. The reception apparatus receives the first data stream, the first configuration table, and the second data stream transmitted from the transmission unit, the configuration information of the first data stream, and the first data stream. A third configuration information table indicating configuration information of two data streams, the first data stream and Based on the first configuration information table and the third configuration information table acquired from outside the second data stream and received by the receiving unit, a video is generated using the first data stream and the second data stream. And a reception adjustment unit.

  The transmission apparatus according to the present embodiment is a transmission apparatus that transmits a first data stream and a second data stream that extends the first data stream to a reception apparatus, the first data stream and the first data stream together with the first data stream. Transmission means for transmitting a first configuration information table indicating configuration information of a data stream to the receiving device, and transmitting a second configuration information table indicating configuration information of the second data stream together with the second data stream to the receiving device. It comprises.

  The transmission apparatus according to the present embodiment is a transmission apparatus that transmits a first data stream and a second data stream that extends the first data stream to a reception apparatus, the first data stream and the first data stream together with the first data stream. A first configuration information table indicating the configuration information of the data stream is transmitted to the receiving device, and the third configuration information table indicating the configuration information of the first data stream and the configuration information of the second data stream together with the second data stream Is transmitted to the receiving device.

  The transmission apparatus according to the present embodiment is a transmission apparatus that transmits a first data stream and a second data stream that extends the first data stream to a reception apparatus, the first data stream and the first data stream together with the first data stream. Transmitting means for transmitting a first data stream including a first configuration information table indicating configuration information of the data stream to the receiving device and transmitting the second data stream to the receiving device.

  The receiving apparatus according to the present embodiment transmits a first configuration information table indicating configuration information of the first data stream together with the first data stream, and the second data together with a second data stream that extends the first data stream. A receiving device connected to a transmitting device that transmits a second configuration information table indicating stream configuration information, the first data stream, the first configuration information table, and the second data transmitted from the transmitting device. A stream and a receiving means for receiving the second configuration information table; and a video using the first data stream and the second data stream based on the first configuration information table and the second configuration information table. Receiving adjustment means.

  The receiving apparatus according to the present embodiment transmits a first configuration information table indicating configuration information of the first data stream together with the first data stream, and the first data together with a second data stream that extends the first data stream. A receiving device connected to a transmitting device for transmitting stream configuration information and a third configuration information table indicating configuration information of the second data stream, the first data stream transmitted from the transmitting device, 1 configuration table, the second data stream, receiving means for receiving the third configuration table, and a video using the first data stream and the second data stream based on the third configuration information table Receiving adjustment means.

  The receiving apparatus according to the present embodiment transmits a first data stream including a first configuration information table indicating configuration information of the first data stream together with the first data stream, and extends the first data stream. A receiving device connected to a transmitting / transmitting device for transmitting a stream, the receiving unit receiving the first data stream, the first configuration table, and the second data stream transmitted from the transmitting device; The third configuration information table indicating the configuration information of the first data stream and the configuration information of the second data stream is acquired from outside the first data stream and the second data stream, and is received by the receiving unit. Based on the first configuration information table and the third configuration information table, the first data stream and the previous ; And a reception adjustment means constituting the image using the second data stream.

  The stream transmission method according to the present embodiment is a method used in a system for transmitting a first data stream and a second data stream that extends the first data stream from a transmission device to a reception device, the transmission The apparatus transmits a first configuration information table indicating configuration information of the first data stream together with the first data stream to the receiving device, and a second indicating configuration information of the second data stream together with the second data stream. A transmission step of transmitting a configuration information table to the reception device, wherein the reception device transmits the first data stream, the first configuration information table, the second data stream, and the first data transmitted in the transmission step; A receiving step for receiving two configuration information tables, the first configuration information table, and the Based on the second configuration information table, and a reception adjustment step of configuring the image using said second data stream and said first data stream.

  The stream transmission method according to the present embodiment is a method used in a system for transmitting a first data stream and a second data stream that extends the first data stream from a transmission device to a reception device, the transmission The apparatus transmits a first configuration information table indicating configuration information of the first data stream together with the first data stream to the receiving apparatus, and the configuration information of the first data stream and the second data stream together with the second data stream. A transmission step of transmitting a third configuration information table indicating configuration information of a data stream to the reception device, wherein the reception device is configured to transmit the first data stream, the first configuration table, Receiving a second data stream and the third configuration table; Based on the third configuration information table, and a reception adjustment step of configuring the image using said second data stream and said first data stream.

  The stream transmission method according to the present embodiment is a method used in a system for transmitting a first data stream and a second data stream that extends the first data stream from a transmission device to a reception device, the transmission The apparatus transmits a first data stream including a first configuration information table indicating configuration information of the first data stream together with the first data stream to the receiving apparatus, and transmits the second data stream to the receiving apparatus. A receiving step for receiving the first data stream, the first configuration table, and the second data stream transmitted in the transmitting step; and a configuration of the first data stream. A third configuration information table indicating information and configuration information of the second data stream; Based on the first configuration information table and the third configuration information table acquired from outside the first data stream and the second data stream and received by the reception step, the first data stream and the second data stream, And a reception adjustment step of constructing an image using the.

1 is a block diagram showing the overall configuration of a stream transmission system according to the present embodiment. The block diagram which showed the detailed structure of the transmission adjustment part. The block diagram which showed the detailed structure of the reception adjustment part. The figure which shows an example of a data stream and a data packet. The figure which shows an example of a structure information table. The flowchart which shows operation | movement of a transmission adjustment apparatus. The figure which shows the structural example of a structure information table. The figure which shows an example of the storage method of a hash value. The figure which shows the other example of the storage method of a hash value. The flowchart which shows operation | movement of a reception adjustment apparatus.

  Hereinafter, a stream transmission system, a transmission device, a reception device, a stream transmission method, and a program according to the present embodiment will be described with reference to the drawings.

(Device configuration)
FIG. 1 is a block diagram showing the overall configuration of a stream transmission system according to the present invention. The stream transmission system includes a transmission system 1 and a reception system 2 that receives a broadcast wave transmitted from the transmission system. The transmission system 1 is provided, for example, at a digital broadcasting transmission station. The reception system 2 is configured by, for example, an STB (Set Top Box) provided in a television receiver. In the present embodiment, as an example, transmission from the transmission system 1 to the reception system 2 through a transmission channel (first transmission channel) of broadcasting using an existing digital terrestrial broadcast wave and through an IP communication network (second transmission channel). Transmission.

  In FIG. 1, the transmission system 1 includes a transmission adjustment device 10, an encoding device 30, an RF (Radio Frequency) transmission device 50, an IP (Internet Protocol) transmission device 70, and a control unit 90. The reception system 2 includes a reception adjustment device 20, a decoding device 40, an RF reception device 60, an IP reception device 80, and a control unit 91.

  The transmission adjustment device 10 includes a transmission adjustment unit 11. The reception adjustment device 20 includes a reception adjustment unit 21. The encoding device 30 includes an input receiving unit 31 and an encoding conversion unit 32. The decoding device 40 includes a decoding conversion unit 41. The RF transmission device 50 includes an RF transmission unit 51. The RF receiving device 60 includes an RF receiving unit 61. The IP transmission device 70 includes an IP transmission unit 71. The IP receiving device 80 includes an IP receiving unit 81. Further, the display device 100 includes a reproduction display unit 101.

  FIG. 2 is a block diagram illustrating a detailed configuration of the transmission adjustment unit 11 of the transmission adjustment apparatus 10. The transmission adjustment unit 11 includes a data stream buffer 12, a data packet generation 13, a data packet buffer 14, and a transmission determination unit 15.

  FIG. 3 is a block diagram illustrating a detailed configuration of the reception adjustment unit 21 of the reception adjustment device 20. The reception adjustment unit 21 includes a data packet buffer 22, a data stream reconstruction 23, and a data stream buffer 24.

  Here, the data stream refers to a file or bit string including video data and audio data described in a data format used at the input / output of the encoding device 30 or the decoding device 40, and is hierarchically encoded. Data. A data packet refers to a bit string described in a data format used in input / output of a transmission device or a reception device with respect to a transmission path, and is extracted from a data stream and divided into small pieces. . Details of these will be described later.

(Connections and actions of each part)
The control unit 90 controls the transmission adjustment device 10, the encoding device 30, the RF transmission device 50, and the IP transmission device 70. The control unit 91 controls the reception adjustment device 20, the decoding device 40, the RF reception device 60, and the IP reception device 80.

  In the encoding device 30, data input is received by the input receiving unit 31. Here, the data input source is not particularly limited, such as a fixed disk, a network drive, or a camera, as long as the encoding conversion unit 32 can handle it. The encoding conversion unit 32 converts data such as content received from the input reception unit 31 into a data stream including hierarchically encoded data. When the data received from the input receiving unit 31 and the data output from the encoding / conversion unit 32 are in the same format, the processing of the encoding / conversion unit 32 can be omitted. In this case, the transmission adjusting unit 11 may be configured to directly receive data input from the input receiving unit 31.

  In the transmission adjustment device 10, the transmission adjustment unit 11 receives the output of the encoding conversion unit 32, performs adjustment processing necessary for transmission, and transmits it from the RF transmission unit 51 of the RF transmission device 50 to the broadcast transmission path. Then, the data is transmitted from the IP transmission unit 71 of the IP transmission device to the IP communication network. In FIG. 2, the transmission adjustment unit 11 receives an input of a data stream including hierarchically encoded data from the encoding conversion unit 32, stores the data stream in the data stream buffer 12, and then packetizes the data by the data packet generation unit 13. Store in the packet buffer 14. At this time, the transmission determination unit 15 determines the interface (RF or IP) to be transmitted from the data packet buffer 14 and the timing, and the data packet is transmitted to each transmission device according to this determination.

  The data packet transmitted from the RF transmitter 50 is received by the RF receiver 61 of the RF receiver 60 through the broadcast wave. The data packet transmitted to the IP communication network by the IP transmission device 70 is received by the IP reception unit 81 of the IP reception device 80 via the IP communication network. Data packets received by the RF receiver 60 and the IP receiver 80 are input to the reception adjustment unit 21 of the reception adjustment device 20. The reception adjustment unit 21 performs a relationship between data and a synchronization process to obtain an original hierarchically encoded data stream. This data stream is decoded by the decoding conversion unit 41 of the decoding device 40 and displayed on the screen of the reproduction display unit 101 of the display device 100.

  In FIG. 3, the reception adjustment unit 21 of the reception adjustment device 20 stores the data packet received from each reception device in the data packet buffer 22, and then converts the data packet into the original hierarchically encoded data stream in the data stream reconstruction unit 23. It is reconfigured and stored in the data stream buffer 24. The data stream stored in the data stream buffer 24 is sent to the decoding conversion unit 41. However, the timing and the data amount are arbitrary, and the decoding conversion unit 41 may acquire the data stream. May control this operation.

  Next, with reference to FIG. 4, an example of a data stream and a data packet handled in the present system will be shown.

  FIG. 2 shows a basic description format of an H.264 / SVC (Scalable Video Coding) encoded data stream. In FIG. 4, Base indicates a basic hierarchy (first hierarchy) and Ext indicates an extension hierarchy (second hierarchy). Here, there are two extension hierarchies, Ext (A) and Ext (B). The numbers [1] to [4] indicate the index of the access unit.

  FIG. 4B is a summary of the data stream of FIG. 4A sorted by transmission path after being converted into an elementary stream as an intermediate format. In this case, the upper level is basic layer data, and the lower level is extended layer data. “TS” included in each elementary stream indicates a time stamp given when the data stream is converted into an elementary stream.

  FIG. 4C is a data packet obtained by packetizing the transport stream including the elementary stream of FIG. 4B. “H” indicates a header, and “Pld” indicates a payload. The upper level is a data packet including data in the basic layer, and the lower level is a data packet including data in the extended layer. All of the elementary stream data is stored in the payload of the transport stream packet.

  Although FIG. 4 shows only hierarchically encoded data, the transport stream packet in FIG. 4 (c) includes other data such as moving images, audio, section information, and other metadata. But you can.

  Referring to FIG. 2 shows an example of a table (PMT: Program Map Table) indicating configuration information when an H.264 / SVC encoded data stream is converted into a data packet. This configuration information table describes the contents actually adjusted by the data packet generator 13. This content indicates the relevance of the data in the data packet, and is necessary when the data packet received by the reception adjustment unit 21 is reconfigured into a data stream.

(Transmission adjustment processing)
Next, processing of the transmission adjustment apparatus 10 will be described with reference to FIG. Here, a process of outputting the data stream input from the encoding device 30 to the RF transmission device 50 and the IP transmission device 70 will be described. The RF transmission device 50 is a normal digital broadcast transmission facility, and this input / output is equivalent to that.

  First, a data stream including hierarchically encoded data is input from the encoding device 30 to the transmission adjustment device 10 (S101). Upon receiving this data stream input, the transmission adjustment apparatus 10 inputs the data stream into the data stream buffer 12 for buffering (S102). Thereafter, the data packet generator 13 refers to the data stream buffer 12 to determine whether or not a data packet can be generated (S103). If a data packet can be generated, the data packet generator 13 extracts necessary data from the data stream buffer 12 to generate a data packet (S104), and inputs the data packet to the data packet buffer 14 for buffering (S105).

  At this time, in the data stream buffer 12, data packets may be buffered with data indicating the output destination transmission device or the like, or managed separately by individual queues divided for each output destination transmission device. May be. It is the data packet generation unit 13 that determines the output device of the output destination of the data packet, but this determination is transmitted to the transmission adjustment unit 11 in advance by other means such as reading a setting file or operator input, The data packet generator 13 can grasp it.

  In addition, the contents actually adjusted by the data packet generator 13 are described in the configuration information table, which may be included in the data packet and transmitted together, or transferred to another device. The reception adjustment apparatus 20 may be made available by some other means.

  FIG. 7 shows a configuration example of the configuration information table. 7 (a) and 7 (b) show a case of embedding in a stream, and FIG. 7 (c) shows a case of referring to information outside the stream. As shown in FIG. 4 (c), there are two streams (1) and (2). In FIGS. 7 (a) to 7 (c), the table of the stream (1) is an existing broadcasting system. Yes, only a table representing the configuration in the stream (1) is defined so as to be established as a single stream even if independent.

  On the other hand, three variations of the stream (2) table are proposed. In FIG. 7A, only the table representing the configuration in the stream (2) is defined in the table in the stream (2), and all the streams are referred to by referring to the tables in the streams (1) and (2) together. This represents the configuration. In FIG. 7B, the table in the stream (2) has a table representing the configuration of all the streams (1) and (2), so that the table in the stream (1) can be avoided. Is. In FIG. 7C, a table is prepared outside, and the table outside the stream is referred to independently or together with the table of the stream (1).

  Note that the method of storing the configuration information table in the transport stream is based on a normally specified method. In addition, when referring to information outside the transport stream in FIG. 7C, a method of storing and acquiring the information in a server using an XML file or the like can be applied.

  In addition, since the data stream is divided into a plurality of data packet groups for each transmission path, it is necessary to include information for synchronization in order to reconfigure the reception adjustment unit 21.

Normally, fine-grain timing synchronization is included in the transport stream with time stamps (TS1 to TS4) as shown in FIG. 4B, and can be synchronized with reference to this value. However, since transmission conditions and delays differ greatly between RF and IP transmission paths, there are cases where synchronization cannot be achieved correctly using only the time stamp. Further, the RF transmitter 50 is a normal digital broadcast transmission facility, and there is a problem that special information cannot be added because there is a restriction that this input / output is equivalent to that.

  Therefore, in order to synchronize the time stamps, association information with the data packet transmitted by the RF transmission unit 51 is stored in the data packet transmitted by the IP transmission unit 71. For example, the reception adjustment unit 21 can reliably synchronize by transferring the hash value including the time stamp of the base layer data and the actual data from the IP transmission unit 71 together with the data packet of the extension layer. Is possible.

  FIG. 8 and FIG. 9 are diagrams illustrating an example of a specific method for storing hash values.

  FIG. 8 shows a case where the hash value is stored as section data or other PID data in the transport stream. In this case, the hash value data related to the data packet including the data in the upper base layer in FIG. 4C is transferred to the data packet including the data in the lower layer in FIG. Are mixed together in a single transport stream. FIG. 9 shows a case where the hash value is stored as an IP header, payload, or the like outside the transport stream. In this case, the hash value data related to the data packet including the upper layer data in the upper stage in FIG. 4C is the transport stream in the data packet including the extension layer data in the lower stage in FIG. It is mixed out of sync and becomes a single data packet.

  Then, the transmission determination unit 15 refers to the data packet buffer 14 to determine whether there is a data packet to be transmitted via the RF transmission unit 51 (S106). If the destination, timing, and the like are applicable, the RF transmission unit The corresponding data packet is transmitted to 51 (S107). Similarly, the transmission determination unit 15 refers to the data packet buffer 14 to determine whether there is a data packet to be transmitted via the IP transmission unit 71 (S108). If the destination, timing, and the like are applicable, the RF transmission is performed. The corresponding data packet is output to the unit 71 (S109). At this time, a method of transmitting as a broadcast TS from the RF transmitting unit 51 and transmitting as an RTP from the IP transmitting unit 71 can be considered, but a transport protocol or the like is not particularly limited.

(Reception adjustment processing)
FIG. 10 is a flowchart showing the operation of the reception adjustment apparatus 20. With reference to FIG. 10, a process in which the reception adjustment apparatus 20 outputs the data packet input from the RF reception apparatus 60 and the IP reception apparatus 80 to the decoding apparatus 40 will be described.

  First, a data packet including hierarchically encoded data is input from the RF receiver 60 and the IP receiver 80 (S201, S203). The reception adjustment unit 21 stores these data packets in the data packet buffer 22 (S202, S204). Then, the data stream reconstructing unit 23 obtains and refers to the configuration information table in the data packet or by some other means, and reconstructs the data stream based on this (S205, S206). For this reconfiguration, the association information between the IP transmission path and the data packet transferred by the RF transmission section stored in the data packet of the IP transmission path from the transmission adjustment section 11, and the time stamp of each elementary stream Can be used to synchronize and reconfigure.

  The reconstructed data stream includes hierarchically encoded data, is input to the data stream buffer 24 and buffered (S207), and is output to the decoding device 40 in accordance with a request from the control unit 91 (S208, S209). Note that the contents of the data stream input to the transmission adjustment unit 11 and the data stream output from the reception adjustment unit 21 are basically data including the same contents unless there is data loss due to packet loss or the like during transmission. .

  As described above, according to the above-described embodiment, H.264 has been described. It is possible to absorb differences that occur when video data encoded in the H.264 / SVC format or the like is transmitted and received using a plurality of different types of transmission paths (for example, broadcasting and communication). Therefore, the broadcast side can improve the quality of the reproduced video and the like by combining the received data on the communication side while operating the existing broadcast wave digital broadcast transmission equipment and receiver as they are.

(Modification 1)
In the first embodiment, the base layer data transmission is made redundant in the above embodiment. The IP transmission unit 71 transmits the base layer data transmitted on the RF side together with the extension layer data transmitted on the IP side through the IP communication network. However, on the IP side, a single data packet group may be generated from the basic layer data and the extended layer data transmitted by the data packet generation unit 13 of the transmission adjustment unit 11, or separate data packets may be generated. You may transmit as a group.

  Also in the first modification, as in the above embodiment, the RF side operates the existing broadcast wave transmission / reception equipment as it is, and further improves the quality of the reproduced video and the like by combining the received data on the IP side. It becomes possible to plan. Furthermore, even when there is data loss due to packet loss or the like on the RF side, it is possible to reliably reproduce data only on the IP side.

(Modification 2)
In the above embodiment, the RF transmission device 50 is a normal digital broadcast transmission facility, and there is a restriction that this input / output also conforms thereto. However, in the second modification, various parameters on the RF side are not limited to this restriction. It is assumed that the system can be changed significantly and the system revision can be changed arbitrarily. In this case, it is possible to store association information for synchronization in each packet of the RF transmission path and the IP transmission path. This information is stored, for example, in a transport packet, stored in a transport packet flow like PCR, or like TTS or PartialTS in the data packet generation unit 13 of the transmission adjustment unit 11. Or stored in the header or trailer of the TS packet, or stored in the header or trailer of the RTP packet.

  In addition, although some embodiment of this invention was described, these embodiment is shown as an example and is not intending limiting the range of invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

  DESCRIPTION OF SYMBOLS 1 ... Transmission system, 2 ... Reception system, 10 ... Transmission adjustment apparatus, 11 ... Transmission adjustment part, 20 ... Reception adjustment apparatus, 21 ... Reception adjustment part, 30 ... Encoding apparatus, 31 ... Input reception part, 32 ... Encoding Conversion unit, 40 ... decoding device, 41 ... decoding conversion unit, 50 ... RF transmission device, 51 ... RF transmission unit, 60 ... RF reception device, 61 ... RF reception unit, 70 ... IP transmission device, 71 ... IP transmission , 80 ... IP receiver, 82 ... IP receiver, 90 ... controller, 91 ... controller, 100 ... display device, 101 ... playback display unit, 12 ... data stream buffer, 13 ... data packet generator, 14 ... Data packet buffer, 15... Transmission determination unit, 22... Data packet buffer, 23... Data stream reconstruction unit, 24.

Claims (14)

A system for transmitting a first data stream and a second data stream extending the first data stream from a transmitting device to a receiving device,
The transmitter is
A second configuration information table that transmits the first configuration information table indicating the configuration information of the first data stream together with the first data stream to the receiving device, and indicates the configuration information of the second data stream together with the second data stream. Comprising a transmitting means for transmitting to the receiving device,
The receiving device is:
Receiving means for receiving the first data stream, the first configuration information table, the second data stream, and the second configuration information table transmitted from the transmitting means;
A stream transmission system comprising: reception adjusting means for configuring a video using the first data stream and the second data stream based on the first configuration information table and the second configuration information table. . A system for transmitting a first data stream and a second data stream extending the first data stream from a transmitting device to a receiving device,
The transmitter is
A first configuration information table indicating configuration information of the first data stream together with the first data stream is transmitted to the receiving device, and the configuration information of the first data stream and the second data stream of the second data stream are transmitted together with the second data stream. Comprising a transmission means for transmitting a third configuration information table indicating configuration information to the receiving device;
The receiving device is:
Receiving means for receiving the first data stream, the first configuration table, the second data stream, and the third configuration table transmitted from the transmitting means;
A stream transmission system comprising: a reception adjusting unit that configures an image using the first data stream and the second data stream based on the third configuration information table. A system for transmitting a first data stream and a second data stream extending the first data stream from a transmitting device to a receiving device,
The transmitter is
Transmitting means for transmitting a first data stream including a first configuration information table indicating configuration information of the first data stream together with the first data stream to the receiving device, and transmitting the second data stream to the receiving device. Equipped,
The receiving device is:
Receiving means for receiving the first data stream, the first configuration table, and the second data stream transmitted from the transmitting means;
The third configuration information table indicating the configuration information of the first data stream and the configuration information of the second data stream is acquired from outside the first data stream and the second data stream, and received by the receiving unit A stream transmission system comprising: reception adjusting means for configuring video using the first data stream and the second data stream based on the first configuration information table and the third configuration information table.   The stream transmission system according to any one of claims 1 to 3, wherein the configuration information table is a PMT (Program Map Table). The first data stream and the second data stream include synchronization information of each other,
The said reception adjustment means comprises an image | video using the said 1st data stream and the said 2nd data stream further based on the said synchronization information, The any one of Claim 1 thru | or 3 characterized by the above-mentioned. Stream transmission system. A transmission device that transmits a first data stream and a second data stream that extends the first data stream to a reception device;
A second configuration information table that transmits the first configuration information table indicating the configuration information of the first data stream together with the first data stream to the receiving device, and indicates the configuration information of the second data stream together with the second data stream. A transmission device comprising: a transmission means for transmitting a message to the reception device. A transmission device that transmits a first data stream and a second data stream that extends the first data stream to a reception device;
A first configuration information table indicating configuration information of the first data stream together with the first data stream is transmitted to the receiving device, and the configuration information of the first data stream and the second data stream of the second data stream are transmitted together with the second data stream. A transmission apparatus comprising: a transmission unit configured to transmit a third configuration information table indicating configuration information to the reception apparatus. A transmission device that transmits a first data stream and a second data stream that extends the first data stream to a reception device;
Transmitting means for transmitting a first data stream including a first configuration information table indicating configuration information of the first data stream together with the first data stream to the receiving device, and transmitting the second data stream to the receiving device. A transmitting apparatus comprising: A second configuration that transmits the first configuration information table indicating the configuration information of the first data stream together with the first data stream, and indicates the configuration information of the second data stream together with the second data stream that extends the first data stream A receiving device connected to a transmitting device for transmitting the information table,
Receiving means for receiving the first data stream, the first configuration information table, the second data stream, and the second configuration information table transmitted from the transmission device;
A receiving apparatus comprising: a reception adjusting unit that configures an image using the first data stream and the second data stream based on the first configuration information table and the second configuration information table. A first configuration information table indicating configuration information of the first data stream is transmitted together with the first data stream, and the configuration information of the first data stream and the second data are transmitted together with a second data stream extending the first data stream. A receiving device connected to a transmitting device for transmitting a third configuration information table indicating stream configuration information,
Receiving means for receiving the first data stream, the first configuration table, the second data stream, and the third configuration table transmitted from the transmission device;
A receiving apparatus comprising: a reception adjusting unit that configures an image using the first data stream and the second data stream based on the third configuration information table. A first data stream including a first configuration information table indicating configuration information of the first data stream is transmitted together with the first data stream, and is connected to a transmission / reception apparatus that transmits a second data stream extending the first data stream. A receiving device,
Receiving means for receiving the first data stream, the first configuration table, and the second data stream transmitted from the transmitting device;
The third configuration information table indicating the configuration information of the first data stream and the configuration information of the second data stream is acquired from outside the first data stream and the second data stream, and received by the receiving unit A receiving apparatus comprising: a reception adjusting unit that configures an image using the first data stream and the second data stream based on the first configuration information table and the third configuration information table. A method used in a system for transmitting a first data stream and a second data stream extending the first data stream from a transmitting device to a receiving device,
The transmitter is
A second configuration information table that transmits the first configuration information table indicating the configuration information of the first data stream together with the first data stream to the receiving device, and indicates the configuration information of the second data stream together with the second data stream. Transmitting to the receiving device,
The receiving device is:
Receiving the first data stream, the first configuration information table, the second data stream, and the second configuration information table transmitted in the transmission step;
A stream transmission method comprising: a reception adjustment step of configuring a video using the first data stream and the second data stream based on the first configuration information table and the second configuration information table. A method used in a system for transmitting a first data stream and a second data stream extending the first data stream from a transmitting device to a receiving device,
The transmitter is
A first configuration information table indicating configuration information of the first data stream together with the first data stream is transmitted to the receiving device, and the configuration information of the first data stream and the second data stream of the second data stream are transmitted together with the second data stream. A transmission step of transmitting a third configuration information table indicating configuration information to the receiving device;
The receiving device is:
Receiving the first data stream, the first configuration table, the second data stream, and the third configuration table transmitted by the transmitting step;
A stream transmission method, comprising: a reception adjustment step of configuring a video using the first data stream and the second data stream based on the third configuration information table. A method used in a system for transmitting a first data stream and a second data stream extending the first data stream from a transmitting device to a receiving device,
The transmitter is
A transmission step of transmitting a first data stream including a first configuration information table indicating configuration information of the first data stream together with the first data stream to the receiving device, and transmitting the second data stream to the receiving device. Have
The receiving device is:
Receiving the first data stream, the first configuration table, and the second data stream transmitted by the transmitting step;
The third configuration information table indicating the configuration information of the first data stream and the configuration information of the second data stream is acquired from outside the first data stream and the second data stream, and received by the receiving step A stream transmission method comprising: a reception adjustment step of configuring video using the first data stream and the second data stream based on the first configuration information table and the third configuration information table.