JP2006080985A - Gap filler system and its program signal transmitting method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a gap filler system and its program signal transmitting method by which an influence of cable attenuation and a failure of cable laying construction are avoided. <P>SOLUTION: A relay output part 2 installed in a blind zone makes a TDM signal for a gap filler of mobile broadcast into a carrier signal of a program signal according to a program signal of CATV broadcast and outputs it to a CATV transmission system 3. The gap filler system which avoids the influence of cable attenuation on a cable for transmitting a gap filler signal and the failure of cable laying construction and its program signal transmitting method are provided by receiving the carrier signal via the CATV transmission system 3 and transmitting a TDM signal of the carrier signal to a mobile terminal 5 by converting it into CDM modulated re-transmission waves identical to direct waves from a satellite transmitter 8 by a radiowave transmitting part 4. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a mobile filler gap filler system using a satellite and a program signal transmission method thereof.

  In a mobile broadcast system that digitally broadcasts a broadcast program to a mobile receiver such as a vehicle using a satellite, a dead zone where a radio wave from a satellite transmitter cannot be received, such as a building shadow and a tunnel, is generated. Thus, as a dead zone countermeasure, a gap filler that is a repeater that receives and retransmits radio waves from the satellite transmitter is used. The mobile receiver can continuously watch the broadcast even in the dead zone by receiving the relay radio wave transmitted from the gap filler instead of the direct wave from the satellite transmitter.

  In mobile broadcasting, a mobile receiver receives an S-band 2.6 GHz radio wave from a satellite transmitter, but a gap filler receives a Ku-band radio wave transmitted for regenerative relay from a satellite transmitter. Convert to S band and send.

  That is, the gap filler is a radio wave transmitted from the satellite transmitter to a Ku band gap filler signal obtained by TDM modulation of a broadcast program signal by a processing device attached to the satellite receiving antenna for receiving the radio wave from the satellite transmitter. Receive. Then, the reception radio wave is demodulated, further converted into the same CDM-modulated S-band radio wave as the broadcast radio wave transmitted from the satellite transmitter, and retransmitted from the gap filler transmission antenna to the dead zone. Enable the machine to receive mobile broadcasts.

  However, if the length of the cable connected between the satellite receiving antenna and the gap filler transmitting antenna is long, the radio wave converted into the S band by the processing device is attenuated during cable transmission. Therefore, a method of reducing the influence of attenuation by transmitting a transmission signal transmitted between the cables at an IF frequency with less attenuation is employed (for example, Patent Document 1).

However, even in this method, the cable connecting these antennas must be laid separately for the gap filler, which is expensive, and in particular, a plurality of transmissions across the road as called wide area gap filler. When an antenna is installed, there is a problem that the cable is laid.
JP 2001-230717 A (page 11, FIG. 1)

  Gap filler used in dead zone countermeasures for mobile broadcasting causes signal attenuation during cable transmission between a satellite receiving antenna that receives satellite relay waves and a transmitting antenna that transmits retransmitted waves to a mobile receiver. There was a problem. The present invention has been made to solve the above problems, and an object of the present invention is to provide a gap filler system that avoids obstacles to cable installation work that avoids the influence of cable attenuation, and a program signal transmission method thereof.

  In order to achieve the above object, a gap filler system according to the present invention is a mobile broadcast gap filler system in which a terrestrial mobile terminal receives broadcast radio waves from a satellite transmitter, and is transmitted by the mobile broadcast broadcasting center. A relay output unit that receives the TDM signal for gap filler as a program signal, converts the received TDM signal into a carrier signal of a transmission standard that conforms to a program signal of CATV broadcast, and at least one of the cascade connection A CATV transmission system including a node device and a cable connected to the node device, transmitting the carrier signal input from the relay output unit and outputting the carrier signal, and the carrier signal input from the CATV transmission system, Radio wave transmission converted into the same CDM-modulated radio wave as the broadcast radio wave and transmitted to the mobile terminal The node device includes a first input terminal to which the carrier signal is input from the relay output unit, and the first input terminal to which a multiplexed signal of a CATV broadcast program signal is input from an external or previous node device. And when the carrier signal is input to the first input terminal, the first signal is input to a predetermined channel of the input multiplexed signal. A first output terminal that outputs a second multiplexed signal into which the carrier signal input from the input terminal is inserted, and the second multiplexed signal into which the carrier signal is inserted are input to the second input terminal. And a second output terminal for taking out the inserted carrier signal and outputting it to the radio wave transmitter.

  Also, the program signal transmission method of the mobile broadcast gap filler system according to the present invention is the program signal transmission method of the mobile broadcast gap filler system in which the mobile terminal on the ground receives the broadcast radio wave from the satellite transmitter. Includes a relay output unit, a CATV transmission system, and a radio wave transmission unit. The relay output unit receives a TDM signal for a gap filler system transmitted from the mobile broadcast broadcasting center as a program signal, and receives the received signal. A TDM signal is converted into a carrier signal of a transmission standard conforming to a program signal of CATV broadcasting and is output to the CATV transmission system. The CATV transmission system has first, second input terminals, and first, second output terminals. And at least one node device that is continuously connected, and a cable connected to the node device The node device outputs a multiplexed signal of a CATV broadcast program signal input to the second input terminal from an external or preceding node device to the first output terminal, and from the relay output unit When the carrier signal is input to the first input terminal, a second multiplexed signal in which the input carrier signal is inserted into a predetermined channel of the input multiplexed signal is generated to generate the first multiplexed signal. When the multiplexed signal output to the output terminal and input from the node device in the previous stage to the second input terminal is the second multiplexed signal in which the carrier signal is inserted into the predetermined channel, the carrier A signal is extracted from the second multiplexed signal and output from the second output terminal to the radio wave transmission unit, and the radio wave transmission unit to which the carrier signal is input from the node device is input. By converting the carrier signal at the same CDM modulated wave and the broadcast wave and transmits to the mobile terminal.

  According to the first aspect of the present invention, a mobile broadcast program signal is transmitted using a CATV broadcast transmission system in accordance with the CATV broadcast program signal broadcast, thereby avoiding the influence of cable attenuation and avoiding the trouble of cable laying work. A gap filler system and its program signal transmission method can be provided. Further, according to the second aspect of the present invention, there is provided a gap filler system that avoids the influence of cable attenuation by transmitting a mobile broadcast program signal on a cable in accordance with a CATV broadcast program signal broadcast, and a program signal transmission method thereof. it can.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 is a configuration diagram of a gap filler system according to an embodiment of the present invention.

  In FIG. 1, the system includes a satellite receiving antenna 1, a relay output unit 2, a CATV transmission system 3, and a radio wave transmission unit 4. As equipment or devices connected to the gap filler system, there are a mobile terminal 5 that is a mobile broadcast receiver, a broadcast center 6 for mobile broadcast, a satellite transmission antenna 7, and a satellite transmitter 8.

  In mobile broadcasting, in addition to the S-band broadcast signal received by the mobile terminal 5, the Ku-band is a modulated Ku-band TDM (Time Division Multiplex) signal for Ku-band gap filler from the satellite transmitter 8. Are transmitted from the broadcast center 6 to the satellite transmitter 8 via the satellite transmission antenna 7.

  The satellite receiving antenna 1 receives satellite relay waves and outputs them to the relay output unit 2. The relay output unit 2 demodulates the input satellite relay wave into a baseband TDM signal. Then, the TDM signal of the mobile broadcast program signal is converted into a carrier signal (hereinafter abbreviated as a carrier signal) that is modulated with the frequency of the carrier wave of the channel assigned in the band transmitted by the CATV transmission system 3. The data is converted and output to the CATV transmission system 3.

  The CATV transmission system 3 transmits a multiplexed signal obtained by multiplexing a carrier signal and a CATV broadcast program signal through a cable. Then, the carrier signal is separated from the multiplexed signal and output to the transmission destination radio wave transmitter 4.

  The radio wave transmitter 4 receives a carrier signal from the CATV transmission system 3, demodulates it into a baseband TDM signal, and further transmits the same CDM (hereinafter referred to as a direct wave) transmitted from the satellite transmitter 8. Code Division Multiplex) modulated S-band radio waves (hereinafter referred to as retransmission waves) are transmitted from the antenna to the dead zone. Even when the mobile terminal 5 enters the dead zone, the mobile terminal 5 can continuously watch the program by receiving the retransmitted wave, that is, the broadcast wave, from the antenna of the radio wave transmitter 4.

FIG. 2 is a diagram illustrating an installation example of each configuration of the gap filler system according to the embodiment of the present invention.
In FIG. 2, in the road R sandwiched between buildings and the buildings 9A to 9N, the mobile terminal 5 receives the mobile broadcast because the transmission wave of the satellite transmitter 8 is blocked by each building 9 and cannot be received. It is a dead zone that can not be. Therefore, the satellite receiving antenna 1 and the relay output unit 2 of the gap filler system are installed in a building 9A, for example. The CATV transmission system 3 is a CATV broadcast program signal transmission path installed in a building district, and a cable is laid between the buildings 9 across the alley by the node device 31 and the cable 32, and each building along the road R CATV broadcasting can be received at 9A to building 9N and road R.

  The relay output unit 2 outputs the carrier signal of the mobile broadcast program signal received by the satellite receiving antenna 1 to the node device 31 connected to the relay output unit 2. In the buildings 9B to 9N along the road, a radio wave transmission unit 4 that receives a carrier signal from the node device 31 of the CATV transmission system 3 and converts it into a retransmitted wave and retransmits it into the road R or the building 9 is installed. Has been. In addition, a plurality of radio wave transmission units 4 may be installed in the same building, such as a building 9N.

  The radio wave transmission unit 4 is provided with an antenna 43, but the cover area of the antenna 43 of each radio wave transmission unit 4 covers the outside of the building, covers the inside of the building, and covers the inside and outside of the building at the same time. It is set variously for each.

  On the road R, each radio wave transmission unit 4 is installed so as to continue along the road like the cover area 100 when the cover area of the transmission radio wave is combined. Accordingly, the mobile terminal 5 on the road R can continuously view the mobile broadcast program in the cover area 100 by receiving the retransmitted wave from each radio wave transmitting unit 4. In the building 9A, the carrier signal may be output directly to the radio wave transmission unit 4 without going through the CATV transmission system 3 as shown in FIG.

  In addition, when the radio wave transmitting unit 4 transmits a retransmitted wave in a building that is also a dead zone, for example, as in the building 9N, the radio wave transmitting unit 4 is not shown in the building, but a plurality of, for example, radio wave transmissions installed on each floor The unit 4 is connected to the CATV transmission system 3, and the MTS is distributed (output) to each radio wave transmission unit 4 via the CATV transmission system 3. The operation of the CATV system 3 when such a plurality of radio wave transmission units 4 are connected via the CATV transmission system 3 will be described in the following description of the operation of the CATV transmission system 3 in FIG.

3 to 5 are block diagrams showing functional configurations of the relay output unit 2, the CATV transmission system 3, and the radio wave transmission unit 4 in FIG. 1, respectively.
Hereinafter, the configuration of each part of the gap filler system and the processing outline will be described with reference to FIGS.
In FIG. 3, the relay output unit 2 includes a reception demodulation unit 21, a carrier modulation unit 22, and a channel setting unit 23. The receiving demodulation unit 21 receives a satellite relay wave from the satellite receiving antenna 1, converts the frequency of the satellite relay wave, detects it, demodulates it into a TDM signal of a program broadcast, and transmits it by a CATV broadcast system (broadcast program signal). (The program signal for mobile broadcasting is hereinafter referred to as MTS). The MTS is further output to the carrier modulation unit 22 as a digital serial signal. Therefore, the carrier wave of the channel according to the transmission condition of the CATV signal is converted into a modulated carrier signal and output to the CATV transmission system 3.

  The channel setting unit 23 sets and stores a predetermined carrier frequency by the initial setting, and controls the carrier frequency of the carrier modulation unit 22. When the carrier frequency is automatically set, a process for receiving the multiplexed CATV signal TSMX from the CATV transmission system 3, searching for an empty channel therein, and setting it as the carrier frequency is performed.

  The transmission condition of the CATV signal is a transmission standard of the CATV transmission system 3 operated by the CATV broadcaster. For example, a standard of JCTEA (Japan CATV Technology Association) is applied.

  In this transmission standard, a channel band capable of transmitting terrestrial television and BS broadcast program signals is secured. Since the TDM signal for mobile broadcasting is a narrow band signal that falls within the band of the program signal, the CATV transmission system 3 can transmit it. In this case, the carrier modulation unit 22 outputs the MTS signal of the TDM signal to the CATV transmission system 3 as a 64 QAM carrier signal in the 6 MHz band.

  These carrier signals are assigned to a predetermined channel set in a CATV transmission band of 90 to 770 MHz, for example, and the respective CATV broadcast program signals (hereinafter referred to as a multiplexed CATV signal TSMX) multiplexed. ) Is transmitted over the cable. The channel allocation method may be either a method set in advance according to the standard of JCTEA or a method of automatically searching for an empty channel and allocating a channel for mobile broadcasting in the following. Explained as an example.

  In the case of transmission using a standard other than the JCTEA standard, for example, MCNS (Multimedia Cable Network System Partners) in the United States modulates the MTS of the TDM signal according to the standard and outputs it to the CATV transmission system 3. In another case, when time-division multiplex transmission is performed using an optical fiber transmission line, the carrier modulation unit 22 may output the MTS of the TDM signal in a frame format and clock timing that can be inserted into a predetermined time slot.

  Correspondingly, the radio wave transmission unit 4 extracts and demodulates a carrier signal of a predetermined channel, or in the case of time-division multiplex transmission, extracts a TDM signal of a program signal from a predetermined time slot. Hereinafter, an embodiment will be described by taking as an example a case where a mobile broadcast MTS is transmitted by the CATV transmission system 3 of the JCTEA standard.

  In FIG. 4, a CATV transmission system 3 is a transmission path for transmitting a broadcast program signal of a CATV broadcast system that is a target of an operation service. In the CATV transmission system 3, a CATV broadcast program signal and a mobile broadcast program signal (MTS) of one channel or more are multiplexed and transmitted in accordance with the JCTEA transmission standard. The CATV transmission system 3 includes a node device 31 that multiplexes / demultiplexes a specific MTS from a multiplexed CATV signal TSMX transmitted over a cable, and a cable 32.

  (In FIG. 2, the node device 31 is installed in each of the buildings 9B to 9N. However, in the following, when the common items in each node device 31 are described, they are referred to as node devices 31 and are specified in each building 9. In the case of explaining the operation of (1), for example, a building number is assigned and explained like the node device 31B).

  The node device 31 includes a TS input terminal 310a, an input terminal 310n, an output terminal 330a, a cable output terminal 330n, and a demultiplexing unit 311. In the node device 31A, the demultiplexing unit 311 receives the mobile broadcast TDM signal input to the input terminal 310a, that is, the MTS, and the multiplexed CATV broadcast program signal (hereinafter referred to as the multiplexed CATV signal) input to the input terminal 310n. In addition, a multiplexed signal (hereinafter referred to as a multiplexed signal TSMXX) is generated in addition to the multiplexed signal. Then, the generated multiplexed signal TSMXX is transmitted to the cable 32 connected to the cable output terminal 330n.

  The multiplexed CATV signal TSMX is multiplexed by assigning a carrier signal of 6 MHz band, which is 64QAM modulated within a 90-770 MHz band, to a predetermined channel, and the multiplexed signal TSMXX is transmitted to a channel within the band of 90-770 MHz. An MTS is assigned.

  In the node device 31B at the next stage, the demultiplexing unit 311 extracts MTS from the multiplexed signal TSMXX received from the cable 32 connected to the input terminal 310n, and the multiplexed signal TSMXX is further connected to the cable output terminal 330n. Send to. The MTS output from the node device 31B is restored to a 6 MHz transmission band carrier signal modulated by 64QAM. The node devices 31C to 31N perform the same operation as the node device 31B. In the node 31N, if the mobile broadcasting MTS is unnecessary in the next stage, the node apparatus 1 deletes the MTS from the multiplexed signal TSMXX, restores the original multiplexed CATV signal TSMX, and transmits it to the next stage. Also good.

  In addition, the number of input terminals provided in the node device 31 is two in the above description. However, a plurality of input terminals are provided, and a plurality of MTSs such as mobile broadcasts input from the input terminals are converted into carrier signals, respectively. However, they may be added to the multiplexed CATV signal TSMX and multiplexed. Furthermore, the node device 31 may be a device that inputs only the mobile broadcast MTSs of a plurality of channels that are not multiplexed and outputs them as the multiplexed CATV signal TSMXX from the cable output terminal 330n.

  Further, if the carrier signal transmitted by the relay transmission unit 31 is input at the frequency of the carrier wave in the CATV transmission system 3 instead of the frequency set for the empty channel, the node device 31 searches for the empty channel and automatically It may be assigned to. The node device 1 may output a carrier signal at a carrier frequency preset in the radio wave transmitter 4.

  The cable 32 transmits a signal between the node devices 31. When the cable length increases, one or more relay amplifiers 321 are inserted between the cables to compensate for attenuation. Also good. Thus, the gap filler system of the present embodiment can compensate for signal attenuation of the transmission cable.

  Next, the configuration and operation of the radio wave transmission unit 4 will be described with reference to FIG.

  In FIG. 5, the radio wave transmission unit 4 includes a modem unit 41, a transmitter 42, and an antenna 43. A mobile broadcast program signal MTS is output from the node device 31 of the CATV transmission system 3 to the radio wave transmitter 4. The modulation / demodulation unit 41 includes a carrier demodulation unit 411, a serial / parallel conversion unit 412, and a CDM modulation unit 413.

  The carrier demodulator 411 performs 64QAM demodulation of the carrier signal input from the node device 31, demodulates it to MTS of the TDM signal, and outputs it to the serial / parallel converter 412. The serial / parallel conversion unit 412 performs serial / parallel conversion to multiplex-modulate the input TDM signal with the same code (encoding) as the direct wave, and the CDM modulation unit 413 performs CDM modulation on the parallel-converted signal (MTS). And output to the transmitter 42. The transmitter 42 converts the CDM modulation signal into a radio wave and transmits it from the antenna 43.

  In this case, if the cable of the CATV transmission system 3 is used along the road by a CATV broadcasting company that is already in operation, there is no need to lay a cable dedicated for mobile broadcasting, and cable laying work can be performed. You can avoid the trouble.

  In the second embodiment, the node device 31 of the CATV transmission system 3 does not separate the carrier signal (MTS), and the radio wave transmitter 4 separates and extracts the MTS from the multiplexed signal TSMXX.

  FIG. 6 is a block diagram illustrating a functional configuration of the CATV transmission system 3 according to the second embodiment of the present invention. In FIG. 6, the node devices 31B to 31N output the multiplexed signal TSMXX from the output terminal 330a to the radio wave transmission unit 4 in the same manner as the cable output terminal 330n. Further, the output terminal 330 a may be omitted, and a branch connector may be used as the cable connector so that the multiplexed signal TSMXX is output to the radio wave transmission unit 4. In this case, the node devices 31B to 31N may be replaced with the relay amplifier 321.

  In the radio wave transmitter 4, the carrier demodulator 411 is tuned to a channel of a predetermined carrier frequency from the input multiplexed signal TSMXX or extracts a predetermined channel by a filter to extract MTS. Except for the above points, the second embodiment is the same as the first embodiment.

  The third embodiment does not use the CATV transmission system 3 in the first embodiment, that is, the node device or transmission cable of the already installed CATV broadcasting system when there is no location problem related to the cable laying work.

  For example, a mobile broadcast MTS (TDM signal for gap filler) is transmitted by a cable laid in the same building as a carrier signal of a 6 MHz band in which a carrier wave having a frequency defined by the JECTA standard is 64QAM modulated.

FIG. 7 is a configuration diagram of a gap filler system according to the second embodiment of the present invention.
In FIG. 7, the carrier modulation unit 22 of the relay output unit 2 and the carrier demodulation unit 411 of the radio wave transmission unit 4 are directly connected by a cable 32 (such as a coaxial cable). In this method, since the MTS is IF-transmitted at a carrier frequency lower than that of the S band, the influence of attenuation by the cable can be suppressed. In addition, there is a cost merit that it is not necessary to use an expensive low-loss cable and a node device is unnecessary.

FIG. 8 is a configuration diagram of a gap filler system in the fourth embodiment.
In the figure, the TDM signal input to the gap filler system is replaced with the MTS converted from the TDM signal input from the satellite receiving antenna 1, and the MTS of the TDM signal directly from the broadcasting center 6 of the mobile broadcast is the CATV transmission system 3. Supplied to.

  In this case, the MTS of the TDM signal for gap filler is transmitted from the broadcast center 6 of the mobile broadcast to the relay transmission unit 2 via the ground communication network 25. In the third embodiment, the reception demodulation unit 21 of the relay transmission unit 2 is changed to an interface that outputs the MTS of the TDM signal transmitted from the communication network 25 instead of 1 from the satellite reception antenna to the carrier modulation unit 22. Yes. In the carrier modulation unit 22, a carrier signal is generated and output in the same manner as in the first to third embodiments. The output carrier signal is input to the input terminal 310a of the node device 31 of the CATV transmission system 3, and the subsequent processing is performed in the same manner as in the first embodiment. In the fourth embodiment, since the transmission network of the existing CATV broadcasting system is used, it is not necessary to use the satellite receiving antenna 1, so that the equipment cost can be saved.

FIG. 9 is a configuration diagram of a gap filler system in the fifth embodiment.
In the fifth embodiment, the MTS of the TDM signal for mobile broadcast is transmitted as one of the multiplexed signals of the CATV broadcast program broadcast from the beginning. In FIG. 8, the MTS of the TDM signal for gap filler is supplied from the broadcast center 6 to the head end device 26 of the CATV broadcaster via the terrestrial network 25.

  The head-end device 26 is a device that multiplex-outputs program signals, and MTS, which is a mobile broadcast program signal, is also assigned to one channel of the CATV multiplexed signal TSMX from the beginning, and the node device shown in FIG. 4 and FIG. In 31A, the input terminal 310a is not used and multiple processing is not performed. The head end device 26 may be considered to function as the relay transmission unit 2 in the first to fourth embodiments, and the operations of the node devices 31 and the radio wave transmission unit 4 are the same as those in the first to fourth embodiments.

  In the fifth embodiment, since the transmission network of the existing CATV broadcasting system is used, it is not necessary to use the satellite receiving antenna 1 and the relay output unit 2, so that the equipment cost can be saved.

  As described above, according to the present invention, it is possible to realize a gap filler system that avoids the influence of cable attenuation and avoids obstacles to cable laying work.

The block diagram of the gap filler system concerning the Example of this invention. The figure which shows the example of installation of each structure of the gap filler system concerning the Example of this invention. The block diagram which shows the function structure of the relay output part 2 of the gap filler system concerning the Example of this invention. The block diagram which shows the function structure of the CATV transmission system 3 of the gap filler system concerning the Example of this invention. The block diagram which shows the function structure of the electromagnetic wave transmission part 4 of the gap filler system concerning the Example of this invention. The block diagram which shows the function structure of the CATV transmission system 3 of the gap filler system concerning Example 2 of this invention. The block diagram of the gap filler system concerning Example 3 of this invention. The block diagram of the gap filler system in Example 4 of this invention. The block diagram of the gap filler system in Example 5 of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Satellite receiving antenna 2 Relay output part 21 Reception demodulation part 22 Carrier modulation part 25 Communication network 26 Head end apparatus 3 CATV transmission system 31 Node apparatus 32 Cable 321 Relay amplifier 4 Radio wave transmission part 41 Modulation / demodulation part 411 Carrier demodulation part 412 Serial parallel conversion Unit 413 CDM modulation unit 42 transmitter 43 antenna 5 mobile terminal 6 broadcasting center 7 satellite transmission antenna 8 satellite transmitter 9 building

Claims (14)

A mobile broadcast gap filler system in which a terrestrial mobile terminal receives broadcast radio waves from a satellite transmitter,
A relay output unit that receives a TDM signal for gap filler transmitted by the broadcast center of the mobile broadcast as a program signal, converts the received TDM signal into a carrier signal of a transmission standard according to the program signal of the CATV broadcast,
A CATV transmission system comprising at least one node device to be connected in series and a cable connected to the node device, and transmitting and outputting the carrier signal input from the relay output unit;
A radio wave transmission unit that converts the carrier signal input from the CATV transmission system into a radio wave modulated by the same CDM as the broadcast radio wave and transmits the radio wave to the mobile terminal;
The node device is
A first input terminal to which the carrier signal is input from the relay output unit; a second input terminal to which a multiplexed signal of a CATV broadcast program signal is input from an external or preceding node device; And when the carrier signal is input to the first input terminal, to the predetermined channel of the multiplexed signal input to the second input terminal. A first output terminal for outputting a second multiplexed signal into which the carrier signal input from the first input terminal is inserted; and the second multiplexed signal in which the carrier signal is inserted into the second input terminal. A second output terminal for taking out the inserted carrier signal and outputting it to the radio wave transmitter,
Gap filler system featuring. A mobile broadcast gap filler system in which a terrestrial mobile terminal receives broadcast radio waves from a satellite transmitter,
A relay output unit that receives a TDM signal for gap filler transmitted by the broadcast center of the mobile broadcast as a program signal, converts the received TDM signal into a carrier signal of a transmission standard according to the program signal of the CATV broadcast,
A first input terminal to which the carrier signal is input from the relay output unit; a second input terminal to which a multiplexed signal of a CATV broadcast program signal is input from an external or preceding node device; When the multiplexed signal input to the input terminal is output and the carrier signal is input to the first input terminal, input from the first input terminal to a predetermined channel of the input multiplexed signal A CATV transmission system including at least one node device including an output terminal from which a second multiplexed signal into which the carrier signal is inserted is output, and a cable connected to the node device;
The second multiplexed signal output from the node device is input, the carrier signal is extracted from a predetermined channel of the multiplexed signal, and the extracted carrier signal is converted into the same CDM-modulated radio wave as the broadcast radio wave. A gap filler system comprising: a radio wave transmission unit that converts and transmits to the mobile terminal. A mobile broadcast gap filler system in which a terrestrial mobile terminal receives broadcast radio waves from a satellite transmitter,
A relay output unit that receives a TDM signal for gap filler transmitted by the broadcast center of the mobile broadcast as a program signal, converts the received TDM signal into a carrier signal of a transmission standard according to the program signal of the CATV broadcast,
A radio wave transmission unit that converts the carrier signal input from the relay output unit into a CDM-modulated radio wave that is the same as the broadcast radio wave and transmits the radio signal to the mobile terminal;
Gap filler system featuring. The gap filler system is
A satellite receiving antenna for receiving a satellite relay wave of the TDM signal for the gap filler of the mobile broadcast transmitted from the broadcast center of the mobile broadcast via the satellite transmitter;
4. The relay output unit receives the gap filler TDM signal by receiving and demodulating the satellite relay wave via the satellite receiving antenna. The gap filler system described. The relay output unit is connected to a terrestrial communication network,
The gap filler system according to any one of claims 1 to 3, wherein the gap filler TDM signal transmitted by the mobile broadcast broadcasting center is received via the communication network.   6. The gap filler system according to claim 5, wherein the relay output unit connected to the network is a head end device that multiplexes a program signal of CATV broadcasting.   The gap filler system according to any one of claims 1 to 3, wherein the transmission standard is a transmission standard for transmitting the program signal after 64QAM modulation. In a program signal transmission method of a gap filler system for mobile broadcast in which a mobile terminal on the ground receives broadcast radio waves from a satellite transmitter,
The gap filler system includes a relay output unit, a CATV transmission system, and a radio wave transmission unit.
The relay output unit
The gap filler system TDM signal transmitted by the mobile broadcast broadcasting center is received as a program signal, and the received TDM signal is converted into a carrier signal of a transmission standard conforming to the CATV broadcast program signal and output to the CATV transmission system. And
The CATV transmission system is
Comprising at least one node device that is provided with first and second input terminals and first and second output terminals, and a cable connected to the node device;
The node device is
A multiplex signal of a CATV broadcast program signal input to the second input terminal from an external or preceding node device is output to the first output terminal, and the relay output unit to the first input terminal When a carrier signal is input, a second multiplexed signal in which the input carrier signal is inserted into a predetermined channel of the input multiplexed signal is generated and output to the first output terminal. When the multiplexed signal input from the node device to the second input terminal is the second multiplexed signal in which the carrier signal is inserted into the predetermined channel, the carrier signal is used as the second multiplexed signal. And output from the second output terminal to the radio wave transmission unit,
The radio wave transmission unit to which the carrier signal is input from the node device,
Converting the input carrier signal into a CDM-modulated radio wave that is the same as the broadcast radio wave, and transmitting it to the mobile terminal;
A program transmission method of a gap filler system characterized by the above. In a program signal transmission method of a gap filler system for mobile broadcast in which a mobile terminal on the ground receives broadcast radio waves from a satellite transmitter,
The gap filler system includes a relay output unit, a CATV transmission system, and a radio wave transmission unit.
The relay output unit
The gap filler system TDM signal transmitted by the mobile broadcast broadcasting center is received as a program signal, and the received TDM signal is converted into a carrier signal of a transmission standard conforming to the CATV broadcast program signal and output to the CATV transmission system. And
The CATV transmission system is
Comprising at least one node device that is provided with first and second input terminals and an output terminal, and a cable connected to the node device;
The node device is
A multiplex signal of a CATV broadcast transmission standard program signal is input from the external or preceding node device at the second input terminal, and the input multiplex signal is output to the output terminal, from the relay output unit. When the carrier signal is input to the first input terminal, a second multiplexed signal in which the input carrier signal is inserted into a predetermined channel of the input multiplexed signal is converted into the second multiplexed signal from the output terminal. Output to at least one of the radio wave transmitter and the next-stage node device via a cable;
The radio wave transmission unit to which the second multiplexed signal is input,
Extracting the inserted carrier signal from a predetermined channel of the second multiplexed signal, converting the extracted carrier signal into a CDM-modulated radio wave same as the broadcast radio wave, and transmitting the radio signal to the mobile terminal;
A program transmission method of a gap filler system characterized by the above. In a program signal transmission method of a gap filler system for mobile broadcast in which a mobile terminal on the ground receives broadcast radio waves from a satellite transmitter,
The gap filler system includes a relay output unit and a radio wave transmission unit,
The relay output unit receives a TDM signal for gap filler system transmitted by the mobile broadcast broadcasting center as a program signal, converts the received TDM signal into a carrier signal of a transmission standard conforming to the program signal of CATV broadcasting. Output to the radio wave transmitter,
The radio wave transmission unit to which the carrier signal is input from the relay output unit,
Converting the input carrier signal into a CDM-modulated radio wave that is the same as the broadcast radio wave, and transmitting it to the mobile terminal;
A program signal transmission method of a gap filler system characterized by the above. The gap filler system is
A satellite receiving antenna for receiving a satellite relay wave of the TDM signal for the gap filler of the mobile broadcast transmitted from the broadcast center of the mobile broadcast via the satellite transmitter;
11. The relay output unit receives the gap filler TDM signal by receiving and demodulating the satellite relay wave via the satellite receiving antenna. The program signal transmission method of the gap filler system described. The relay output unit is connected to a terrestrial communication network,
11. The program signal transmission method for a gap filler system according to claim 7, wherein the gap filler TDM signal transmitted by the mobile broadcast broadcasting center is received via the communication network. .   13. The method of claim 12, wherein the relay output unit connected to the network is a headend device that multiplexes a CATV broadcast program signal.   11. The method for transmitting a program signal of a gap filler system according to claim 7, wherein the transmission standard is a transmission standard for transmitting the program signal after 64QAM modulation.

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