JP4282258B2 - Digital broadcast signal multiplex transmission device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a digital broadcast signal multiplex transmission apparatus for performing data broadcasting in a digital broadcasting system such as satellite broadcasting and terrestrial broadcasting.
[0002]
[Prior art]
In recent years, with the establishment of digital broadcasting technology, digital broadcasting has been started in satellite broadcasting systems using communication satellites and broadcasting satellites, and the transition to digital broadcasting is also planned in terrestrial broadcasting systems.
[0003]
In the above digital broadcasting stations, data broadcasting such as text broadcasting is performed in addition to television broadcasting. In data broadcasting, various information programs are broadcast, and information linked to the television broadcast program, information independent of the television broadcast program, and the like are provided therein. An example is shown in Japanese Patent Application Laid-Open No. 2001-111969.
[0004]
[Problems to be solved by the invention]
By the way, in the broadcasting station, in order to absorb the difference between the transmission rate of the television broadcast signal and the transmission rate of the multiplexed signal, an invalid null is generated between the material packets indicating the television broadcast program in the television broadcast signal. A packet is inserted, and when the data broadcast signal is multiplexed with the television broadcast signal, the null packet is replaced with a material packet indicating a data broadcast program.
[0005]
However, the transmission rate of the television broadcast signal varies depending on the program and the video scene, and in some cases, the bandwidth that can be used for data broadcasting is narrowed. It will be replaced. For this reason, it is difficult to efficiently perform data transmission of fine data broadcasting according to priority.
[0006]
SUMMARY OF THE INVENTION An object of the present invention is to provide a digital broadcast signal multiplex transmission device that can multiplex and broadcast data broadcast data with high priority on a television broadcast signal flexibly and efficiently even when the broadcast band fluctuates. May provide.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, a digital broadcast signal multiplex transmission apparatus according to the present invention is configured as follows.
(1) First transmission in which a plurality of first information packets including information related to a first service broadcast program are arranged with a fixed amount of data, and invalid dummy packets are inserted between the first information packets Periodic information including a first service broadcast signal of a rate, a plurality of second material information packets indicating the materials of a second service broadcast program each having a priority set, and control information related to the second service broadcast program It is used in a digital broadcasting system that broadcasts a second service broadcast signal having a second transmission rate including a packet, and a second service broadcast signal is multiplexed on the first service broadcast signal to generate a transmission signal having the first transmission rate. A digital broadcast signal multiplex transmission device to generate,
Separating means for separating the input first and second service broadcast signals into a plurality of first information packets, a plurality of second material information packets, and a periodic information packet, and a plurality of first packets separated by the separating means. A plurality of buffers storing one information packet, a plurality of second material information packets, and a periodic information packet for each information by a predetermined number of packets, and a multiplexing means for selectively multiplexing the outputs of the plurality of buffers, A plurality of first information packets are sequentially read from a plurality of buffers and given to the multiplexing means, and a periodic information packet is read from the plurality of buffers and given to the multiplexing means during the dummy packet insertion period in the transmission signal, and And a multiplex control means for selectively giving the second service material information packet to the multiplex means in accordance with the priority order. A.
[0008]
According to the invention of (1), the first service broadcast signal and the second service broadcast signal are separated into a plurality of first information packets, a plurality of second service material information packets and a periodic information packet, The information is stored in a plurality of buffers prepared for each information, and the dummy packet included in the first service broadcast signal is not stored in the buffer. Then, at the transmission rate of the first service broadcast signal, the plurality of first information packets are sequentially read out from the plurality of buffers and multiplexed into the transmission signal, and the period from the plurality of buffers in the dummy packet insertion period. The information packet and the plurality of second service material information packets are read out in the descending order of priority and multiplexed on the transmission signal.
[0009]
Therefore, even if the transmission rate of the first service broadcast signal exceeds a predetermined threshold value, the second service material information packet and the period information packet having at least the highest priority are handled in a relatively flexible manner. The second service broadcast signal can be optimally transmitted in accordance with the band fluctuation, such as being multiplexed with the transmission signal and transmitted. In addition, it is possible to efficiently transmit the second service material information packet having a high priority by effectively using the limited second service broadcast band in the broadcast band.
[0010]
(2) In the invention of (1), when the first service broadcast signal is a television broadcast signal and the second service broadcast signal is a data broadcast signal, the multiplex control means separately includes the television broadcast signal. In the case where a program information packet including control information relating to a broadcast program is provided, the program information packet is provided with a function of giving the program information packet to the multiplexing means during the dummy packet insertion period of the transmission signal.
[0011]
According to (2), separately provided program information packets can be efficiently multiplexed on a television broadcast signal, so that, for example, when information is replaced or a program is changed without being affected by fluctuations in the broadcast band. Etc., the program information packet corresponding to the replacement or program change can be multiplexed with the television broadcast signal and transmitted.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0013]
FIG. 1 is a block diagram showing an embodiment of an in-station system to which a digital broadcast signal multiplex transmission apparatus according to the present invention is applied.
[0014]
As shown in the figure, this system includes encoders (ENC) 11 and 12, a multiplexer (MUX) 13, an encoding multiplex control unit (EMC) 14, a data broadcast transmission unit 15, and an automatic program transmission control unit. (APC) 16, a local clock 17, and a data server (DS) 18 are provided.
[0015]
The encoder 11 compresses and encodes the video signal of the television broadcast program using the MPEG2 encoding method, generates a television broadcast transport stream (TS), and outputs it to the multiplexer 13. The encoder 12 compresses and encodes the audio signal of the television broadcast program using an AAC (Advanced Audio Coding) encoding method, generates a transport stream, and outputs the transport stream to the multiplexer 13.
[0016]
The multiplexer 13 multiplexes the outputs of the encoders 11 and 12 and the data broadcast transport stream output from the data broadcast transmission unit 15 and transmits the multiplexed data as a transport stream (TS) for transmission. Further, based on the information output from the encoding and multiplexing control unit 14, data such as PMT (Program Map Table), PAT (Program Association Table), etc. are generated and multiplexed on a transport stream for transmission.
[0017]
The encoding multiplex control unit 14 controls the encoders 11 and 12 and the multiplexer 13 based on the instruction information provided from the automatic program transmission control unit 16, the broadcast schedule data, and the knitting time measured by the local clock 17. Note that the PMT and PAT include information related to programs and information indicating whether or not data broadcasting data is included in the transport stream.
[0018]
The data broadcast sending unit 15 sends the packet-structured data broadcasting TS to the multiplexer 13 based on the instruction information provided from the automatic program sending control unit 16.
[0019]
The automatic program transmission control unit 16 transmits instruction information to the encoding multiplexing unit 14 and the data broadcast transmission unit 15 according to the broadcast schedule data provided from the data server 18 and the program scheduling time measured by the local clock 17. The encoding and multiplexing process of the encoding and multiplexing unit 14 is controlled, and the transmission process of the data broadcast transmitting unit 15 is controlled.
[0020]
FIG. 2 is a block diagram showing a specific configuration of the multiplexer 13.
[0021]
As shown in the figure, the multiplexer 13 includes packet filter units 131, 132, and 133, buffers 1341 to 134n, 1351 to 135m, and 1361 to 136p, a selector 137, a counter 138, a multiplexing processing unit 139, and a multiplexing unit. A determination unit 140, a transmission cycle management unit 141, a TS generation buffer 142, and a buffer monitoring unit 143 are provided.
[0022]
The packet filter unit 131 separates TS packet sequences output from the encoders 11 and 12, and holds a predetermined number of buffers in each of the buffers 1341 to 134n.
[0023]
The packet filter unit 132 converts a PSI (Program Specific Information) / SI (Specific Information) packet sequence including control information related to a television broadcast program sent separately from the TS packet sequence output from the encoders 11 and 12 into data. The packets are separated according to the packet priority order notified from the server 18, and a predetermined number of them are held in the respective buffers 1351 to 135m.
[0024]
The packet filter unit 133 separates the data broadcast TS packet sequence output from the data broadcast transmission unit 15 in accordance with the packet priority order notified from the data server 18, and stores a predetermined number of each information in each of the buffers 1351 to 135m. .
[0025]
The selector 137 selectively derives the outputs of the buffers 1341 to 134n, 1351 to 135m, and 1361 to 136p.
[0026]
The counter 138 counts the number of packets output from the selector 137, and when it is less than the predetermined number, inserts a null packet into the transport stream and outputs it.
[0027]
The multiplex processing unit 139 monitors the packet contents of the buffers 1341 to 134n, 1351 to 135m, and 1361 to 136p, and sends the monitoring results to the multiplex determination unit 140. Control of reading the packets held in 1341 to 134n, 1351 to 135m, and 1361 to 136p is performed. The determination result includes the transmission rate of the television broadcast transport stream (TS).
[0028]
For example, the TS generation buffer 142 once holds a predetermined number of packet sequences coming from the encoding and multiplexing control unit 14 via the LAN, and outputs them to the selector 137 under the control of the multiplexing processing unit 139.
[0029]
The number of packets and the packet contents held in the TS generation buffer 142 are managed by the transmission cycle management unit 141.
[0030]
The buffer monitoring unit 143 monitors the number of packets held in each of the buffers 1341 to 134n, 1351 to 135m, and 1361 to 136p.
[0031]
Next, the processing operation of the above configuration will be described below.
First, as shown in FIG. 3, the basic concept of transmission is to use the remaining bandwidth of the bandwidth used for video / audio of a television broadcast program. Since video / audio in digital broadcasting employs a compression encoding technique defined in MPEG2, the band for television broadcasting varies depending on the video scene.
[0032]
Currently, the data broadcasting TS is transmitted at a fixed bit rate with a margin of extra bandwidth from the maximum video / audio code amount in advance, so nothing is multiplexed when the video / audio code amount decreases. Bandwidth is generated and wasted.
[0033]
Therefore, in this embodiment, the data broadcast TS packet sequence output from the data broadcast transmission unit 15 is input to the multiplexer 13 as it is, and the multiplexer 13 performs transmission control of the data broadcast TS packet sequence according to the band fluctuation. The state of the transmission control in this case is shown in FIGS.
[0034]
4A shows the output of the encoders 11 and 12, FIG. 4B shows the output of the data broadcast sending unit 15, FIG. 4C shows the output of the multiplexer 13, and in each figure, A is for television broadcasting. TS packet, B is an unnecessary null packet, C is a data broadcasting TS packet having the highest priority, D is a data broadcasting TS packet having a lower priority than C, and E is a TS packet that is efficiently multiplexed. It is shown that.
[0035]
Here, the multiplexer 13 inputs the television broadcast TS packet sequence from the encoders 11 and 12 to the packet filter unit 131 and separates it into a television broadcast TS packet and a null packet, and then only the television broadcast TS packet. Are sequentially stored in each of the buffers 1341 to 134n. The packets held in the buffers 1341 to 134n are monitored by the multiprocessing unit 139, and the monitoring result is notified to the multiplexing determination unit 140.
[0036]
Further, the multiplexer 13 inputs the data broadcast TS packet sequence from the data broadcast transmission unit 15 to the packet filter unit 133, and, for example, the first data broadcast TS packet linked to the television broadcast program, the television broadcast program, and the like. Is separated into independent second data broadcast TS packets, DII section packets, and event message section packets, and then a predetermined number of packets are sequentially held in the buffers 1361 to 136p in accordance with the priority order notified from the data server 18. . The packets held in the buffers 1361 to 136p are monitored by the multiplex processing unit 139, and the monitoring result is notified to the multiplex determination unit 140.
[0037]
In the multiplex processing unit 139, when the determination result from the multiplex determination unit 140 is given, the transmission rate of the television broadcasting TS is determined from the determination result. Based on the determination result, the television buffers are output from the output buffers 1341 to 134n. Broadcast TS packets are sequentially read and given to the selector 137.
[0038]
The multiprocessing unit 139 reads TS packets including PSI / SI from each of the buffers 1351 to 135m and reads the first data broadcast TS packet and the second data from each of the buffers 1361 to 136p during a period in which the null packet is to be read. The data broadcasting TS packet is selectively read according to the priority order, the DII section packet and the event message section packet are read and given to the selector 137. Then, the packet sequence as shown in FIG.
[0039]
As a result, transmission of data of a high-priority data broadcast program associated with a video scene such as a quiz problem or one scene of a drama is affected even if the video / audio code amount of the television broadcast program is maximized. It is possible to transmit without giving.
[0040]
When the transmission rate of the television broadcasting TS exceeds a predetermined threshold, for example, the buffer 1362 continues to hold data broadcasting TS packets with low priority. The accumulation amount of the buffer 1362 is always notified to the buffer monitoring unit 143. The buffer monitoring unit 143 monitors the accumulation amount of the buffer 1362 and, when exceeding the predetermined amount, notifies the data broadcast transmission unit 15 of buffer information for stopping the transmission of the data broadcast TS packet.
[0041]
As described above, in the above-described embodiment, the packet filter units 131 to 133 and the buffers 1341 to 134n, 1351 to 135m, and 1361 to 136p are provided, and the television broadcast TS is converted into the television broadcast TS packet by the packet filter unit 131. And only the television broadcast TS packets are held in the buffers 1341 to 134n. Further, the data broadcasting TS is separated into a first data broadcasting TS packet, a second data broadcasting TS packet, a DII section packet, and an event message section packet by the packet filter unit 133, and a buffer 1361 is provided for each packet. It is made to hold | maintain at 136p. The multiplex processing unit 139 sequentially reads out the television broadcast TS packets from the buffers 1341 to 134n at the transmission rate of the television broadcast TS and supplies them to the selector 137, and also inserts the buffer 1361 into the buffer 136 The DII section packet and the event message section packet are read from 136p and given to the selector 137, and the first and second data broadcasting TS packets are read in order of priority and given to the selector 137.
[0042]
Therefore, even if the transmission rate of the television broadcasting TS exceeds a predetermined threshold value, the data broadcasting TS packet, the DII section packet, and the event message section packet having a high priority are dealt with relatively flexibly. Can be optimally transmitted according to the fluctuation of the transmission rate. Further, it is possible to efficiently transmit data broadcasting TS packets with high priority by effectively using a limited data broadcasting band in the broadcasting band.
[0043]
In addition, when the bandwidth occupancy rate for television broadcasting shows the minimum, it is possible to transmit all programs within the transmittable band so that the user can promptly view the data broadcast program whenever the user starts reception. Therefore, since the broadcasting band for data broadcasting is fixed as in the prior art, there is no waste in the band, so that optimum data transmission according to the fluctuation of the band can be performed. That is, it is possible to increase the effective utilization rate of the entire broadcast band.
[0044]
Further, in a state where the bandwidth occupancy rate for television broadcasting exceeds a predetermined threshold value, the buffer monitoring unit 136 monitors the storage amount of the output buffers 1341-1344, and the storage amount exceeds the predetermined amount. Since the data broadcast packet stop control is performed on the data broadcast transmission unit 15, it is not necessary to replace the output buffers 1341-1344 with a large-capacity buffer. It ’s easy.
[0045]
In the above embodiment, the multiprocessing unit 139 reads out the PSI / SI packets held in the buffers 1351 to 135m and gives them to the selector 137 during the period in which the null packet is to be inserted. For example, when an information change or program change occurs, the PSI / SI packet corresponding to the change or program change can be multiplexed and transmitted to the transmission TS without being affected by the fluctuation of .
[0046]
The present invention is not limited to the above embodiment. For example, in the above-described embodiment, when the transmission rate for television broadcasting exceeds a predetermined threshold, the data broadcasting packet, the DII section packet, and the event message section packet with high priority are transmitted. Only the highest priority data broadcast packet and DII section packet may be included. The use of event messages is not necessarily required depending on the content. In addition, the fixed bandwidth can be set arbitrarily, and depending on the setting, it is possible to always transmit data broadcast packets with the first, second, and third priorities.
[0047]
In the above embodiment, the packet filter unit 133 uses the data broadcast data based on the organization information from the data server 18 to generate the first data broadcast packet, the second data broadcast packet, the DII section packet, and the event message section. I was trying to separate the packets. However, the present invention is not limited thereto, and based on a predetermined control information packet included in the data broadcasting data, the first data broadcasting packet, the second data broadcasting packet, the DII section packet, and the event message section packet are generated from the data broadcasting data. May be separated.
[0048]
Furthermore, in the above-described embodiment, the television broadcasting system using the fixed reception service has been described. However, for example, the present invention can be applied to a mobile broadcasting system using a portable receiving terminal and a broadcasting system for a portable terminal. The present invention can also be applied to a computer system using a leased line network or the Internet.
[0049]
In addition, the configuration of the in-station system, the type and configuration of the multiplexer, the TS packet multiplexing control procedure in the multiplexer, the contents of the TS packet, and the like can be variously modified and implemented without departing from the gist of the present invention.
[0050]
【The invention's effect】
As described above in detail, according to the present invention, even when the broadcast band fluctuates, digital broadcasting that allows data broadcast with high priority to be multiplexed and broadcast on a television broadcast signal flexibly and efficiently. A signal multiplex transmission device can be provided.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an embodiment of an in-station system to which a digital broadcast signal multiplex transmission apparatus according to the present invention is applied.
FIG. 2 is a block diagram showing a specific configuration of the multiplexer shown in FIG. 1. FIG. 3 is a timing chart showing a band relationship between a television broadcast signal and a data broadcast signal in the embodiment.
FIG. 4 is a timing chart for explaining a processing operation in the embodiment.
[Explanation of symbols]
11, 12 ... Encoder (ENC),
13: Multiplexer (MUX),
14 ... Encoding multiplex control unit (EMC),
15: Data broadcast sending section,
16 ... Automatic program transmission control part (APC),
17 ... Clock clock,
18 ... Data server (DS),
131-133 ... packet filter part,
1341-134n, 1351-135m, 1361-136p ... buffer,
137 ... selector,
138 ... Counter,
139 ... multiple processing unit,
140 ... multiple determination unit,
141... Transmission cycle management unit,
142 ... TS generation buffer,
143: Buffer monitoring unit.

Claims (5)

A plurality of first information packets including the first service broadcast program material and control information related to the program are arranged with a fixed amount of data, and invalid dummy packets are inserted between the first information packets. The first service broadcast signal of the first transmission rate, a plurality of second material information packets indicating the materials of the second service broadcast program, each of which has a priority set, and control information related to the second service broadcast program Is used in a digital broadcast system that broadcasts a second service broadcast signal having a second transmission rate including a periodic information packet including the first service broadcast signal, and the second service broadcast signal is multiplexed with the first service broadcast signal. A digital broadcast signal multiplex transmission device for generating a transmission signal of one transmission rate,
The plurality of first information packets and the dummy packet are separated from the input first service broadcast signal, and the plurality of second material information packets and the period are input from the input second service broadcast signal. Separating means for separating information packets;
A plurality of buffers for storing a plurality of first information packets, a plurality of second material information packets, and a period information packet separated by the separating means for a predetermined number of packets for each information;
Multiplexing means for selectively multiplexing the outputs of the plurality of buffers;
The plurality of first information packets are sequentially read out from the plurality of buffers according to the first transmission rate and provided to the multiplexing means, and the period information is output from the plurality of buffers during a dummy packet insertion period in the transmission signal. A multiplexing control means for reading out and giving packets to the multiplexing means, and selectively giving the plurality of second service material information packets to the multiplexing means according to priority;
The plurality of second material information packets and period information packets stored in the plurality of buffers are monitored, and when the number of packets respectively stored in the plurality of buffers exceeds a predetermined number, the second service broadcast A digital broadcast signal multiplex transmission device comprising buffer monitoring means for performing stop control on a signal transmission source . A plurality of television broadcast information packets including television broadcast program material and control information related to the program are arranged with a fixed amount of data, and invalid dummy packets are inserted between the television broadcast information packets. A second transmission rate including a television broadcast signal of one transmission rate, a plurality of data broadcast material packets each indicating a material of a data broadcast program with priority set, and a periodic information packet including control information related to the data broadcast program A digital broadcast signal multiplex transmission device that is used in a digital broadcast system that broadcasts the data broadcast signal of the first broadcast rate and multiplexes the data broadcast signal with the television broadcast signal to generate a transmission signal of a first transmission rate,
Separating means for separating the plurality of television broadcast information packets and the dummy packets from the inputted television broadcast signal, and separating the plurality of data broadcast material packets and the periodic information packet from the inputted data broadcast signal When,
A plurality of buffers for storing a plurality of television broadcast information packets, a plurality of data broadcast material packets, and a periodic information packet separated by the separation means for a predetermined number of packets for each information;
Multiplexing means for selectively multiplexing the outputs of the plurality of buffers;
The plurality of television broadcast information packets are sequentially read from the plurality of buffers according to the first transmission rate and supplied to the multiplexing means, and the periodic information packets are output from the plurality of buffers during the dummy packet insertion period of the transmission signal. Multiplex control means for reading out and giving to the multiplexing means, and selectively giving the plurality of data broadcast material packets to the multiplexing means according to a priority order;
The plurality of data broadcast material packets and period information packets stored in the plurality of buffers are monitored, and when the number of packets stored in the plurality of buffers exceeds a predetermined number, the data broadcast signal transmission source A digital broadcast signal multiplex transmission device comprising buffer monitoring means for performing stop control on the digital broadcast signal. A plurality of television broadcast information packets including television broadcast program material and control information related to the program are arranged with a fixed amount of data, and invalid dummy packets are inserted between the television broadcast information packets. A television broadcast signal of one transmission rate, a plurality of data broadcast material packets indicating data broadcast program materials each having a priority set, a periodic information packet including control information related to the data broadcast program, and other additional information. Used in a digital broadcasting system that broadcasts a data broadcast signal having a second transmission rate including the included event message information packet, and generates a transmission signal having a first transmission rate by multiplexing the data broadcast signal with the television broadcast signal. A digital broadcast signal multiplex transmission device,
The plurality of television broadcast information packets and the dummy packet are separated from the input television broadcast signal, and the plurality of data broadcast material packets, the period information packet and the event message information are input from the input data broadcast signal. Separating means for separating packets;
A plurality of buffers for storing a plurality of television broadcast information packets, a plurality of data broadcast material packets, a period information packet, and an event message information packet separated by the separation means for each information by a predetermined number of packets;
Multiplexing means for selectively multiplexing the outputs of the plurality of buffers;
The plurality of television broadcast information packets are sequentially read from the plurality of buffers according to the first transmission rate and supplied to the multiplexing means, and the periodic information packets are output from the plurality of buffers during the dummy packet insertion period of the transmission signal. And a multiplexing control means for reading out the event message information packet and giving it to the multiplexing means, and selectively giving the plurality of data broadcast material packets to the multiplexing means according to a priority order;
The plurality of data broadcast material information, period information, and event message information packets stored in the plurality of buffers are monitored, and when the number of packets stored in the plurality of buffers exceeds a predetermined number, the data A digital broadcast signal multiplex transmission apparatus comprising buffer monitoring means for performing stop control on a broadcast signal transmission source .   The multiplexing control means is a function of providing the multiplexing information to the program information packet during a dummy packet insertion period of the transmission signal when a program information packet including control information related to the television broadcast program is provided separately. The digital broadcast signal multiplex transmission apparatus according to claim 2 or 3, characterized by comprising:   4. The digital broadcast signal multiplex transmission apparatus according to claim 2, wherein the separation unit has a function of separating the data broadcast signal under control from outside.

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