JP2004165753A - Terrestrial digital broadcasting network system, stl/ttl transmission packet structure, packet conversion processing apparatus, and control/monitor information transmission method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To simultaneously transmit control / monitor information to an optional relay stage while suppressing the processing delay time in relay stages. <P>SOLUTION: An AC1 field assigned to an ACI1 field of a broadcast TS packet in addition to basic information is specified to a TMCC storage field in an STL / TTL transmission packet. The AC1 field in the TMCC field in the transmission packet is used for transmission of e.g., the control / monitor information to simultaneously apply controlling / monitoring to each relay stage. In this case, simultaneous information stored in the AC1 field in the TMCC field of the transmission packet is automatically assigned to the AC1 field in the TMCC fields in the case of conversion into the broadcast TS packet and transmitted while being automatically assigned to the AC1 field in the TMCC filed in the transmission packet in the case of conversion into the transmission packet after transmission in a station, then the packet is automatically distributed to all the relay stages and it is not required to re-superimpose the information in each relay stage. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a terrestrial digital broadcasting network system for performing multistage relay transmission of terrestrial digital broadcasting, and more particularly to an STL / TTL transmission packet structure, a packet conversion processing device, and a control / monitoring information transmission method.
[0002]
[Prior art]
In Japan, the operation of digital terrestrial broadcasting is scheduled to start recently. Unlike conventional analog broadcasting, the relay transmission in digital terrestrial broadcasting does not use broadcast waves, but uses an STL (Study to Transmitter Link) or TTL (Transmitter to Transmitter) using another line such as a microwave line or an optical line. Link) and multistage relay is assumed.
[0003]
In a broadcasting network system that performs such multi-stage relay transmission, studies are currently being made on a format structure between a TS (Transport Stream) packet and an STL / TTL transmission packet. One of the issues in this study is how to transmit control / monitoring information to the relay stage. At this stage, in TS-STL / TTL transmission, studies are being made on a line-by-line (one-facing) basis, but the specification of simultaneous transmission of control / monitoring information in multistage relaying is at issue.
[0004]
That is, in the relaying station, the received STL / TTL transmission packet must be converted once into the format of the broadcast TS packet, and the control / monitoring information must be extracted once. For this reason, when transmitting the control monitoring information to the relay station at the subsequent stage, when converting the broadcast TS packet to the TTL transmission packet, a process of superimposing the control / monitoring information again is necessary. Therefore, in the control monitoring information transmission in units of one line, as the number of relay stages increases, the delay time due to the re-superimposition process accumulates.
[0005]
In this specification, the term "relay station" means a station that relays and transmits information. For example, the term "relay station" means not only the relationship between a master station and a slave station, but also when relaying information between master stations. Shall be included.
[0006]
[Problems to be solved by the invention]
The present invention has been made in view of the above circumstances, and when performing multistage relay transmission of digital terrestrial broadcasting, simultaneously transmits control / monitoring information for any relay stage while suppressing processing delay time in the relay stage. It is an object of the present invention to provide a terrestrial digital broadcasting network system, an STL / TTL transmission packet structure, a packet conversion processing device, and a control / monitoring information transmission method.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, the digital terrestrial broadcasting network system according to the present invention converts a broadcast TS (Transport Stream) packet into a transmission packet defined by STL (Study to Transmitter Link) / TTL (Transmitter to Transmitter Link). Then, the present invention is applied to a system that performs multi-stage relaying by transmission between a plurality of stations connected by STL / TTL lines.
[0008]
In the transmission packet, a specific area to which control / monitoring information for an arbitrary station is assigned is defined in advance.
[0009]
The plurality of stations receive reception processing means for receiving and demodulating a transmission packet from the STL / TTL line, and transmit control / monitoring information superimposed on the specific area from the transmission packet demodulated by the reception processing means. Read and assign the control / monitoring information to a predetermined AC (Aux Channel) area in a Transmission and Multiplexing Configuration Control (TMCC) area defined in the broadcast TS packet, and convert the transmission packet into a broadcast TS packet. And one packet conversion means.
[0010]
Further, at least a relay station among the plurality of stations inputs a broadcast TS packet output from the first packet conversion unit, and a control / monitoring assigned to a predetermined AC area in the TMCC area. Second packet conversion means for allocating information to the specific area and converting the transmission packet into transmission packets; and transmission processing means for modulating an output of the second packet conversion means and transmitting the modulated output to the STL / TTL line. Features.
[0011]
Simultaneous or individual control / monitoring information is assigned to the specific area defined in the transmission packet simultaneously or selectively, and the station receiving the transmission packet from the STL / TTL line transmits the transmission packet. The control and monitoring information for simultaneous use and individual use superimposed on the specific area is read from the control area.
[0012]
A station transmitting the transmission packet to the STL / TTL line replaces individual control / monitoring information assigned to the specific area as necessary when converting the broadcast TS packet into a transmission packet. And
[0013]
The control / monitoring information includes at least one of transmitter on / off control, transmission system switching, transmission delay time adjustment, modulator parameter, TTL transmission system switching, TTL transmitter and receiver reset, reception system switching, or status. (Status) information.
[0014]
That is, in the terrestrial digital broadcasting network system according to the present invention, the control / monitoring information is allocated to the STL / TTL transmission packet and transmitted to the subsequent stage as it is or replaced, and the relay station at the subsequent stage transmits the control / monitoring information in the received transmission packet. The monitoring information is transferred to the AC area superimposed on the dummy byte in the broadcast TS packet, and at the same time, the control information is input to the controlled device in the station. Further, the above-mentioned broadcast TS packet is again converted into a transmission packet and transmitted to the subsequent relay station.
[0015]
Thereby, simultaneous and individual control to each broadcast relay station, TTL relay station, and the like on a broadcast network connected in multiple stages by STL / TTL (including wireless and optical transmission), which was impossible in the past, can be performed with low delay. It is possible to do. For example, control and monitoring can be performed simultaneously and individually from individual stations from a music playing place represented by operation control of a broadcast transmitter and delay adjustment control of radio wave emission timing. Furthermore, control / monitoring information from the preceding stage to the following relay station can be transmitted by replacement or the like. In this case, by transmitting the status information of the own station including the information up to the preceding stage to the relay station at the subsequent stage, it becomes possible to transmit the monitoring information collectively.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0017]
First, the relationship between a broadcast TS packet currently used for intra-station transmission and an STL / TTL transmission packet according to the present invention will be described.
[0018]
FIG. 1A shows the format structure of a broadcast TS packet used in intra-station transmission, and FIG. 1B shows the format structure of a transmission packet used in inter-station transmission over an STL / TTL line.
[0019]
The broadcast TS packet (204 bytes) includes a program TS storage area (188 bytes), a TMCC (Transmission and Multiplexing Configuration Control) storage area (8 bytes), and a parity storage area (8 bytes). In the TMCC storage area, four AC (Aux Channel) areas AC1 to AC4 for storing arbitrary control information in addition to the basic information are defined.
[0020]
On the other hand, the STL / TTL transmission packet (210 bytes) according to the present invention includes a waveform equalized signal storage area (1 byte), a program TS storage area (188 bytes), a TMCC storage area (5 bytes), and any additional data. It is defined that two CC (Control Channel) storage areas CC1 and CC2 for storing information and a parity storage area are provided. In the TMCC storage area, an AC1 area (1 byte) to be allocated to the AC1 area of the broadcast TS packet is defined in addition to the basic information. It should be noted that CC (Control Channel) is defined for the sake of convenience in describing the present invention, and its name may be changed in the future.
[0021]
The AC1 area in the TMCC in the transmission packet can be used, for example, for transmitting control / monitoring information (hereinafter, simultaneous information) for simultaneously controlling and monitoring each relay stage. In this case, the broadcast information stored in the AC1 area in the TMCC of the transmission packet is automatically assigned to the AC1 area in the TMCC area when it is converted into a broadcast TS packet. Since the packet is automatically assigned to the AC1 area in the TMCC in the transmission packet and transmitted, it is automatically distributed to all relay stages, and there is no need to re-superimpose at each relay stage.
[0022]
The CC1 and CC2 areas in the transmission packet can be used, for example, for transmitting control / monitoring information (hereinafter, individual information) for individually controlling / monitoring an arbitrary relay stage. In this case, individual information can be replaced in order to control and monitor the next stage in each relay stage.
[0023]
The CC1 and CC2 areas of the transmission packet are arbitrary, and the number and usage thereof are also arbitrary. For example, different information may be assigned to each area, and a plurality of pieces of information may be used in a time-division manner for one area. Further, the area information of CC1 and CC2 may be automatically assigned to predetermined areas of AC2 to AC4 existing in the TMCC storage area of the broadcast TS packet in each relay stage.
[0024]
FIG. 2 is a block diagram showing a basic configuration of a relay station using the above-mentioned TS-STL / TTL packet.
[0025]
In FIG. 2, a transmission packet (RF) from an STL / TTL line received by a reception antenna 11 is received by a reception unit 12, frequency-converted to an intermediate frequency (IF), sent to a demodulation unit 13, and demodulated. The transmission packet demodulated here is sent to the receiving-side packet converter 14.
[0026]
The receiving-side packet converter 14 converts a transmission packet in the format shown in FIG. 1B into a broadcast TS packet in the format shown in FIG. At this time, the control / monitoring information superimposed on the AC1, CC1, and CC2 areas of the transmission packet is read, sent to the controlled device 15, and subjected to appropriate control / monitoring processing. In addition, the control / monitoring information superimposed on each area of AC1, CC1, and CC2 of the transmission packet is directly allocated to the areas of AC1 to AC3 provided in the TMCC storage area of the broadcast TS packet.
[0027]
The broadcast TS packet converted as described above is sent to the transmission-side packet converter 16 via the intra-station transmission path. The transmission-side packet converter 16 converts the broadcast TS packet into a transmission packet format, contrary to the reception side. At this time, the control / monitoring information stored in the AC1 area in the TMCC storage area of the broadcast TS packet is automatically assigned to the AC1 area of the transmission packet. The control / monitoring information stored in the other AC2 and AC3 areas is allocated to the CC1 and CC2 areas of the transmission packet as necessary, and may be replaced with other control / monitoring information and stored as needed.
[0028]
The transmission packet converted as described above is modulated by the modulator 17 into an IF band transmission packet, frequency-converted to the RF band by the transmitter 18, power-amplified, and transmitted from the transmission antenna 19 to the relay station at the subsequent stage. Sent out.
[0029]
According to the above configuration, when it is desired to perform simultaneous control and monitoring for each relay station, the broadcast information is automatically assigned to the broadcast TS in each relay station by superimposing the broadcast information on the AC1 area of the transmission packet, and again. Since the information is put in the AC1 area of the transmission packet, the broadcast information can be read out at each relay station, and the control and monitoring can be appropriately performed. When it is desired to control / monitor an arbitrary relay station, it can be realized by using the CC1 and CC2 areas of the transmission packet. In this case, it is not necessary to take out the retransmission information once when converting to a broadcast TS packet in the station and re-superimpose when converting it to a transmission packet, so that a low delay can be realized.
[0030]
Hereinafter, a specific operation example will be described.
[0031]
FIG. 3 shows a configuration of a terrestrial digital broadcasting network system to which the present invention is applied. Here, a broadcasting program of terrestrial digital broadcasting is performed in the order of a music playing station A, a transmitting station B, an intermediate relay station C, and a final relay station D. The description will be made assuming that the data is relay-transmitted.
[0032]
At the performance place A, the STL transmitter A1 converts the broadcast TS packet carrying the broadcast program into an STL transmission packet in the format described above, and transmits it to the transmission place B via the STL line. At the time of the packet conversion, control / monitoring information to be simultaneously transmitted to each station is placed in the AC1 area in the TMCC area of the transmission packet. Here, the control information is assumed to be on / off control, system switching, delay time control, and the like for the broadcast transmitter of each relay station, and the monitoring information is alarm information (defined as one of the status information here). And so on.
[0033]
In the transmitting station B, the STL receiver B1 receives and demodulates the STL transmission packet from the performance station A, converts it into a broadcast TS packet, and outputs the packet to the transmission line in the transmitting station. At this time, the control / monitoring information is read out from the AC1 area in the TMCC of the STL transmission packet and given to the transmission control device (corresponding to the controlled device in FIG. Make it possible. When converting an STL transmission packet into a broadcast TS packet, control / monitoring information carried in the AC1 area in the TMCC of the STL transmission packet is automatically assigned to the AC1 area in the TMCC in the broadcast TS packet.
[0034]
In the transmitting station B, the TTL transmitter B3 converts the broadcast TS packet into a TTL transmission packet, and transmits the TTL transmission packet to the subsequent relay station C via the TTL line. At the time of the packet conversion, the control / monitoring information carried in the AC1 area of the TMCC area of the broadcast TS packet is automatically assigned to the AC1 area in the TMCC of the TTL transmission packet. Also, the alarm information is put in the CC1 or CC2 area of the TTL transmission packet.
[0035]
In the intermediate relay station C, the TTL receiver C1 receives and demodulates the TTL transmission packet from the transmitting station B, converts it into a broadcast TS packet, and outputs it to a transmission line in the station. At this time, the control / monitoring information is read out from the AC1 area in the TMCC of the TTL transmission packet and supplied to the relay broadcaster (corresponding to the controlled device in FIG. 2) C2 to execute the remote control / monitoring from the music hall A side. Make it possible. When converting a TTL transmission packet into a broadcast TS packet, control / monitoring information carried in the AC1 area in the TMCC of the TTL transmission packet is automatically assigned to the AC1 area in the TMCC in the broadcast TS packet.
[0036]
In the intermediate relay station C, the TTL transmitter C3 converts the broadcast TS packet into a TTL transmission packet, and transmits the TTL transmission packet to the relay station D at the subsequent stage through the TTL line. At the time of the packet conversion, the control / monitoring information carried in the AC1 area in the TMCC of the broadcast TS packet is automatically allocated to the AC1 area in the TMCC of the TTL transmission packet. Also, the alarm monitoring device C4 reads the alarm information from the preceding stage from the CC1 or CC2 area of the received TTL transmission packet, and includes the alarm information in the CC1 or CC2 area of the transmission TTL transmission packet, including the alarm information of its own station. Change to another.
[0037]
In the final-stage relay station D, the TTL receiver D1 receives and demodulates the TTL transmission packet from the preceding-stage relay station C, converts it into a broadcast TS packet, and outputs it to a transmission line in the station. At this time, the control / monitoring information is read out from the AC1 area in the TMCC of the TTL transmission packet and supplied to the relay broadcaster (corresponding to the controlled device in FIG. 2) D2 to execute the remote control / monitoring from the music performance A side. Make it possible. When converting a TTL transmission packet into a broadcast TS packet, control / monitoring information carried on AC1 in the TMCC area of the TTL transmission packet is automatically assigned to the AC1 area in TMCC in the broadcast TS packet. Further, the alarm monitoring device D3 reads the alarm information from the preceding stage from the CC1 or CC2 area of the received TTL transmission packet, and notifies the management station (not shown) including the alarm information of its own station through a telephone line or the like. .
[0038]
According to the system having the above configuration, it is possible to remotely control and monitor the transmitting station B and the relay stations C and D from the performance station A. Further, it becomes possible for each station to transmit the alarm information to the subsequent stage while including the own station information, thereby enabling the integrated monitoring.
[0039]
In the above embodiment, the control information is assumed to be on / off control of each relay station for the broadcast transmitter, system switching, delay time control, and the like, and the monitoring information is assumed to be alarm information and the like. It is also possible to operate
[0040]
First, as the control information, various parameter controls of the STL / TTL modulator, switching of the TTL transmission system, reset control of the TTL transceiver (you may specify how many seconds to reset), switching of the reception system (TTL transmission system) Switching and broadcast wave reception switching (TTL transmission control may be performed even in broadcast wave reception).
[0041]
As the monitoring information, transmission of a status information transmission trigger may be considered. This is a method of sending a trigger for instructing a subsequent station to transmit state information when the state cannot be grasped due to a telephone line abnormality at the time of a relay station failure. That is, the relay station that has received the trigger superimposes the state information on the TTL transmission packet and sends it to the subsequent station. If the subsequent station can report the abnormality through another line such as a telephone line, it is possible to report to the management center through that line.
[0042]
Among the above examples, simultaneous control / monitoring of transmitter on / off control and transmission delay time adjustment must be dealt with individually on telephone lines, and it is extremely difficult when there are many relay stages. Therefore, the method of transmitting control / monitoring information according to the present invention is extremely effective.
[0043]
【The invention's effect】
As described above, according to the present invention, when performing multistage relay transmission of digital terrestrial broadcasting, a terrestrial broadcasting system capable of simultaneously transmitting control / monitoring information to any relay stage while suppressing processing delay time in the relay stage. A digital broadcast network system, an STL / TTL transmission packet structure, a packet conversion processing device, and a control / monitoring information transmission method can be provided.
[Brief description of the drawings]
FIG. 1 is a diagram showing a format structure of a broadcast TS packet used in intra-station transmission and a format structure of a transmission packet used in inter-station transmission over an STL / TTL line according to the present invention, as one embodiment of the present invention.
FIG. 2 is a block diagram showing a basic configuration of a relay station using the above-mentioned TS-STL / TTL packet.
FIG. 3 is a block diagram showing a configuration of a terrestrial digital broadcasting network system to which the present invention is applied as a specific operation example of the present invention.
[Explanation of symbols]
11 reception antenna 12 reception unit 13 demodulation unit 14 reception-side packet conversion unit 15 controlled device 16 transmission-side packet conversion unit 17 modulation unit 18 transmission unit 19 transmission antenna A performance place A1 STL Transmitter B Transmitting station B1 STL receiver B2 Transmission control device B3 TTL transmitter C Intermediate relay station C1 TTL receiver C2 Relay broadcaster C3 TTL transmitter C4 Alarm monitoring device D Final stage Relay station D1 TTL receiver D2 Relay broadcaster D3 Alarm monitoring device

Claims (17)

A broadcast TS (Transport Stream) packet is converted into a transmission packet defined by STL (Study to Transmitter Link) / TTL (Transmitter to Transmitter Link), and multi-stage relaying is performed by a plurality of stations connected by STL / TTL lines. Terrestrial digital broadcasting network system that performs
In the transmission packet, it is assumed that a specific area to which control / monitoring information for an arbitrary station is assigned in advance,
The plurality of stations,
Receiving processing means for receiving and demodulating a transmission packet from the STL / TTL line;
The control / monitoring information superimposed on the specific area is read out from the transmission packet demodulated by the reception processing means, and the control / monitoring information is read from the transmission and multiplexing configuration control (TMCC) defined in the broadcast TS packet. A terrestrial digital broadcasting network system, comprising: first packet conversion means for converting the transmission packet into a broadcast TS packet by allocating the transmission packet to a predetermined AC (Aux Channel) area in the area. At least a station that relays among the plurality of stations,
A broadcast TS packet output from the first packet converter is input, and control / monitoring information allocated to a predetermined AC area in the TMCC area is allocated to the specific area and converted into the transmission packet. Two packet conversion means;
2. A terrestrial digital broadcasting network system according to claim 1, further comprising transmission processing means for modulating an output of said second packet conversion means and transmitting the modulated output to said STL / TTL line. In the specific area defined in the transmission packet, control and monitoring information for simultaneous use and individual use shall be assigned simultaneously or selectively,
3. The terrestrial digital broadcasting network system according to claim 2, wherein said first packet conversion means reads control / monitoring information for simultaneous use and individual use superimposed on said specific area from said transmission packet. 4. The apparatus according to claim 3, wherein the second packet conversion unit replaces individual control / monitoring information assigned to the specific area as needed when converting the broadcast TS packet into a transmission packet. Digital terrestrial broadcasting network system. A broadcast TS (Transport Stream) packet is converted into a transmission packet defined by STL (Study to Transmitter Link) / TTL (Transmitter to Transmitter Link), and multi-stage relaying is performed by a plurality of stations connected by STL / TTL lines. Terrestrial digital broadcasting network system that performs
An STL / TTL transmission packet structure having a specific area to which control / monitoring information for an arbitrary station is previously allocated. 6. The STL / TTL transmission packet structure according to claim 5, wherein the specific area defined in the transmission packet has a plurality of areas for assigning control and monitoring information for simultaneous use and individual use. 6. The STL / TTL transmission packet structure according to claim 5, wherein control / monitoring information for simultaneous use and individual use is allocated in a time division manner to a specific area defined in the transmission packet. A broadcast TS (Transport Stream) packet is converted into a transmission packet defined by STL (Study to Transmitter Link) / TTL (Transmitter to Transmitter Link), and multi-stage relaying is performed by a plurality of stations connected by STL / TTL lines. Used in the in-station reception processing unit of the terrestrial digital broadcasting network system that performs
In the transmission packet, it is assumed that a specific area to which control / monitoring information for an arbitrary station is assigned in advance,
From the transmission packet received and demodulated in the station, control / monitoring information superimposed on the specific area is read, and the control / monitoring information is transmitted in a TMCC (Transmission and Multiplexing Configuration Control) area defined by the broadcast TS packet. A packet conversion apparatus for converting the transmission packet into a broadcast TS packet by allocating the transmission packet to a predetermined AC (Aux Channel) area. A broadcast TS (Transport Stream) packet is converted into a transmission packet defined by STL (Study to Transmitter Link) / TTL (Transmitter to Transmitter Link), and multi-stage relaying is performed by a plurality of stations connected by STL / TTL lines. Used in the intra-station transmission processing unit of the terrestrial digital broadcasting network system that performs
In the transmission packet, it is assumed that a specific area to which control / monitoring information for an arbitrary station is assigned in advance,
When converting a transmission packet received and demodulated in the station into the broadcast TS packet, control and monitoring information superimposed on a specific area of the transmission packet is transmitted by a transmission and multiplexing configuration specified by the broadcast TS packet. A broadcast TS packet assigned to a predetermined AC (Aux Channel) area in a Control area is input, and control / monitoring information assigned to a predetermined AC area in the TMCC area is assigned to the specific area. A packet conversion device for converting a packet into a transmission packet. A broadcast TS (Transport Stream) packet is converted into a transmission packet specified by STL (Study Transmitter Link) / TTL (Transmitter to Transmitter Link), and multi-stage relay is performed by transmission between a plurality of stations connected by STL / TTL lines. In the control and monitoring information transmission method of the terrestrial digital broadcasting network system to be performed,
Define a specific area to assign control and monitoring information for any station in advance to the transmission packet,
At the plurality of stations,
The control / monitoring information superimposed on the specific area is read from the transmission packet obtained by receiving and demodulating the transmission packet from the STL / TTL line, and the control / monitoring information is specified by the broadcast TS packet. Assigned to a predetermined AC (Aux Channel) area in a Transmission and Multiplexing Configuration Control (TMCC) area to convert the transmission packet into a broadcast TS packet,
The broadcast TS packet is input, control / monitoring information allocated to a predetermined AC area in the TMCC area is allocated to the specific area, converted into the transmission packet, and then modulated and transmitted to the STL / TTL line. A method for transmitting control / monitoring information of a digital terrestrial broadcasting network system, characterized by transmitting. In the specific area defined in the transmission packet, control and monitoring information for simultaneous use and individual use shall be assigned simultaneously or selectively,
The ground station according to claim 10, wherein the station that has received the transmission packet from the STL / TTL line reads control / monitoring information for broadcast and individual superimposed on the specific area from the transmission packet. Control / monitoring information transmission method for digital broadcasting network system. A station transmitting the transmission packet to the STL / TTL line replaces individual control / monitoring information assigned to the specific area as necessary when converting the broadcast TS packet into a transmission packet. The control / monitoring information transmission method for a terrestrial digital broadcasting network system according to claim 11, wherein The control / monitoring information transmission of a terrestrial digital broadcasting network system according to claim 11, wherein the specific area defined in the transmission packet has a plurality of areas to which the simultaneous and individual control / monitoring information is assigned. Method. The control / monitoring information transmission of the terrestrial digital broadcasting network system according to claim 11, wherein the control / monitoring information for the broadcast and the individual is allocated in a time division manner to the specific area defined in the transmission packet. Method. The control / monitoring information is at least one of transmitter on / off control, transmission system switching, transmission delay time adjustment, modulator parameter, TTL transmission system switching, TTL transmitter and receiver reset, and reception system switching. The digital terrestrial broadcasting network system according to claim 2, wherein: The digital terrestrial broadcasting network system according to claim 2, wherein the control / monitoring information is status information. 17. The station according to claim 16, wherein the plurality of stations read the status information from the preceding stage from the received transmission packet, and replace the status information including the status information of the own station with the status information on the transmission transmission packet. Digital terrestrial broadcasting network system.

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