JP6523712B2 - Multiplexer, transmitter, receiver, broadcast system and chip - Google Patents

Description

  The present invention relates to a multiplexer, a transmitter, a receiver, a broadcast system, and a chip that realize the transition from the current terrestrial digital broadcasting to the future next-generation terrestrial broadcasting.

  When Japan's terrestrial digital broadcasting based on the ISDB-T (Integrated Services Digital Broadcasting-Terrestrial) system was started in 2003, measures to prevent analog frequency change (analog analysis) were implemented in advance. The In the Tokyo area, a total of 8 transmission channels (6 MHz per channel, 48 MHz in total) have been secured, including 2 NHK stations (NHK General and NHK Education) and 6 commercial stations (5 key stations and Tokyo MX). Stations were able to simultaneously start terrestrial digital broadcasting.

  Since viewers who live in the digital broadcast viewable area can watch digital broadcast programs of NHK and commercial broadcast stations by purchasing a digital receiver, there is no need to select analog broadcast after purchasing the digital receiver. The Moreover, in addition to this, since there is a large difference in image quality between analog broadcast of SD (Standard Definition) quality and digital broadcast of HD (High Definition) quality, viewers It was rare that the program of analog broadcasting and the program of digital broadcasting were confused and watched.

  For this reason, despite the fact that digital broadcasts can be received, there are almost no viewers who watch programs of analog broadcasts, and at the end of analog broadcasts in 2011, their presence has not become a problem.

[Sender side]
First, an apparatus on the transmission side used for terrestrial digital broadcasting according to ISDB-T will be described. FIG. 10 is a block diagram showing the configuration of a conventional multiplexer and transmitter used for digital terrestrial broadcasting. The multiplexer 100 multiplexes the NIT (Network Information Table: Network Information Management Table) signal with the video signal of HD image quality etc. to generate the TS (Transport Stream: Transport Stream) signal of the broadcast content. Have.

  The content generation unit 101 of the multiplexing apparatus 100 inputs an NIT signal as well as an HD quality video signal, an audio signal, a data broadcast signal, an EPG (Electronic Program Guide), and the like.

  The content generation unit 101 includes the area name (the name of the area where the broadcast content is to be broadcast, for example, "Kanto wide area") and the name of the provider (the name of the provider who performs the broadcast content broadcast business, for example, "NHK comprehensive") The NIT signal to be included is multiplexed with a video signal, an audio signal, a data broadcast signal, an EPG and the like to generate a TS signal of broadcast content. The content generation unit 101 outputs the generated TS signal to the transmission device 110.

  FIG. 12 is a diagram showing data constituting an NIT signal. The NIT signal is based on data such as broadcaster's area name, area identification to identify area name, area operator identification to identify company name, company name, network identification, TS identification, remote control key identification, service identification, etc. Configured Network identification and TS identification, area name, area identification, area business operator identification, business name etc correspond, and by combination of network identification and TS identification, area name, area identification, area business operator identification, business The person's name etc. is uniquely identified.

  In the current terrestrial digital broadcasting, each broadcaster operates in the TS signal of the broadcast content to be broadcasted in accordance with the "terrestrial digital television broadcast transmission operation rule" (see Non-Patent Document 1). Identification data such as unique area identification, area business operator identification, network identification, TS identification, remote control key identification, and service identification are inserted. The receiving device 200 described later can determine which broadcaster's signal the broadcasted TS signal is based on each identification data in the TS signal.

  As shown in FIG. 12, for example, when "area identification" is "1," "area name" is "Kanto wide area" and when "area identification" is "24", "area name" is "Kanagawa" It is. Also, for example, in the "Kanto wide area" where "area identification" is "1," and when "area company identification" is "0," "company name" is "NHK general" and "area company identification" If “1” is “1”, “company name” is “NHK education”.

  The content generation unit 101 of the multiplexing apparatus 100 shown in FIG. 10 receives the NIT signal shown in FIG. 12 and multiplexes it with a video signal, an audio signal, a data broadcast signal, an EPG, etc. to generate a TS signal of broadcast content. Hereinafter, for convenience of explanation, the area identification will be described as the area name, and the area business operator identification will be described as the business name. Area identification and area name are area name information, and area company identification and company name are company name information.

  The content generation unit 101 extracts the network identification and the TS identification from the NIT signal, and from the table storing the data forming the NIT signal shown in FIG. 12, the area name corresponding to the extracted network identification and TS identification and The name of the business operator may be read out, and the read area name and the name of the business operator may be multiplexed on the video signal etc. to generate a TS signal. The content generation unit 101 may extract the network identification and the TS identification from the NIT signal, and multiplex the extracted network identification and the TS identification on a video signal or the like to generate a TS signal. The same applies to the content generation unit 11 of the multiplexing device 1 shown in FIG. 2 described later and the content generation unit 12 of the multiplexing device 2 shown in FIG.

  Referring to FIG. 10, transmitting apparatus 110 includes an ISDB-T modulator 111 and an ISDB-T transmitter 112. The ISDB-T modulation unit 111 receives a TS signal of broadcast content from the multiplexing apparatus 100, performs modulation processing on the TS signal by a predetermined modulation method based on the ISDB-T method, and generates a modulation signal. It is output to the ISDB-T transmission unit 112.

  The ISDB-T transmission unit 112 receives the modulation signal from the ISDB-T modulation unit 111, converts the modulation signal into a predetermined radio signal, and transmits radio waves (broadcast waves) of the radio signal in a 6 MHz band of one channel. Transmit from a transmitting antenna not shown.

〔Receiver〕
Next, an apparatus on the receiving side used for terrestrial digital broadcasting according to ISDB-T will be described. FIG. 11 is a block diagram showing a configuration of a conventional receiving apparatus used for digital terrestrial broadcasting. The receiving apparatus 200 includes an ISDB-T receiving unit 201, an ISDB-T demodulating unit 202, and a content demodulating unit 203.

  The ISDB-T reception unit 201 receives a radio wave (broadcast wave) transmitted from the transmission device 110 with a reception antenna (not shown), and when the radio signal received on a predetermined channel is equal to or higher than a predetermined level, (Intermediate Frequency: intermediate frequency) The signal is converted, and the IF signal is output to the ISDB-T demodulator 202.

  The ISDB-T demodulation unit 202 receives the IF signal from the ISDB-T reception unit 201, performs demodulation processing corresponding to a predetermined modulation scheme in the ISDB-T modulation unit 111 of the transmission apparatus 110, and performs broadcasting on the IF signal. Demodulates the content TS signal. Then, the ISDB-T demodulation unit 202 outputs the demodulated TS signal to the content demodulation unit 203.

  The content demodulation unit 203 receives a TS signal from the ISDB-T demodulation unit 202, performs processing reverse to that of the content generation unit 101 of the multiplexing apparatus 100, and demodulates broadcast content. Specifically, the content demodulation unit 203 extracts the area name, the business operator name, and the like from the TS signal. Further, the content demodulation unit 203 extracts a video signal, an audio signal, a data broadcast signal, an EPG, and the like of HD quality from the TS signal.

  The content demodulation unit 203 extracts the network identification and the TS identification from the TS signal, and the area name corresponding to the network identification and the TS identification extracted from the table storing the data making up the NIT signal shown in FIG. And the name of the business operator may be read out. The same applies to the content demodulation units 203, 25 and 26 of the reception device 7 shown in FIG. 5 described later.

  As described above, the video signal, audio signal, data broadcast signal, EPG and the like of HD image quality extracted by the content demodulation unit 203 are output as the broadcast content of the area name and the operator name similarly extracted, and the video signal is Screen is displayed. The viewer can view the program of the broadcast content.

ARIB-TR-B14

  By the way, new next-generation ground broadcasting (broadcasting with 4K or 8K resolution picture quality (4K / 8K quality) video signal etc.) replacing the current terrestrial digital broadcasting (broadcasting by HD picture quality video signal etc.) by ISDB-T method The introduction of is being considered. In the introduction of this new next-generation terrestrial broadcasting, it is extremely difficult from the viewpoint of cost and labor to re-implement measures for a large-scale frequency change such as the aforementioned analog change.

  FIG. 13 is a diagram for explaining the transition from the current terrestrial digital broadcast to a new next-generation terrestrial broadcast. Fig. 13 (1) shows the channel status (current frequency band) of the current terrestrial digital broadcasting, and Fig. 13 (2) shows the channel at the beginning of the next generation terrestrial broadcasting (next-generation TV (Television: television)) The situation is shown, and FIG. 13 (3) shows the channel situation when completely transitioning to the next generation TV.

  As shown in FIG. 13 (1), in the Tokyo area, when a large-scale frequency change countermeasure such as analog variation is not implemented, the number of transmission channels that can be secured for the next-generation TV is about two (vacant See point). For this reason, it is impossible to secure one transmission channel (total 48 MHz = 6 MHz × 8 (16.8 Mbps per transmission channel)) for all eight stations of NHK and commercial broadcasting in Tokyo.

  As described above, in introducing the next-generation TV, there are currently only two idle transmission channels in the Tokyo area, and the idle frequency is extremely small. For this reason, as shown in FIG. 13 (2), it is desirable to use one of the vacant transmission channels as a "next-generation TV parking channel (CH)". The frequency band of this next-generation TV parking CH uses a "vacant" frequency band.

  The next-generation TV parking CH is about 6 to 8 HD image quality (the same image quality as HD image quality, such as NHK and commercial broadcasting, by using image compression technology (HEVC etc.) that is more efficient than digital terrestrial broadcasting. It refers to one transmission channel for sharing and transmitting broadcast content such as video signals within a predetermined range based on HD image quality. As a result, the viewer can view NHK and commercial broadcast programs from any of the next generation TV parking CH and terrestrial digital broadcast channels.

  Here, after several years of time, when almost all viewers are in a state of watching this next-generation TV parking CH instead of terrestrial digital broadcasting (terrestrial digital broadcasting) (the number of terrestrial digital viewers In the case where is almost 0), it is possible to terminate the terrestrial digital without causing great social confusion.

  Then, as shown in FIG. 13 (3), the same channel as the terrestrial digital frequency band is used by using the terrestrial digital frequency band as it is as the next-generation TV 4K / 8K new wave frequency band with the new next-generation TV. The 4K / 8K broadcast by the next-generation TV 4K / 8K New Wave (a broadcast with higher image quality than the video signal of the terrestrial digital and the next-generation TV parking CH) can be started.

  However, during the simulcasting period of FIG. 13 (2) where so-called simulcasting is performed where the same program is broadcasted on the terrestrial digital broadcasting and the next generation TV parking CH, the terrestrial digital broadcasting program has the HD image quality and the next generation The TV Parking CH program is about the quality of HD quality. Therefore, there is no big difference in image quality between the next generation TV parking CH and the terrestrial digital. Even if the viewer uses a receiver corresponding to the next-generation TV parking CH, there is a possibility that the viewer will continue to view the terrestrial digital program instead of the next-generation TV parking CH program.

  If the viewer continues to watch the terrestrial digital program, there is no problem during simultaneous broadcasting in which the same program is broadcast on the terrestrial digital and the next generation TV parking CH. However, in the situation where terrestrial digital broadcasting is ended and the state shifts from FIG. 13 (2) to FIG. 13 (3) and the next generation TV is completely shifted, viewers who continue to watch terrestrial digital programs are It will not be possible to watch terrestrial digital programs. For this reason, this viewer may think that the TV can not be viewed at all, and there is a fear that social confusion may occur (task 1).

  Also, as shown in FIG. 13 (3), after completely transitioning to the next-generation TV, the same program is broadcast from both the next-generation TV parking CH and the next-generation TV 4K / 8K new wave channels. For example, Fuji TV broadcasts are broadcasted from both the HD next-generation TV Parking CH and the 4K / 8K-quality next-generation TV 4K / 8K Shinnami channels.

  Here, when the viewer selects a TV channel, the next-generation TV 4K / 8K image quality next-generation TV 4K / 8K new wave channel is given priority, not the next-generation TV parking CH about HD image quality. It is desirable to be selected. This is because the viewer can view a higher quality program and the convenience of the viewer is improved (Problem 2).

  Further, in relation to the problem 2, in FIG. 13 (3), for example, when the channel of the next-generation TV 4K / 8K new wave is newly opened, channel re-scan work etc. are manually performed to the viewer. It is desirable not to have to be done. In this case, if the receiving apparatus can automatically rescan, the convenience for the viewer is improved.

  Therefore, the present invention has been made to solve the above-mentioned problems, and an object thereof is to provide a multiplexer and transmitter capable of smoothly realizing the transition from the current terrestrial digital broadcasting to the new next-generation terrestrial broadcasting in the future. , A receiver, a broadcast system and a chip.

  In order to solve the above problems, a multiplexing device according to claim 1 is a multiplexing device that generates a multiplex signal of broadcast content including a video signal, a transmitter that transmits the multiplex signal as a broadcast wave, and the broadcast wave is received In the multiplex apparatus of a broadcast system including a receiver for displaying a video signal included in the broadcast content on a screen, region name information and an operator name of the broadcast content in the broadcast content including the video signal A content generation unit configured to multiplex information and version information for selecting one broadcast content to the receiving apparatus that has received the same broadcast content, and to generate the multiplexed signal; .

  In the multiplexing device according to claim 2, in the multiplexing device according to claim 1, the content generation unit transmits the broadcast wave to the broadcast content including the video signal and further to the receiving device. It is characterized in that flag information for rescanning all channels is multiplexed to generate the multiplexed signal.

  Also, in the multiplexer according to claim 3, in the multiplexer according to claim 1 or 2, a multiplex signal of terrestrial digital broadcast broadcast content according to ISDB-T system is specified by another transmitter different from the transmitter. When transmitted as a broadcast wave in a channel, the content generation unit receives, in the same broadcast content as the terrestrial digital broadcast, the area name information and the provider name information of the broadcast content, and the same broadcast content And transmitting the multiplexed signal generated by the content generation unit as a broadcast wave by multiplexing version information for causing one of the broadcast contents to be selected to the receiving apparatus, and generating the multiplexed signal. The broadcast wave of the multiplex signal is transmitted on a predetermined parking channel different from terrestrial digital broadcasting, And features.

  The multiplexer according to claim 4 is the multiplexer according to claim 1 or 2, wherein another transmitter different from the transmitter transmits the multiplexed signal of the same broadcast content as terrestrial digital broadcasting by the ISDB-T system. Is transmitted as a broadcast wave on a predetermined parking channel different from the terrestrial digital broadcast, and thereafter, when the digital terrestrial broadcast is stopped, the content generation unit is transmitted on the predetermined parking channel In the broadcast content, which is the same as the broadcast content of the broadcast wave and includes a video signal having a higher image quality than the broadcast content, the area name information and the provider name information of the broadcast content and the predetermined parking for the receiving device Channel is the same as the terrestrial digital broadcast than the broadcast content of the broadcast wave transmitted on a channel. Transmitter for multiplexing version information for giving priority to selecting broadcast contents of broadcast waves to be transmitted by the network, generating the multiplexed signal, and transmitting the multiplexed signal generated by the content generation unit as the broadcast wave Thus, the broadcast wave of the multiplexed signal is transmitted on the same channel as the terrestrial digital broadcast.

  Furthermore, a transmitter according to claim 5 is a multiplexer for generating a multiplex signal of broadcast content including a video signal, a transmitter for transmitting the multiplex signal as a broadcast wave, and receiving the broadcast wave to obtain the broadcast content. In the transmitter of the broadcast system configured to include a receiver for displaying the video signal contained therein, in the multiplex signal of the broadcast content generated by the multiplexer, area name information and business name information of the broadcast content And multiplexing section for multiplexing version information for selecting one broadcast content to the receiving apparatus that has received the same broadcast content, and generating a new multiplexed signal, and the new multiplexed signal It is characterized by transmitting as a broadcast wave.

  In the transmission device according to claim 6, in the transmission device according to claim 5, the multiplexing unit transmits the broadcast wave to the reception device further to a multiplex signal of broadcast content including the video signal. Multiplexing flag information for rescanning all the channels to be generated, and generating the new multiplexed signal.

  Furthermore, a receiving apparatus according to claim 7 is a multiplexing apparatus for generating a multiplex signal of broadcast content including a video signal, a transmission apparatus for transmitting the multiplex signal as a broadcast wave, and the broadcast wave received to be the broadcast content. In the receiving device of a broadcasting system configured to include a receiving device for displaying a video signal contained therein, a multiplex signal of broadcast content of terrestrial digital broadcast by ISDB-T system is received, and the multiplex signal is transmitted from the multiplex signal. Terrestrial digital reception system part for extracting area name information and company name information, and a predetermined parking channel different from a channel to which the broadcast wave of the terrestrial digital broadcast is transmitted Receiving multiplexed signals, and from the multiplexed signals, area name information and company name information of the broadcast content; A parking reception system unit that extracts version information for selecting one broadcast content when the reception device receives the same broadcast content, and the same as broadcast content of broadcast waves transmitted on the predetermined parking channel, And receiving a multiplex signal of broadcast content including a video signal having a higher quality than that of the broadcast content, and extracting area information and provider name information of the broadcast content and the version information from the multiplexed signal. The reception signal has a predetermined level or more in accordance with the scanning of all the channels in which the multiplex signal of the broadcast content is received by the system unit, the terrestrial digital reception system unit, the parking reception system unit and the new wave channel reception system unit. Area name information and events extracted by the above-mentioned terrestrial digital reception system section for each channel of Name information, area name information extracted by the parking reception system section, company name information and version information, and area name information, company name information and version information extracted by the Shinnami channel reception system section A channel information registration unit registered as channel information, and a content selection unit which selects a broadcast content desired by the viewer according to the remote control operation of the viewer and outputs a video signal of the selected broadcast content for screen display And the content selection unit reads from the channel information registration unit the first channel information indicated by the remote control operation of the viewer, and the same area name information and operator as the first channel information. Reading out second channel information having name information, the first and second channel information It is determined whether the same broadcast content exists or not based on the above, and when it is determined that the same broadcast content does not exist, the broadcast content corresponding to the first channel information indicated by the remote control operation of the viewer is selected. If it is determined that the same broadcast content exists, the same broadcast content received by the parking reception system unit is selected in preference to the same broadcast content received by the terrestrial digital reception system unit, and the channel information is selected. The same broadcast content received by the new wave channel reception system unit is selected in preference to the same broadcast content received by the parking reception system unit based on version information included in .

  A receiving apparatus according to claim 8 is the receiving apparatus according to claim 7, further comprising a C / N margin calculating unit for calculating a C / N margin of the multiplexed signal received by the new wave channel receiving system unit. The content selection unit determines that the same broadcast content exists, and the two or more broadcast content received by the new wave channel reception system unit is the same, and the content of the respective channels in the two or more broadcast contents is the same. Selecting one broadcast content among the two or more broadcast contents based on the C / N margin calculated by the C / N margin calculation unit when the version information included in the channel information is the same. It features.

The receiving apparatus according to claim 9 is the receiving apparatus according to claim 7 or 8, wherein the parking receiving system unit and the new wave channel receiving system unit further include, from the multiplexed signal, the receiving apparatus according to the broadcast. The flag information for rescanning all the channels of the wave is extracted, and when the flag information indicates that the rescanning is performed, the all channels are rescanned, and the broadcast that can be received from the multiplexed signal is received. The broadcast content extracted by the rescanning by the parking reception system unit and the new wave channel reception system unit , extracting the region name information of the content, the company name information and the version information, and the channel information registration unit regional name information and business name information, as well as the version information, to register as a new piece of the channel information It is characterized in.

  Furthermore, the broadcast system of claim 10 generates a multiplex signal of broadcast content including a video signal, the transmission apparatus of transmitting the multiplex signal as a broadcast wave, and receiving the broadcast wave It is characterized by including the receiver of Claim 7 which carries out the screen display of the video signal contained in the said broadcast content.

  Furthermore, the chip according to claim 11 is a chip mounted on the multiplexing apparatus according to claim 1 or the transmission apparatus according to claim 5, and in the broadcast content including the video signal, area name information and an operator name of the broadcast content It is characterized in that information and version information for making one broadcast content to be selected to a receiving apparatus that has received the same broadcast content are multiplexed to generate a multiplexed signal.

  The chip according to claim 12 is a chip mounted on the receiving apparatus according to claim 7, and from the received multiplexed signal of broadcast content of terrestrial digital broadcast by the received ISDB-T system, region name information of the broadcast content and A multiplex signal of broadcast content identical to that of the terrestrial digital broadcast, received by a predetermined parking channel different from a terrestrial digital signal reception system unit for extracting business name information and a channel to which the broadcast wave of the terrestrial digital broadcast is transmitted A parking reception system unit for extracting area name information and provider name information of the broadcast content, and version information for selecting one broadcast content when the reception apparatus receives the same broadcast content; The same as the received broadcast content of the broadcast wave transmitted on the predetermined parking channel, and the corresponding broadcast New wave channel reception system unit for extracting area name information, business name information, and version information of the broadcast content from multiplexed signals of broadcast content including video signals having higher image quality than content; and the terrestrial digital reception system unit The terrestrial digital signal reception system for each channel having a reception signal having a predetermined level or more, in accordance with scanning of all channels in which the multiplex signal of the broadcast content is received by the parking reception system unit and the new wave channel reception system unit. Area name information and company name information extracted by the department, area name information extracted by the parking reception system section, company name information and version information, and an area name extracted by the new wave channel reception system section Information, company name information and version information are registered as channel information And a content selection unit for selecting a broadcast content desired by the viewer according to the remote control operation of the viewer and outputting a video signal of the selected broadcast content for screen display; The selection unit reads from the channel information registration unit the first channel information indicated by the remote control operation of the viewer, and has the second name information and the business name information identical to the first channel information. The channel information is read, and it is determined based on the first and second channel information whether or not the same broadcast content exists, and when it is determined that the same broadcast content does not exist, the remote control operation of the viewer is When the broadcast content corresponding to the first channel information shown is selected and it is determined that the same broadcast content exists If the same broadcast content received by the parking reception system unit is selected in preference to the same broadcast content received by the terrestrial digital reception system unit, the selected broadcast content is selected based on the version information included in the channel information. The same broadcast content received by the new wave channel reception system unit is selected in preference to the same broadcast content received by the parking reception system unit.

  As described above, according to the present invention, it is possible to smoothly realize the transition from the current terrestrial digital broadcasting to the future new next-generation terrestrial broadcasting.

(1) is a figure which shows the system of the present transmission side (The transmission side in the present terrestrial digital broadcast (terrestrial digital broadcasting)). (2) is a figure which shows the system | strain of the transmission side in the beginning of start of next-generation terrestrial broadcasting (next-generation TV). (3) is a figure which shows the system | strain of the transmission side at the time of complete transfer to next-generation TV. FIG. 2 is a block diagram showing a configuration of a next generation TV parking CH transmission system including a multiplexer according to an embodiment of the present invention. It is a flowchart which shows the process of a content production | generation part. FIG. 2 is a block diagram showing the configuration of a next-generation TV 4K / 8K new wave transmission system including a multiplexer according to an embodiment of the present invention. It is a block diagram which shows the structure of the receiver by embodiment of this invention. It is a block diagram which shows the structure of a content comparison part. It is a flowchart which shows the process of a channel information registration part. It is a flowchart which shows the process of a content selection part. It is a flowchart which shows the broadcast content selection process by a content selection part. It is a block diagram which shows the structure of the conventional multiplexer and transmitter (the present terrestrial digital transmission system | strain) used for terrestrial digital broadcasting. It is a block diagram which shows the structure of the conventional receiver used for terrestrial digital broadcasting. It is a figure which shows the data which comprise a NIT signal. (1) is a figure which shows the channel condition (the present condition) in the present terrestrial digital broadcasting (terrestrial digital broadcasting). (2) is a figure which shows the channel condition of the beginning of start of next-generation terrestrial broadcasting (next-generation TV). (3) is a figure which shows a channel condition when it transfers to a next-generation TV completely.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The present invention relates to a first transmission system for transmitting broadcast content by the current terrestrial digital broadcast channel, a second transmission system for transmitting broadcast content by the next generation TV parking CH, and a next generation TV 4K / 8K Shin Wave. In the third transmission system for transmitting the broadcast content by the channel, the first transmission system multiplexes the area name and the business name in the broadcast content, and the second and third transmission systems transmit the area name in the broadcast content and In addition to multiplexing the business name, a next-generation TV version indicating a version of broadcast content is also multiplexed.

  Furthermore, the present invention selects broadcast contents based on region name, company name and next-generation TV version in a receiver sharing the current terrestrial digital broadcast and future next-generation terrestrial broadcast, and in particular, selects a plurality of broadcast contents. For the same broadcast content, it is characterized in that one broadcast content is selected in the priority order of the next-generation TV 4K / 8K new wave, next-generation TV parking CH, and terrestrial digital broadcast.

  Here, the same broadcast content refers to the case where the program is the same but the resolution or the like of the video signal is different. For example, if the program is the same and one image quality of the video signal is HD and the other is 4K / 8K, both broadcast contents are the same.

  As shown in FIG. 13, when transitioning from the current terrestrial digital broadcasting to the new next-generation terrestrial broadcasting in the future, the channel conditions are in the order of FIG. 13 (1), FIG. 13 (2) and FIG. 13 (3). Transition. FIG. 1 shows a transmission system for realizing each channel situation of FIGS. 13 (1) to 13 (3) for transition from the current terrestrial digital broadcasting to a new generation of next-generation terrestrial broadcasting in the future.

  FIG. 1 (1) is a diagram showing a system of the current transmission side (transmission side in the current terrestrial digital broadcast), and corresponds to FIG. 13 (1). The transmission system of the current terrestrial digital broadcast (terrestrial digital broadcasting) consists of only the first transmission system. This first transmission system is the same as the transmission system shown in FIG. 10, and is configured by the multiplexer 100 and the transmitter 110. A radio wave of terrestrial digital is transmitted by the first transmission system, and the channel state shown in FIG. 13 (1) can be realized.

  FIG. 1 (2) is a diagram showing a system on the transmission side at the start of the next-generation TV, which corresponds to FIG. 13 (2). The system of the transmission side at the beginning of the next-generation TV is the first transmission system shown in FIG. 10, the second transmission system that realizes the broadcast of the next-generation TV parking CH, and the next-generation TV 4K / 8K new wave. It consists of the 3rd transmission system which realizes broadcast. The first transmission system is as described above.

  The second transmission system includes a plurality of multiplexers 1, a content multiplexer 3, and a transmitter 5. The radio wave of the next generation TV parking CH is transmitted by the second transmission system. Further, the third transmission system is configured by one or two multiplexers 2, a content multiplexer 4 and a transmitter 6. The radio wave of the next-generation TV 4K / 8K new wave is transmitted by the third transmission system. As described above, the channel situation shown in FIG. 13 (2) can be realized by the first, second and third transmission channels.

  FIG. 1 (3) is a diagram showing a system on the transmission side when the system is completely shifted to the next-generation TV, and corresponds to FIG. 13 (3). The transmitting system when completely transitioned to the next-generation TV is composed of the second and third transmitting systems. The second and third transmission systems are as described above. Thus, the channel situation shown in FIG. 13 (3) can be realized by the second and third transmission systems.

  Note that the multiplexer 100 and the transmitter 110 of the terrestrial digital transmission system shown in FIG. 10, a plurality of multiplexers 1 of the next-generation TV parking CH transmission system shown in FIG. 2 described later, the content multiplexer 3 and the transmitter 5 A broadcast system for transmitting and receiving broadcast contents is configured by the multiplexer 2 of the next-generation TV 4K / 8K new wave transmission system shown in FIG. 4, the content multiplexer 4 and the transmitter 6, and the receiver 7 shown in FIG. Be done.

[Transmission side: second transmission system: next generation TV parking CH transmission system]
Next, the next-generation TV parking CH transmission system, which is the second transmission system shown in FIGS. 13 (2) and 13 (3), will be described in detail. FIG. 2 is a block diagram showing the configuration of a next generation TV parking CH transmission system including a multiplexer according to an embodiment of the present invention. The next-generation TV parking CH transmission system is composed of a plurality of multiplexers 1, a content multiplexer 3 and a transmitter 5 as described above.

(Multiplexing device 1)
The multiplexing apparatus 1 includes a content generation unit 11 that multiplexes a region name and the like on broadcast content such as a video signal and generates a TS signal (multiplex signal) of the broadcast content. FIG. 3 is a flowchart showing processing of the content generation unit 11.

  The content generation unit 11 inputs a video signal, an audio signal, a data broadcast signal, an EPG, etc. of about HD image quality (step S301), and also inputs a region name, a business name, a next generation TV version and a next generation TV preset flag. (Step S302).

  The area name indicates the name of the area where the broadcast content is to be broadcast, and the business name indicates the name of the business operator who performs the broadcast content broadcast business. These pieces of information are similar to the information contained in the NIT signal, and for details, refer to FIG. These pieces of information are also used for the next-generation TV 4K / 8K new wave transmission system, which is the third transmission system described later.

  These area names and company names are used by the receiving side to determine whether the same broadcast content is received on different channels. For example, when the receiving party has the same area name and company name of the broadcast content received by the terrestrial digital channel and the area name and company name of the broadcast content received by the next generation TV parking CH, these are the same. It can be determined that the same broadcast content is received on the two channels. The same applies to the case where the area name and company name of the broadcast content received by the Next Generation TV Parking CH are the same as the area name and company name of the broadcast content received by the next generation TV 4K / 8K Shinnami channel. is there.

  The next-generation TV version shows numerical values that reflect the freshness of broadcast content. Specifically, the larger the value, the more the broadcast content is upgraded. This next-generation TV version is also used for the next-generation TV 4K / 8K new wave transmission system, which is the third transmission system described later.

  The next-generation TV version of the broadcast content of the next-generation TV 4K / 8K new wave transmission system is set to a higher value than the next-generation TV version of the next-generation TV parking CH. For example, in the next-generation TV version, “1” is set for the broadcast content of the next-generation TV parking CH that transmits a video signal of about HD quality. After that, when the video signal of the same program and the video signal of the HD quality level is improved to the video signal of 4K / 8K quality, the next generation TV 4K / 8K new transmits the video signal of 4K / 8K quality. "10" is set for the broadcast content of the wave.

  Also, when the 4K / 8K image quality is improved, the next-generation TV version of the next-generation TV4K / 8K Shinnami broadcast content to be transmitted later is the next to the next-generation TV4K / 8K Shinnami broadcast content that has already been transmitted. A value higher than the generation TV version is set. For example, if 4K / 8K image quality is improved after “10” is set for the next-generation TV 4K / 8K new wave broadcast content, the next-generation TV 4K / 4 transmits the improved 4K / 8K image quality image signal. "11" is set for the broadcast content of 8K Shinnami.

  The next-generation TV preset flag is used when the next-generation TV 4K / 8K new wave channel is newly opened, when the transmission channel is changed (when channel repacking is performed), or when the next-generation TV is upgraded (first If the new wave channel of 4K image quality is opened and then the version is upgraded and the new wave channel of 8K image quality is also opened and simultaneous broadcasting is implemented) etc., the new channel is immediately scanned to the receiving side It is a flag for prompting rescanning of all channels to make it happen. For example, when the next generation TV preset flag is "ON", it indicates that the rescanning of all channels is urged, and when it is "OFF", the rescanning of all channels is not promoted. This next-generation TV preset flag is also used for the next-generation TV 4K / 8K new wave transmission system, which is a third transmission system described later.

  The content generation unit 11 multiplexes the input area name, company name, next-generation TV version and next-generation TV preset flag into the input video signal, audio signal, data broadcast signal, EPG, etc. Are generated (step S303). Then, the content generation unit 11 transmits the generated TS signal of the broadcast content to the content multiplexing apparatus 3 (step S304).

  Thus, for example, “Kanto wide area” “NHK general” “1” “OFF” is multiplexed in the TS signal of the broadcast content as the area name, company name, next-generation TV version and next-generation TV preset flag. Ru.

(Content multiplex device 3)
Referring to FIG. 2, content multiplexing apparatus 3 receives TS signals of broadcast content from a plurality of multiplexing apparatuses 1, multiplexes each TS signal, and transmits the multiplexed TS signal to transmitting apparatus 5. In the next-generation TV parking CH, TS signals of approximately 6 to 8 broadcast contents are multiplexed and transmitted as radio waves (broadcast waves) from one TV channel (6 MHz). Therefore, the content multiplexing apparatus 3 receives TS signals from about 6 to 8 multiplexing apparatuses 1 respectively, and transmits one TS signal obtained by multiplexing these to the transmitting apparatus 5.

(Transmitting device 5)
The transmission device 5 includes a next-generation TV system modulation unit 13 and a next-generation TV system transmission unit 15. The next-generation TV system modulation unit 13 receives a TS signal in which a plurality of broadcast contents are multiplexed from the content multiplexing apparatus 3, and performs modulation processing on the TS signal according to a predetermined modulation system based on the next-generation TV system. , Generate a modulated signal and output it to the next-generation TV system transmitter 15.

  The next-generation TV system transmitter 15 receives the modulation signal from the next-generation TV system modulator 13, converts the modulation signal into a predetermined radio signal, and does not illustrate radio waves of the radio signal in a 6 MHz band of one channel. Transmit from the transmit antenna.

  As described above, in the next-generation TV parking CH transmission system, the area name, business name, next-generation TV version, and next-generation TV preset flag are multiplexed by the multiplexing device 1 to the video signal etc. Of the broadcast content are multiplexed by the content multiplexing apparatus 3, and one TS signal multiplexed with the TS signals of the plurality of broadcast contents by the transmission apparatus 5 is one TV channel. It is transmitted as a radio wave from (6 MHz).

[Transmission side: Third transmission system: Next-generation TV 4K / 8K new wave transmission system]
Next, the next-generation TV 4K / 8K new wave transmission system, which is the third transmission system shown in FIG. 13 (2) and FIG. 13 (3), will be described in detail. FIG. 4 is a block diagram showing the configuration of a next-generation TV 4K / 8K new wave transmission system including a multiplexer according to an embodiment of the present invention. The next-generation TV 4K / 8K new wave transmission system is composed of one or two multiplexers 2, a content multiplexer 4 and a transmitter 6 as described above.

(Multiple device 2)
The multiplexing device 2 includes a content generation unit 12 which multiplexes a region name and the like on a video signal etc. and generates a TS signal of broadcast content. Comparing the content generation unit 11 of the multiplex device 1 of the next generation TV parking CH transmission system shown in FIG. 2 with the content generation unit 12 of this multiplex device 2, the content generation unit 11 inputs a video signal of about HD quality. On the other hand, the content generation unit 12 is different in that a video signal of 4K / 8K image quality is input. The other configuration is the same.

  The content generation unit 12 inputs 4K / 8K video signals, audio signals, data broadcast signals, EPG and the like, and also inputs a region name, a business name, a next generation TV version and a next generation TV preset flag. Then, the content generation unit 12 multiplexes the input area name, company name, next-generation TV version and next-generation TV preset flag into the input video signal etc. to generate the TS signal of the broadcast content, and generates the broadcast. The TS signal of the content is transmitted to the content multiplexing apparatus 4.

  For example, “Kanto wide area”, “NHK general”, “10” and “OFF” are multiplexed in the TS signal of the broadcast content as the area name, company name, next-generation TV version and next-generation TV preset flag. Here, in the TS signal of the broadcast content of the same program, “1” is multiplexed for the next generation TV parking CH in the next generation TV version, and the broadcast content of the next generation TV parking CH for the next generation TV 4K / 8K new wave "10" indicating that the version has also been upgraded is multiplexed.

(Content multiplex device 4)
When the content multiplexing device 4 receives TS signals of broadcast content from the two multiplexing devices 2 respectively, it multiplexes the two TS signals and transmits the multiplexed TS signal to the transmitting device 6. When the content multiplexing apparatus 4 receives a TS signal of broadcast content from only one multiplexing apparatus 2, the content multiplexing apparatus 4 transmits the received TS signal to the transmission apparatus 6 as it is. This is because, in the next-generation TV 4K / 8K new wave, two TS signals can be multiplexed when the video signal has 4K image quality, and two TS signals can not be multiplexed when the video signal has 8K image quality It is.

(Transmission device 6)
The transmission device 6 includes a next-generation TV system modulation unit 14 and a next-generation TV system transmission unit 16. The next-generation TV scheme modulation unit 14 and the next-generation TV scheme transmission unit 16 are the same as the next-generation TV scheme modulation unit 13 and the next-generation TV scheme transmission unit 15 of the transmission device 5 shown in FIG. Omit.

  In this manner, in the next-generation TV 4K / 8K new wave transmission system, the area name, business name, next-generation TV version, and next-generation TV preset flag are multiplexed by the multiplexing device 2 to video signals of 4K / 8K image quality etc. The TS signal of the broadcast content is generated, and in the case of two broadcast content TS signals, the TS signal is multiplexed by the content multiplexing device 4, and the TS signal is one TV channel (6 MHz) by the transmitting device 6. Transmitted as a radio wave.

  As described above, according to the multiplexing device 1 of the next generation TV parking CH transmission system according to the embodiment of the present invention, the content generation unit 11 generates an HD image quality video signal etc. The TV version and the next-generation TV preset flag are multiplexed to generate a TS signal of broadcast content. Then, the content multiplexing device 3 multiplexes a plurality of TS signals, and the transmitting device 5 transmits the radio wave of the next-generation TV parking CH in the 6 MHz band of one channel.

  Further, according to the multiplexing device 2 of the next-generation TV 4K / 8K new wave transmission system according to the embodiment of the present invention, the content generation unit 12 generates the 4K / 8K image signal etc. The TV version and the next-generation TV preset flag are multiplexed to generate a TS signal of broadcast content. Then, the content multiplexing apparatus 4 multiplexes two TS signals when they are input, and the transmitting apparatus 6 transmits it as a radio wave of the next-generation TV 4K / 8K new wave in the 6 MHz band of one channel. did.

  This causes the reception device 7 described later to receive radio waves transmitted from the terrestrial digital transmission system that transmits the current terrestrial digital radio waves, the next-generation TV parking CH transmission system, and the next-generation TV 4K / 8K new-wave transmission system. be able to.

  In addition, based on the area name and the company name, the receiving device 7 determines that the broadcast content transmitted from each transmission system is the same, and the broadcast content of terrestrial digital broadcasting and the broadcast content of the next generation TV parking CH If the same, the broadcast content of the next generation TV parking CH can be prioritized over the broadcast content of terrestrial digital.

  As a result, even if the same broadcast content as the terrestrial digital channel is broadcast on the next-generation TV parking CH, the broadcast of the next-generation TV parking CH, not the terrestrial digital broadcast content, is provided to all viewers. The program of the content can be watched, and the broadcast by terrestrial digital can be ended without causing social confusion. That is, the problem 1 can be solved.

  Also, if the broadcast content of the next generation TV Parking CH and the broadcast content of the next generation TV 4K / 8K are the same for the reception device 7, the next generation TV 4K / 8K Shinnami will be broadcast based on the next generation TV version. Content can be prioritized over broadcast content of next-generation TV parking CH.

  As a result, even if the broadcast by the next-generation TV 4K / 8K is started sequentially, the broadcast of the next-generation TV 4K / 8K Shinnami is not broadcast content of the next-generation TV Parking CH to all the viewers. It is possible to watch a program of content. That is, since the viewer can view a higher quality program, the convenience of the viewer can be improved and the problem 2 can be solved.

  Therefore, it is possible to introduce the next-generation TV parking CH even in areas where the frequency is tight, and it is possible to smoothly realize the transition from the current terrestrial digital broadcasting to the future new-generation terrestrial broadcasting. Become.

  Furthermore, the receiver 7 can rescan all channels based on the next-generation TV preset flag.

  As a result, when the channel of the next-generation TV 4K / 8K New Wave is newly opened, when the transmission channel is changed (when channel repacking is performed), when the next-generation TV is upgraded, etc., the receiving device 7 Since it rescans all channels, new broadcast content can be received, and the viewer can view the program of the new broadcast content. That is, the convenience of the viewer can be further improved.

〔Receiver〕
Next, the device on the receiving side will be described. The device on the receiving side includes a terrestrial digital transmission system as a first transmission system, a next generation TV parking CH transmission system as a second transmission system, and a next generation TV 4K / 8K new wave transmission system as a third transmission system. Receive radio waves (broadcast waves) sent from

  FIG. 5 is a block diagram showing the configuration of a receiver according to an embodiment of the present invention. The receiving device 7 includes a first receiving system (ground digital receiving system) including an ISDB-T receiving unit 201, an ISDB-T demodulating unit 202, and a content demodulating unit 203, a next-generation TV system receiving unit 21, A second receiving system (next-generation TV parking CH receiving system) including a generation TV system demodulation unit 23 and a content demodulation unit 25, a next generation TV system reception unit 22, a next-generation TV system demodulation unit 24, and a content demodulation unit 26 and a third receiving system (next-generation TV 4K / 8K new wave receiving system), and further includes a C / N margin calculating unit 27 and a content comparing unit 28. The receiving device 7 is a common receiving device that receives terrestrial digital broadcast content and next-generation TV broadcast content.

  A terrestrial digital reception system unit is configured by the ISDB-T reception unit 201, ISDB-T demodulation unit 202, and content demodulation unit 203, and parking is performed by the next-generation TV system reception unit 21, the next-generation TV system demodulation unit 23, and the content demodulation unit 25. A reception system unit is configured, and a new wave channel reception system unit is configured by the next-generation TV system reception unit 22, the next-generation TV scheme demodulation unit 24, and the content demodulation unit 26.

(1st reception system: terrestrial digital reception system)
First, the terrestrial digital reception system, which is the first reception system, will be described. The ISDB-T reception unit 201, the ISDB-T demodulation unit 202, and the content demodulation unit 203 that constitute this terrestrial digital reception system are the same as the reception system shown in FIG.

  The ISDB-T demodulator 202 further calculates the desired signal level, noise level, MER, etc., based on the IF signal input from the ISDB-T receiver 201, and the desired signal level of the predetermined terrestrial digital channel, noise level , MER and the like to the C / N margin calculation unit 27.

  The content demodulation unit 203 receives a TS signal from the ISDB-T demodulation unit 202, extracts an area name and an operator name such as a video signal of HD image quality from the TS signal, and outputs a video signal of a predetermined channel of terrestrial digital The area name and the company name are output to the content comparison unit 28.

(Second receiving system: next-generation TV parking CH receiving system)
Next, the next generation TV parking CH reception system, which is the second reception system, will be described. The next-generation TV system reception unit 21 of the next-generation TV parking CH reception system receives the radio wave of the next-generation TV parking CH transmitted from the transmission device 5 of the next-generation TV parking CH transmission system shown in FIG. Receive at Then, when the radio signal received in the next-generation TV parking CH (one channel (6 MHz)) is equal to or higher than a predetermined level, the next-generation TV system reception unit 21 converts the radio signal into an IF signal, and It is output to the generation TV system demodulator 23.

  The next-generation TV system demodulator 23 receives an IF signal from the next-generation TV system receiver 21 and applies a predetermined modulation scheme to the next-generation TV system modulator 13 of the transmitter 5 shown in FIG. The corresponding demodulation processing is performed to demodulate the TS signal of the multiplexed broadcast content. Then, the next-generation TV system demodulation unit 23 outputs the TS signal of the multiplexed broadcast content to the content demodulation unit 25.

  The next-generation TV system demodulation unit 23 further calculates a desired signal level, a noise level, a MER, and the like based on the IF signal input from the next-generation TV system reception unit 21, and outputs a desired signal level of the next-generation TV parking CH. The noise level, MER, etc. are output to the C / N margin calculation unit 27.

  The content demodulation unit 25 receives the TS signal of the broadcast content multiplexed from the next-generation TV system demodulation unit 23 and performs processing reverse to that of the content multiplexing apparatus 3 shown in FIG. The signal is separated into TS signals of broadcast content for each program. In the next-generation TV parking CH, the content multiplexing apparatus 3 multiplexes TS signals of approximately 6 to 8 broadcast contents. The content demodulation unit 25 separates the TS signal of the broadcast content for each of approximately 6 to 8 programs.

  The content demodulation unit 25 performs processing reverse to that of the content generation unit 11 of the multiplexing device 1 shown in FIG. 2 for each TS signal of the separated broadcast content, and demodulates the broadcast content. Specifically, for each TS signal of the broadcast content, the content demodulation unit 25 converts the TS signal to a video signal, an audio signal, a data broadcast signal, an EPG, etc. of about HD quality, and an area name, an operator name, the next Extract generation TV version and next generation TV preset flag. Then, the content demodulation unit 25 is a content comparison unit for the video signal, audio signal, data broadcast signal, EPG, etc. of each broadcast content of the program in the next generation TV parking CH, and the area name, business name and next generation TV version. Output to 28.

  If the content demodulation unit 25 determines that the information prompting rescanning of the channel is set in the extracted next-generation TV preset flag (for example, "ON"), the content demodulation unit 25 outputs a rescanning instruction to rescan all channels. Let me do it. Further, when the content demodulation unit 25 determines that the information prompting rescanning of the channel is not set in the next-generation TV preset flag (for example, “OFF”), the rescanning of all the channels is not performed, and the above-described Continue processing Here, the channel rescan is a process of confirming the reception signals in all channels (13 ch to 52 ch of UHF band, etc.) of the TV, and confirming whether the broadcast of the new broadcast content is not started.

(Third receiving system: next-generation TV 4K / 8K new wave system)
Next, the next generation TV 4K / 8K new wave reception system, which is the third reception system, will be described. The next-generation TV system receiver 22 of the next-generation TV 4K / 8K new wave reception system is a radio wave of the next-generation TV 4K / 8K new wave transmitted from the transmission device 6 of the next-generation TV 4K / 8K new wave transmission system shown in FIG. Are received by a receiving antenna (not shown). Then, when the wireless signal received on the predetermined channel (one channel (6 MHz)) is equal to or higher than the predetermined level, the next-generation TV system reception unit 22 converts the wireless signal to an IF signal, and the IF signal is the next-generation TV system The signal is output to the demodulator 24.

  The next-generation TV system demodulator 24 receives an IF signal from the next-generation TV system receiver 22, and applies a predetermined modulation scheme to the next-generation TV system modulator 14 of the transmitting device 6 shown in FIG. A corresponding demodulation process is performed to demodulate the TS signal. Then, the next-generation TV system demodulation unit 24 outputs the demodulated TS signal to the content demodulation unit 26.

  The next-generation TV system demodulator 24 further calculates a desired signal level, noise level, MER, etc. based on the IF signal input from the next-generation TV system receiver 22, and the predetermined channel of the next-generation TV 4K / 8K new wave The desired signal level, the noise level, the MER, etc. are output to the C / N margin calculation unit 27.

  The content demodulation unit 26 receives the TS signal from the next-generation TV system demodulation unit 24 and performs processing reverse to that of the content multiplexing apparatus 4 shown in FIG. 4, and when the TS signal is multiplexed, the input TS signal Are separated into two broadcast content TS signals. In the next-generation TV 4K / 8K new wave, when the video signal has 4K image quality, two TS signals may be multiplexed. Also, the content demodulation unit 26 does not perform separation processing when the TS signal is not multiplexed.

  The content demodulation unit 26 performs processing reverse to that of the content generation unit 12 of the multiplexing device 2 shown in FIG. 4 on the TS signal of the broadcast content to demodulate the broadcast content. Specifically, the content demodulation unit 26 is configured to convert video signals of 4K / 8K image quality, audio signals, data broadcast signals, EPGs, etc. from TS signals, as well as region names, company names, next-generation TV versions and next-generation TVs. Extract the preset flag. Then, the content demodulation unit 26 compares the video signal, audio signal, data broadcast signal, EPG, etc. of the predetermined channel of the next-generation TV 4K / 8K new wave, the area name, the business operator name and the next-generation TV version Output to

  When it is determined that the information for prompting rescanning of the channel is set in the extracted next-generation TV preset flag, the content demodulation unit 26 outputs a rescanning instruction and causes all channels to be rescanned. If the content demodulation unit 26 determines that the information prompting rescanning of the channel is not set in the next-generation TV preset flag, the content demodulation unit 26 does not perform rescanning of all the channels, and continues the above-described processing.

  The receiver 7 scans all channels at a predetermined timing such as when the power of the receiver 7 is turned on. When the content demodulation units 25 and 26 determine that the information prompting rescanning of the channel is set in the next-generation TV preset flag, the receiving device 7 rescans all channels. In this case, the next-generation TV system receiver 22 of the next-generation TV 4K / 8K new wave reception system performs the above-described processing for each channel for all channels of the next-generation TV 4K / 8K new wave reception system to demodulate the next-generation TV system. The unit 24 and the content demodulation unit 26 also perform the above-described processing for each channel. Similarly, the next-generation TV system receiver 21 of the next-generation TV parking CH reception system, the next-generation TV system demodulator 23 and the content demodulator 25 perform the above-described processing. Also, the ISDB-T reception unit 201 of the terrestrial digital reception system performs the above-described processing for each channel for all channels of the terrestrial digital reception system, and the ISDB-T demodulation unit 202 and the content demodulation unit 203 also perform the above-described processing for each channel. Perform the processing of Then, as will be described later, the content comparison unit 28 selects broadcast content area names, company names and C / N margins of receivable terrestrial digital channels, and broadcast content of receivable next-generation TV parking CHs, as described later. Area name, company name, next-generation TV version and C / N margin, and next-generation TV4K / 8K new wave channel name of the broadcast content in each channel, company name, next-generation TV version and C / N N margin is registered as channel information. Details will be described later.

  In this way, all channels are rescanned based on the next-generation TV preset flag. For example, when the channel of the next-generation TV 4K / 8K new wave is newly opened, the new channel can be scanned immediately. The viewer can view new broadcast content without performing any work.

(C / N margin calculation unit 27)
The C / N margin calculation unit 27 receives from the ISDB-T demodulation unit 202 the desired signal level, noise level, MER, etc. of the predetermined channel of the terrestrial digital, and calculates a C / N margin based on these data. Then, the C / N margin calculation unit 27 outputs the C / N margin of the predetermined channel of the terrestrial digital to the content comparison unit 28.

  The C / N margin calculation unit 27 receives the desired signal level, noise level, MER, etc. of the next-generation TV parking CH from the next-generation TV system demodulation unit 23, and calculates the C / N margin based on these data. . Then, the C / N margin calculation unit 27 outputs the C / N margin of the next-generation TV parking CH to the content comparison unit 28.

  The C / N margin calculation unit 27 receives the desired signal level, noise level, MER and the like of a predetermined channel of the next-generation TV 4K / 8K new wave from the next-generation TV system demodulation unit 24 and performs C / N based on these data. Calculate N margin. Then, the C / N margin calculation unit 27 outputs the C / N margin of the predetermined channel of the next-generation TV 4K / 8K new wave to the content comparison unit 28.

  The C / N margin is an index indicating how resistant the received signal is to noise. For example, in an environment with high received power or an environment with low noise, the C / N margin is increased, the environment with low received power, or the received signal level is extremely low but the C / N margin is 0 Get close.

(Content Comparison Unit 28)
Next, the content comparison unit 28 shown in FIG. 5 will be described. FIG. 6 is a block diagram showing the configuration of the content comparison unit 28. As shown in FIG. The content comparison unit 28 includes a channel information registration unit 31 and a content selection unit 32. The channel information registration unit 31 receives information on the channels that can be received along with the scanning of all the channels when the rescanning instruction is output by the content demodulation units 25 and 26 when the power supply of the receiving device 7 is turned on (area name , Company name, etc.). The content selection unit 32 selects a broadcast content desired by the viewer in accordance with the remote control operation of the viewer, and outputs the video signal and the like for screen display.

(Channel information registration unit 31)
FIG. 7 is a flowchart showing the processing of the channel information registration unit 31. The channel information registration unit 31 performs an area scan on channels whose radio signals received by the ISDB-T reception unit 201, the next-generation TV system reception unit 21, and the next-generation TV system reception unit 22 have a predetermined level or more. The name, company name and C / N margin, or area name, company name, next-generation TV version and C / N margin are registered as channel information (stored in a memory (not shown)). The channel information registration unit 31 deletes channel information already registered before scanning of all channels is started, and registers new channel information along with scanning of all channels. Thereby, the registration of the channel information of the channel for which the broadcast has ended is deleted, and the channel information of the channel for which the broadcast has newly started is registered.

  With reference to FIGS. 6 and 7, channel information registration unit 31 inputs an area name and a business name, such as a video signal of a predetermined channel of terrestrial digital, from content demodulation unit 203 along with scanning of all channels. The C / N margin of the channel is input from the C / N margin calculation unit 27 (step S701). Then, the channel information registration unit 31 registers, as channel information, the area name, the provider name, and the C / N margin of the predetermined channel of the terrestrial digital scanned (step S702).

  The channel information registration unit 31 inputs a region name, a company name and a next-generation TV version from the content demodulation unit 25 such as a video signal of each broadcast content of the next-generation TV parking CH along with scanning of all channels. The C / N margin of the channel is input from the / N margin calculation unit 27 (step S703). Then, the channel information registration unit 31 registers, as channel information, the area name, the company name, the next generation TV version, and the C / N margin of each broadcast content of the next generation TV parking CH (step S704).

  The channel information registration unit 31 inputs a region name, a company name and a next generation TV version from the content demodulation unit 26 such as a video signal of a predetermined channel of the next generation TV 4K / 8K new wave from the content demodulation unit 26 in accordance with scanning of all channels. The C / N margin of the channel is input from the C / N margin calculation unit 27 (step S 705). Then, the channel information registration unit 31 registers, as channel information, the area name of the predetermined channel of the next-generation TV 4K / 8K New Wave scanned, the name of the company, the next-generation TV version, and the C / N margin (step S706).

  When the scanning of all the channels is completed, the channel information registration unit 31 ends the process (step S 707). As a result, the channel information registration unit 31 displays the area name, the company name and the C / N margin of the broadcast content in each channel of the terrestrial digital signal with respect to the channels (receivable channels) having a reception signal of a predetermined level or more. Area name, company name, next-generation TV version and C / N margin of each broadcast content of TV Parking CH, area name, company name, next-generation area of broadcast content in each channel of next-generation TV 4K / 8K Shinnami The TV version and the C / N margin are registered as channel information.

(Content selection unit 32)
FIG. 8 is a flowchart showing processing of the content selection unit 32. As described above, the content selection unit 32 selects the broadcast content desired by the viewer in accordance with the remote control operation of the viewer, and outputs the video signal and the like for screen display. In this case, when the content selection unit 32 has a plurality of the same broadcast content desired by the viewer according to the remote control operation of the viewer (for example, the broadcast content of terrestrial digital and the broadcast content of the next generation TV parking CH are the same) (If the broadcast content of the next-generation TV Parking CH and the broadcast content of the next-generation TV 4K / 8K new waves are the same), based on the preset priority rule, next-generation TV version or C / N margin, 1 The broadcast content of is selected, the video signal etc. is output and displayed on the screen.

  The content selection unit 32 is configured according to the remote control operation of the viewer, for the area name of the channel indicated by the remote control operation, the business name and the C / N margin (or the area name, business name, next-generation TV version and C / N margin). The channel information A is read from the channel information registration unit 31 (step S801). Then, the content selection unit 32 reads from the channel information registration unit 31 channel information B having the same area name and provider name as the read channel information A (step S802). In this case, two channel information B may be read out.

  Thus, when the channel information B is read from the channel information registration unit 31, the same broadcast content is present, and when the channel information B is not read, the same broadcast content is not present.

  For example, the area name included in channel information A of a predetermined channel of terrestrial digital is "Kanto wide area" and the business name is "NHK General", and the area name of channel information for next generation TV parking CH is "Kanto wide area" and When the provider name is “NHK General”, the channel information of the next generation TV parking CH is read as channel information B. In this case, the same broadcast content of terrestrial digital and next-generation TV parking CH will be present.

  The content selection unit 32 determines whether the same broadcast content exists (step S803), and when it is determined that the same broadcast content does not exist (step S803: N), the broadcast content of channel information A is selected (step S803) Step S804). In other words, the content selection unit 32 receives the broadcast content on the channel of the channel information A, the ISDB-T reception unit 201 of the corresponding terrestrial digital reception system, the ISDB-T demodulation unit 202, the content demodulation unit 203, Next generation TV system receiver 21 of next generation TV parking CH reception system, next generation TV system demodulation section 23 and content demodulation unit 25, and next generation TV system reception section 22 of next generation TV 4K / 8K new wave reception system, next generation The receiving system (receiving system corresponding to channel information A) of any one of the TV system demodulation unit 24 and the content demodulation unit 26 is operated.

  On the other hand, when it is determined in step S803 that the same broadcast content is present (step S803: Y), the content selection unit 32 selects one of the broadcast contents of the channel information A and B (step S805).

Specifically, the content selection unit 32 selects the broadcast content in the following priority order (the smaller the priority number is, the higher the priority is). Details of the broadcast content selection process of step S805 will be described later.
Priority 1: Next-generation TV 4K / 8K Shinnami broadcast content Priority 2: Next-generation TV Parking CH broadcast content Priority 3: terrestrial digital broadcast content

  The content selection unit 32 receives an ISDB-T reception unit 201, an ISDB-T demodulation unit 202, and a content demodulation unit of the corresponding terrestrial digital reception system so as to receive the broadcast content selected in the broadcast content selection process of step S805. 203, next-generation TV system reception unit 21 for the next-generation TV parking CH reception system, next-generation TV system demodulation unit 23 and content demodulation unit 25, and next-generation TV system reception unit 22 for the next-generation TV 4K / 8K new wave reception system A receiving system (a receiving system corresponding to channel information of one broadcast content selected from a plurality of broadcast contents of channel information A and B) of the next-generation TV system demodulation unit 24 and the content demodulation unit 26; Make it work.

  The content selection unit 32 shifts from step S804 or step S805, and inputs a video signal or the like of the selected broadcast content from any one of the content demodulation unit 203, the content demodulation unit 25 and the content demodulation unit 26. The video signal is displayed on the screen by outputting the video signal or the like (step S806).

(Broadcast content selection process)
FIG. 9 is a flowchart showing the broadcast content selection process (step S805 in FIG. 8) by the content selection unit 32. This broadcast content selection process, as described above, when the broadcast content is the same, next-generation TV 4K / 8K new wave (priority 1), next-generation TV parking CH (priority 2), terrestrial digital (priority 3) The broadcast content is selected according to the following priority order. Also, when the same broadcast content has the same priority, broadcast content with a high C / N margin is selected.

  First, the content selection unit 32 determines whether the same broadcast content is broadcast content of terrestrial digital and next-generation TV (next-generation TV parking CH or next-generation TV 4K / 8K new wave) (step S901). That is, for the same broadcast content, the content selection unit 32 determines whether the regional name and the provider name of the terrestrial digital broadcast content and the regional name and the provider name of the next-generation TV broadcast content are the same. Do.

  Here, when registering the channel information, the channel information registration unit 31 can determine from which reception system the channel information is the input information. Therefore, the content selection unit 32 determines whether the channel information read out from the channel information registration unit 31 is any one of the terrestrial digital channel, the next-generation TV parking CH and the next-generation TV 4K / 8K new wave channel. can do.

<When the terrestrial digital and the broadcast content of the next generation TV are the same>
When the content selection unit 32 determines in step S901 that the same broadcast content is broadcast content of terrestrial digital and next-generation TV (step S901: Y), whether or not the same broadcast content of the next-generation TV exists Is determined (step S902).

  If the content selection unit 32 determines in step S902 that there are not a plurality of the same broadcast content of the next-generation TV (step S902: N), one or more terrestrial digital broadcast content is the same in the same broadcast content. ) It is determined that there is one next-generation TV broadcast content. Then, the content selection unit 32 selects broadcast content of the next-generation TV by giving priority to broadcast content of the next-generation TV over broadcast content of terrestrial digital broadcasting (step S903).

  For example, in the situation of the start of the next generation TV shown in FIG. 1 (2) and FIG. 13 (2), the broadcast content broadcast on one channel with terrestrial digital and the broadcast on the next generation TV parking CH It is assumed that the broadcast content to be broadcast is the same. The content selection unit 32 reads the channel information from the channel information registration unit 31, determines that the area name and the business operator name of these broadcast contents are the same, and there is one terrestrial digital broadcast content. It is determined that there is one broadcast content of the parking CH. Then, the content selection unit 32 selects the broadcast content of the next generation TV parking CH from the broadcast content of the terrestrial digital broadcast and the broadcast content of the next generation TV parking CH. Then, a video signal or the like of the broadcast content of the next generation TV parking CH is output and displayed on the screen.

  Thus, in the situation of the start of the next generation terrestrial broadcast (next generation TV) shown in FIG. 1 (2) and FIG. 13 (2), the broadcast content of terrestrial digital and the broadcast content of the next generation TV parking CH In the same case, broadcast content of a certain program (for example, a program of NHK) is broadcasted from both a terrestrial digital channel and a next-generation TV parking CH channel. In this case, in the content selection unit 32, the broadcast content of the next generation TV parking CH is prioritized over the broadcast content of terrestrial digital.

  Therefore, it is possible to make the viewer view the broadcast content of the next-generation TV parking CH instead of the terrestrial digital broadcast content without performing any operation. This makes it possible to end broadcasting by terrestrial digital broadcasting without causing social confusion. That is, the problem 1 can be solved.

  If the content selection unit 32 determines in step S901 that the same broadcast content is not broadcast content of terrestrial digital and next-generation TV (step S901: N), that is, broadcast content of terrestrial digital and broadcast content of next-generation TV If there is no one and the same broadcast content is broadcast content of a plurality of terrestrial digital or broadcast content of a plurality of next-generation TVs, the process proceeds to step S904.

  The content selection unit 32 shifts from step S901 and determines whether or not a plurality of the same broadcast content of the next-generation TV is present (step S904). If it is determined in step S904 that there is not a plurality of identical broadcast contents of the next-generation TV in step S904 (step S904: N), it is determined that two or more terrestrial digital broadcast contents exist in the same broadcast content. . Then, the content selection unit 32 selects one broadcast content from among two or more terrestrial digital broadcast content (step S905). Note that the terrestrial digital selection process in step S 905 is not directly related to the present invention, so the description is omitted here.

<When the broadcast content of the next-generation TV is the same>
If the content selection unit 32 determines in step S902 or step S904 that there are a plurality of identical broadcast contents of the next-generation TV (step S902: Y or step S904: Y), broadcast contents of terrestrial digital are the same for the same broadcast contents. 0, it is determined that there are two or more next-generation TV broadcast contents.

  The content selection unit 32 compares next-generation versions of next-generation TVs included in channel information A and B for the same broadcast content, and specifies the next-generation broadcast content of the next-generation TV (step S906). The content selection unit 32 determines whether there is one next-generation TV broadcast content with the highest next-generation version, which is identified in step S906 (step S907).

  When it is determined in step S 907 that there is one broadcast content of the next-generation TV with the highest next-generation version (step S 907: Y), the content selection unit 32 selects the broadcast content of the next-generation TV (step S 907). S 908).

  For example, in a situation in which the next-generation TV shown in FIG. 1 (3) and FIG. 13 (3) is completely shifted, the broadcast content broadcast on the next-generation TV Parking CH and the channel with the next-generation TV 4K / 8K new wave It is assumed that the broadcast content to be broadcast is the same. The content selection unit 32 reads the channel information from the channel information registration unit 31, determines that the area name and the company name of these broadcast contents are the same, and determines that there are two next-generation TV broadcast contents. Then, the content selection unit 32 determines that the next-generation TV version of the next-generation TV 4K / 8K broadcast content is higher than the next-generation TV version of the next-generation TV Parking CH broadcast content, and the next-generation TV 4K / 8K. Select broadcast content of Shinnami. Then, the video signal and the like of the broadcast content of the next-generation TV 4K / 8K new wave are output and displayed on the screen.

  Here, it is assumed that data is set in the next-generation TV version so that the broadcast content of the next-generation TV 4K / 8K new wave has a higher priority than the broadcast content of the next-generation TV parking CH.

  As described above, in the situation of complete transition to the next-generation TV shown in FIG. 1 (3) and FIG. 13 (3), the broadcast content of the next-generation TV Parking CH and the broadcast content of the next-generation TV 4K / 8K Shinnami are the same. In this case, the broadcast content of a certain program (for example, the program of NHK) is broadcasted from either of the next generation TV parking CH and the next generation TV 4K / 8K Shinnami channel. In this case, in the content selection unit 32, the broadcast content of the next-generation TV 4K / 8K new wave is prioritized over the broadcast content of the next-generation TV parking CH.

  Therefore, all viewers are forced to view the broadcast content of the next-generation TV 4K / 8K Shinnami instead of the broadcast content of the next-generation TV parking CH without performing any operation. it can. That is, since the viewer can view a higher quality program, the convenience of the viewer can be improved. As a result, the problem 2 can be solved.

<When the broadcast content of the next-generation TV is the same and the next-generation version is the same>
If the content selection unit 32 determines in step S 907 that the broadcast content of the next-generation TV with the highest next-generation version is not one but a plurality (step S 907: N), C included in channel information A and B The / N margin is compared, and the highest next-generation TV broadcast content is identified (step S909). The content selection unit 32 determines whether there is one next-generation TV broadcast content with the highest C / N margin, which is identified in step S909 (step S910).

  If the content selection unit 32 determines in step S 910 that there is only one next-generation TV broadcast content with the highest C / N margin (step S 910: Y), the next-generation TV broadcast identified in step S 909 The content is selected (step S911). On the other hand, when the content selection unit 32 determines that the broadcast content of the next-generation TV with the highest C / N margin is not one but a plurality in step S910 (step S910: N), the content is identified in step S909. Among the broadcast contents of a plurality of next-generation TVs with the same C / N margin, broadcast contents of any next-generation TV are selected (step S912).

  For example, in the situation where the next-generation TV shown in FIG. 1 (3) and FIG. 13 (3) is completely shifted, broadcast contents broadcast on one channel with next-generation TV 4K / 8K new wave and next-generation TV 4K / It is assumed that the broadcast content broadcasted on the other channel in 8K Shinnami is the same. The content selection unit 32 determines that the area name and the company name of these broadcast contents are the same, and determines that there are two next-generation TV broadcast contents. For example, the area name and company name of the broadcast content of a certain channel transmitted from the Skytree station and the area name and company name of the broadcast content of another channel transmitted from the Hachioji relay station are the same. If it is possible to receive both of them, it is determined that there are two same broadcast contents of the next-generation TV. Then, the content selection unit 32 selects a broadcast content having a high C / N margin among the two broadcast contents. Then, a video signal or the like of the selected broadcast content is output and displayed on the screen.

  As described above, in the situation in which the next-generation TV shown in FIG. 1 (3) and FIG. 13 (3) is completely shifted, the broadcast contents broadcast on the two channels of the next-generation TV 4K / 8K Shinnami are the same. If the next-generation TV version is also the same, broadcast content with a high C / N margin is prioritized.

  Therefore, it is possible to make all the viewers view the broadcast content of the next-generation TV 4K / 8K Shinnami, which has a high C / N margin, without performing any operation. That is, the viewer can view the program with less noise, and the convenience of the viewer can be improved.

  As described above, according to the receiving device 7 according to the embodiment of the present invention, when the power of the receiving device 7 is turned on, the channel information registration unit 31 of the content comparing unit 28 instructs the content demodulation units 25 and 26 to rescan When scanning, etc., the area name of the scanned terrestrial digital channel, the name of the company, and the C / N margin are registered as channel information along with the scanning of all channels at each output of scanned Next Generation TV Parking CH broadcast contents Area name, company name, next-generation TV version and C / N margin are registered as channel information and scanned next-generation TV 4K / 8K Shinwa channel area name, company name, next-generation TV version and C / N margin is registered as channel information.

  Further, the content selection unit 32 reads out channel information A such as the region name of the channel indicated by the remote control operation according to the remote control operation of the viewer, and also channel information B having the same region name and business name as the channel information A When the broadcast content of the terrestrial digital broadcasting and the broadcast content of the next generation TV parking CH are the same, the broadcast content of the next generation TV parking CH is selected in preference to the broadcast content of the terrestrial digital broadcasting.

  As a result, it is possible to make all the viewers view the broadcast content of the next generation TV parking CH instead of the broadcast content of the terrestrial digital, and the number of the terrestrial digital viewers can be set to zero. That is, the broadcast by terrestrial digital can be ended without the occurrence of social confusion, and the problem 1 can be solved.

  In addition, when the broadcast content of the next-generation TV Parking CH and the broadcast content of the next-generation TV 4K / 8K are the same, the content selection unit 32 broadcasts the next-generation TV 4K / 8K Shinnami on the next-generation TV Parking CH. It was made to select in preference to broadcast content.

  As a result, even if the broadcast by the next-generation TV 4K / 8K is started sequentially, the broadcast of the next-generation TV 4K / 8K Shinnami is not broadcast content of the next-generation TV Parking CH to all the viewers. Content can be watched. That is, since the viewer can view a higher quality program, the convenience of the viewer can be improved and the problem 2 can be solved.

  Therefore, it is possible to introduce the next-generation TV parking CH even in areas where the frequency is tight, and it is possible to smoothly realize the transition from the current terrestrial digital broadcasting to the future new-generation terrestrial broadcasting. Become.

  Furthermore, the content demodulation unit 25 of the next-generation TV parking CH reception system or the content demodulation unit 26 of the next-generation TV 4K / 8K new wave reception system has information set to prompt rescanning of the channel in the next-generation TV preset flag. When it is determined, the rescan instruction is output to rescan all channels.

  As a result, when the channel for the next-generation TV 4K / 8K Shinkai is newly opened, when the transmission channel is changed (when channel repacking is performed), when the next-generation TV is upgraded, etc., the content comparison unit The channel information registration unit 31 of 28 can delete the registration of the channel information of the channel for which the broadcast has ended, and register the channel information of the channel for which the broadcast has newly started. Therefore, the viewer can be made to view new broadcast content, and the convenience of the viewer can be further improved.

  The present invention has been described above by the embodiment. However, the present invention is not limited to the embodiment, and can be variously modified without departing from the technical concept thereof. For example, in the embodiment, the content generation unit 11 of the multiplexing apparatus 1 and the content generation unit 12 of the multiplexing apparatus 2 input a video signal and the like, and at the same time, the area name, the business name, the next generation TV version and the next generation TV preset The flag is input, and the TS signal is generated by multiplexing the area name, the company name, the next-generation TV version, and the next-generation TV preset flag in the video signal etc. On the other hand, the content generation units 11 and 12 do not input the next-generation TV preset flag, but input the area name, the company name and the next-generation TV version such as a video signal. The user name and the next-generation TV version may be multiplexed to generate a TS signal. In this case, re-scanning of all channels is not automatically performed in the receiving device 7 but is performed manually by the viewer.

  Also, instead of the content generation unit 11 of the multiplexing apparatus 1 and the content generation unit 12 of the multiplexing apparatus 2, the transmitting devices 5 and 6 may use TS names such as video signals as area names, business names, next-generation TV versions, The next generation TV preset flag may be multiplexed. In this case, the content generation units 11 and 12 receive video signals and the like, multiplex the video signals and the like, and generate TS signals. The transmitters 5 and 6 each include a multiplexer (multiplexer), and the multiplexer inputs a TS signal from the content multiplexers 3 and 4, and the area name, company name, next-generation TV version, and next-generation TV The preset flag is input, these are multiplexed into the TS signal, and the multiplexed TS signal is generated and output to the next-generation TV system modulation units 13 and 14. The multiplexing unit may not input the next-generation TV preset flag.

  Further, in the embodiment, the content generation unit 11 of the multiplexing device 1 and the content generation unit 12 of the multiplexing device 2 are configured to generate a TS signal by multiplexing a video signal and the like. The present invention is not limited to the TS signal, and the content generation units 11 and 12 may generate another multiplexed signal such as a TLV (Type Length Value) signal instead of the TS signal.

  Further, the next-generation TV parking CH transmission system in FIG. 2 and the next-generation TV 4K / 8K new wave transmission system in FIG. 4 each include a multiplex information setting unit (not shown). The multiplex information setting unit generates the area name, the company name, the next-generation TV version and the next-generation TV preset flag input by the content generation unit 11, and generates the multiplex information of the content generation unit 11 of the multiplexing apparatus 1 or the multiplexing apparatus Output to the second content generation unit 12;

  Specifically, the multiplex information setting unit sets the area name and the company name corresponding to the broadcast content such as the video signal input by the content generation unit 11 of the multiplex apparatus 1. Also, the multiplex information setting unit sets the next-generation TV version corresponding to the broadcast content such as the video signal. For example, as described above, in the next-generation TV version, “1” is set corresponding to the broadcast content of the next-generation TV parking CH that transmits a video signal of about HD quality, and the same broadcast content is 4K / "10" is set corresponding to the broadcast content of the next-generation TV 4K / 8K new wave that transmits an 8K image signal. Also, the multiplex information setting unit sets the next-generation TV preset flag, for example, when the channel is newly opened.

  Further, in the above embodiment, in the reception device 7, the channel information registration unit 31 of the content comparison unit 28 carries out the area name, the business name and the C / N margin for the terrestrial digital channels along with the scanning of all channels. The content selection unit 32 registers as a channel information the area name, company name, next-generation TV version and C / N margin for the next-generation TV parking CH and the next-generation TV 4K / 8K new wave. When the same broadcast content of the next generation TV is determined according to the remote control operation of the viewer, if the next generation version is also the same, the broadcast of any next generation TV based on the C / N margin included in the channel information I made it to select the content. On the other hand, the content selection unit 32 selects the broadcast content using the C / N margin acquired at the time of the remote control operation of the viewer instead of using the C / N margin registered at the scanning of all the channels. You may do it. In this case, the content selection unit 32 operates the next-generation TV 4K / 8K new wave reception system at the time of the viewer's remote control operation, and the C / N margin calculation unit 27 for each of the same broadcast contents of the next-generation TV. Calculate the C / N margin and input the C / N margin. Also, the channel information registration unit 31 does not have to register the C / N margin as part of the channel information.

  Further, in the embodiment, the processing of the content generation unit 11 of the multiplexing device 1 shown in FIG. 2 is realized by a chip of an LSI which is an integrated circuit mounted on the multiplexing device 1. Also, instead of LSI, it may be realized by a chip such as VLSI or ULSI having different degree of integration. Furthermore, the present invention is not limited to chips such as LSIs, and dedicated circuits or general purpose processors may be used, or FPGAs (Field Programmable Gate Arrays) may be used. The same applies to the processing of the content generation unit 12 of the multiplexing apparatus 2 shown in FIG. 4, and in the case where the transmitting apparatus 5 shown in FIG. 2 or the transmission apparatus 6 shown in FIG. The same applies to the processing of the multiplex unit.

  Also, the processing of each component of the content demodulation unit 203, the content demodulation units 25 and 26, the C / N margin calculation unit 27, and the content comparison unit 28 of the reception device 7 illustrated in FIG. It is realized by an LSI chip which is an integrated circuit. These may be individually integrated into one chip, or part or all of them may be integrated into one chip, and may be realized by a chip such as VLSI or ULSI having a different degree of integration. . Furthermore, a dedicated circuit or a general purpose processor may be used, or an FPGA may be used.

1, 2, 100 Multiplexer 3, 4 Content Multiplexer 5, 6, 6, 110 Transmitter 7, 200 Receiver 11, 12, 101 Content Generator 13, 14 Next Generation TV Modulator 15, 16 Next Generation TV Transmission Parts 21, 22 Next-generation TV system receiver 23, 24 Next-generation TV system demodulator 25, 26, 203 Content demodulator 27 C / N margin calculator 28 Content comparator 31 Channel information register 32 Content selector 111 ISDB- T modulation unit 112 ISDB-T transmission unit 201 ISDB-T reception unit 202 ISDB-T demodulation unit

Claims (12)

A multiplexer for generating a multiplex signal of broadcast content including a video signal, a transmitter for transmitting the multiplex signal as a broadcast wave, and a receiver for receiving the broadcast wave and displaying a video signal included in the broadcast content on a screen At the multiplexer of the broadcast system comprising
The broadcast content including the video signal is multiplexed with area name information and business name information of the broadcast content, and version information for causing the receiving apparatus that has received the same broadcast content to select one broadcast content And a content generating unit for generating the multiplexed signal. In the multiplexer according to claim 1,
The content generation unit
The broadcast content including the video signal is further multiplexed with flag information for rescanning all channels to which the broadcast wave is transmitted to the receiving apparatus, thereby generating the multiplexed signal. Multiplexer. In the multiplexer according to claim 1 or 2,
When a multiplex signal of broadcast content of terrestrial digital broadcast by ISDB-T system is transmitted as a broadcast wave on a predetermined channel by another transmission device different from the transmission device:
The content generation unit
Area name information and provider name information of the broadcast content, and version information for causing the receiving apparatus that has received the same broadcast content to select one broadcast content for the same broadcast content as the terrestrial digital broadcast To generate the multiplexed signal,
A broadcast wave of the multiplexed signal is transmitted by a predetermined parking channel different from the terrestrial digital broadcast by a transmitting device that transmits the multiplexed signal generated by the content generation unit as a broadcast wave. apparatus. In the multiplexer according to claim 1 or 2,
A multiplex signal of the same broadcast content as terrestrial digital broadcasting according to ISDB-T is transmitted as a broadcast wave on a predetermined parking channel different from the terrestrial digital broadcast by another transmitter different from the transmitter. , Then, if the terrestrial digital broadcasting is stopped,
The content generation unit
The area name information and the company name information of the broadcast content, and the broadcast content which is the same as the broadcast content of the broadcast wave transmitted on the predetermined parking channel and includes a video signal having a higher image quality than the broadcast content; For causing the receiving apparatus to preferentially select broadcast content of broadcast waves transmitted on the same channel as the terrestrial digital broadcast, rather than broadcast content of broadcast waves transmitted on the predetermined parking channel Multiplexing version information to generate the multiplexed signal;
A multiplex apparatus characterized in that a broadcast wave of the multiplex signal is transmitted on the same channel as the terrestrial digital broadcast by a transmitter which transmits the multiplex signal generated by the content generation unit as a broadcast wave. A multiplexer for generating a multiplex signal of broadcast content including a video signal, a transmitter for transmitting the multiplex signal as a broadcast wave, and a receiver for receiving the broadcast wave and displaying a video signal included in the broadcast content on a screen In the transmitter of the broadcast system configured to include
In order to have the broadcast content multiplexed information generated by the multiplex device, the broadcast content area name information and business name information, and one broadcast content selected by the receiving device that has received the same broadcast content Multiplexing unit version information to generate a new multiplexed signal;
A transmitting apparatus characterized in that the new multiplexed signal is transmitted as a broadcast wave. In the transmitter according to claim 5,
The multiplexing unit is
The multiplexed information of the broadcast content including the video signal is further multiplexed with flag information for rescanning all channels to which the broadcast wave is transmitted to the receiving apparatus, and the new multiplexed signal is generated. A transmitter characterized in that. A multiplexer for generating a multiplex signal of broadcast content including a video signal, a transmitter for transmitting the multiplex signal as a broadcast wave, and a receiver for receiving the broadcast wave and displaying a video signal included in the broadcast content on a screen In the receiver of the broadcast system configured to include
A terrestrial digital signal receiving system unit that receives a multiplex signal of broadcast content of terrestrial digital broadcast according to ISDB-T, and extracts area name information and business name information of the broadcast content from the multiplex signal;
The multiplex signal of the same broadcast content as the terrestrial digital broadcast is received by a predetermined parking channel different from the channel to which the broadcast wave of the terrestrial digital broadcast is transmitted, and from the multiplex signal, the area name information of the broadcast content And a parking reception system unit that extracts business name information and version information for selecting one broadcast content when the reception device receives the same broadcast content;
Receiving a multiplex signal of broadcast content identical to the broadcast content of the broadcast wave transmitted on the predetermined parking channel and including a video signal having a higher image quality than the broadcast content, and from the multiplex signal, the area of the broadcast content A new wave channel reception system unit that extracts name information, business name information, and the version information;
With the scanning of all the channels in which the multiplex signal of the broadcast content is received by the terrestrial digital signal receiving system, the parking signal receiving system and the new wave channel receiving system, the received signal is for each channel having a predetermined level or more. Area name information and business name information extracted by the terrestrial digital reception system section, area name information extracted by the parking reception system section, business name information and version information, and the new wave channel reception system section A channel information registration unit for registering, as channel information, area name information, company name information and version information extracted by
A content selection unit which selects a broadcast content desired by the viewer according to a remote control operation of the viewer, and outputs a video signal of the selected broadcast content for screen display;
The content selection unit
The first channel information indicated by the remote control operation of the viewer is read from the channel information registration unit, and the second channel information having the same area name information and business name information as the first channel information is read. Determining whether the same broadcast content exists, based on the first and second channel information;
If it is determined that the same broadcast content does not exist, the broadcast content corresponding to the first channel information indicated by the remote control operation of the viewer is selected,
When it is determined that the same broadcast content exists, the same broadcast content received by the parking reception system unit is selected in preference to the same broadcast content received by the terrestrial digital reception system unit, and the channel information is selected as the channel information. The same broadcast content received by the new wave channel reception system unit is selected based on the included version information in preference to the same broadcast content received by the parking reception system unit. apparatus. In the receiver according to claim 7,
And a C / N margin calculation unit for calculating a C / N margin of the multiplexed signal received by the new wave channel reception system unit,
The content selection unit
It is determined that the same broadcast content exists, and the two or more broadcast contents received by the new wave channel reception system unit are the same, and version information included in the channel information of each channel in the two or more broadcast contents is If identical, one broadcast content is selected from the two or more broadcast contents based on the C / N margin calculated by the C / N margin calculation unit. In the receiver according to claim 7 or 8,
The parking reception system unit and the new wave channel reception system unit further include:
The receiving device extracts flag information for rescanning all channels of the broadcast wave from the multiplexed signal, and when the flag information indicates that the rescanning is performed, the rescanning of all channels is performed. And extracting from the multiplexed signal area name information, business name information, and version information of the receivable broadcast content.
The channel information registration unit
The parking reception system unit and the Shin'nami locality name information and business name information and the version information of the broadcast content extracted by the re-scanned by the channel reception system unit is registered as a new said channel information, it Receiver characterized by the above.   The multiplex apparatus according to claim 1, which generates a multiplex signal of broadcast content including a video signal, a transmission apparatus which transmits the multiplex signal as a broadcast wave, and a screen of the video signal contained in the broadcast content by receiving the broadcast wave. A broadcasting system comprising the receiving device according to claim 7 for displaying. A chip mounted on the multiplexer according to claim 1 or the transmitter according to claim 5,
The broadcast content including video signal is multiplexed with region name information and business name information of the broadcast content, and version information for selecting one broadcast content for a receiving apparatus that has received the same broadcast content, A chip characterized in that it generates multiple signals. A chip mounted on the receiving device according to claim 7, wherein
A terrestrial digital signal receiving system unit for extracting area name information and carrier name information of the broadcast content from the received multiplexed signal of terrestrial digital broadcast content according to ISDB-T system;
From the multiplex signal of the same broadcast content as the terrestrial digital broadcast received on a predetermined parking channel different from the channel to which the broadcast wave of the terrestrial digital broadcast is transmitted, area name information and business name information of the broadcast content And a parking reception system unit that extracts version information for selecting one broadcast content when the reception device receives the same broadcast content.
Area name information and business of the broadcast content from the multiplex signal of the broadcast content which is the same as the broadcast content of the broadcast wave transmitted on the predetermined parking channel and which includes the video signal of higher quality than the broadcast content received A new wave channel reception system unit for extracting personal name information and the version information;
With the scanning of all the channels in which the multiplex signal of the broadcast content is received by the terrestrial digital signal receiving system, the parking signal receiving system and the new wave channel receiving system, the received signal is for each channel having a predetermined level or more. Area name information and business name information extracted by the terrestrial digital reception system section, area name information extracted by the parking reception system section, business name information and version information, and the new wave channel reception system section A channel information registration unit for registering, as channel information, area name information, company name information and version information extracted by
A content selection unit which selects a broadcast content desired by the viewer according to a remote control operation of the viewer, and outputs a video signal of the selected broadcast content for screen display;
The content selection unit
The first channel information indicated by the remote control operation of the viewer is read from the channel information registration unit, and the second channel information having the same area name information and business name information as the first channel information is read. Determining whether the same broadcast content exists, based on the first and second channel information;
If it is determined that the same broadcast content does not exist, the broadcast content corresponding to the first channel information indicated by the remote control operation of the viewer is selected,
When it is determined that the same broadcast content exists, the same broadcast content received by the parking reception system unit is selected in preference to the same broadcast content received by the terrestrial digital reception system unit, and the channel information is selected as the channel information. A chip characterized in that, based on included version information, the same broadcast content received by the new wave channel reception system unit is selected prior to the same broadcast content received by the parking reception system unit. .

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