JP5324077B2 - Broadcast receiver - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a technology (a broadcasting device and a receiver) capable of surely notifying a user that emergency warning broadcast is started even while the broadcasting service of a broadcasting company which does not perform the service of the emergency warning broadcast and unique broadcast limited to an area are viewed and listened to. <P>SOLUTION: The broadcast receiver (100) is characterized by comprising: a receiving part (110) which receives broadcast waves of digital broadcast; a channel selection part (110) which selects a desired channel of the digital broadcast; and a determination part (152) which determines whether or not the emergency warning broadcast is broadcast in a channel during selection by the selection part (110) when the broadcast waves including information regarding the emergency warning broadcast are received, wherein the channel selection part (110) selects the channel which performs the emergency warning broadcast based on the information regarding the emergency warning broadcast when it is determined that the emergency warning broadcast is not broadcast in the channel during selection by the determination part (152). <P>COPYRIGHT: (C)2009,JPO&amp;INPIT

Description

  The present invention relates to a broadcast receiver and a broadcast apparatus for digital broadcasting, and in particular, an emergency warning broadcast is broadcast to a user who is receiving a channel (broadcast wave) of a broadcasting station that does not perform an emergency warning broadcast in the digital broadcast. The present invention relates to a broadcast receiving apparatus and a broadcast apparatus capable of notifying that the information is present.

  Terrestrial digital television broadcasting operated in Japan is called the ISDB-T (Integrated Services Digital Broadcasting for Terrestrial) system and employs an OFDM (Orthogonal Frequency Division Multiplexing) modulation system. This ISDB-T system divides the transmission band of one channel into 13 segments, and one of those segments (central segment number 0) is for mobile terminals such as mobile phones and PDAs (Personal Digital Assistants). To terrestrial digital broadcasting, so-called one-segment broadcasting (one-segment broadcasting). Recently, it has been proposed to retransmit broadcast waves using an antenna or a leakage cable in areas or places where radio waves from broadcast stations are difficult to reach (referred to as gap filler). Among these, for retransmission for one-seg broadcasting, the above-mentioned ISDB-T system is adopted, digital broadcast waves of a plurality of broadcasting stations are received, each one-seg broadcasting is extracted, and they are connected and connected. Retransmit on a predetermined channel different from the channel. In addition to one-segment broadcasting extracted from digital broadcasting waves of broadcasting stations, a re-transmission device (broadcasting device) that connects original content and transmits a limited area (area) using a predetermined channel is also proposed. Has been.

  In digital broadcasting, as in analog broadcasting, emergency warning broadcasting (Emergency Warning Signal (EWS)) is used to prevent and reduce damage caused by disasters such as earthquakes and tsunamis. Broadcasting service used). When receiving a warning signal (Emergency Warning Signal: EWS) sent by a broadcaster (broadcast station), a receiver that supports emergency warning broadcasting displays on the display section that an emergency warning has been issued. Or output from the speaker. Thereby, it is possible to alert the viewer when a disaster such as that described above occurs.

  However, there are some broadcasters who do not provide emergency alert broadcasting services, and some broadcasters do not. Moreover, in the original broadcasting service for specific areas by the gap filler apparatus etc. which connect and broadcast the above-mentioned one-segment broadcasting, the emergency warning broadcasting service is not performed. This will be schematically described with reference to the drawings. FIG. 13 is a diagram illustrating a segment configuration of a channel transmitted by the gap filler device for one seg. As shown in the upper part of the figure, a broadcasting apparatus that is a normal broadcasting station uses the segment number 0 at the center of each physical channel for one-segment broadcasting that is a segment for partial reception. The broadcast device (retransmission device) 300 broadcasts the services of the segment number 0 for partial reception connected in one physical channel. In the example shown in the figure, the broadcasting stations of channels A and C provide emergency warning broadcasting services and broadcast broadcast waves including EWS. Therefore, in the broadcast wave retransmitted by the broadcast apparatus 300 shown in the lower part of the figure, emergency alert broadcasting is performed on channels corresponding to channels A and C. However, emergency alert broadcasting is not performed on the other channels and the original program of the broadcasting device 300.

  Therefore, when the user of the broadcast receiving apparatus is watching a channel of a broadcasting station that does not carry out the emergency alert broadcast, the user cannot notice the emergency alert broadcast, and it is difficult to take an appropriate evacuation action. . However, a quicker evacuation action is required particularly in an underground shopping area that is assumed as a place where a gap filler device (retransmission device) is installed. Therefore, even if the user is watching the original broadcast from the gap filler device in an underground shopping area or the like, it is necessary to be able to watch the emergency warning broadcast without fail.

  In order to solve this problem, it has been proposed to provide two tuners for emergency alert broadcasting and normal broadcasting in a conventional broadcast receiving apparatus (see Patent Document 1).

JP 2007-228117 A

  However, mounting two tuners as described above in a small device typified by a mobile phone terminal leads to a number of disadvantages. For example, constantly monitoring separately from the channel on which the emergency alert broadcast is viewed increases power consumption. Also, mounting two tuners inevitably increases the weight and cost. Therefore, the object of the present invention is to ensure that the above-mentioned disadvantages are not generated, even if a broadcaster's channel that does not provide emergency warning broadcasting service or a local limited broadcast is being viewed. It is another object of the present invention to provide a technique (broadcasting apparatus and broadcast receiving apparatus) that can notify the user that emergency alert broadcasting has started.

In order to solve the above-described problems, the broadcast receiving apparatus according to the present invention provides:
A receiver that receives broadcast waves of digital broadcasting configured by connecting segments extracted from each of a plurality of digital broadcast waves;
A channel selection unit for selecting a desired channel of the digital broadcast;
When receiving a broadcast wave of (the receiver at) emergency warning digital broadcasting coupled Nde including a segment corresponding to the broadcast wave is broadcasting a broadcast, the emergency warning broadcast, in tuned by the tuning unit A determination unit for determining whether or not the broadcast is on the channel,
The channel selection unit, when the determination unit determines that the emergency alert broadcast is not broadcast on the channel being selected in the digital broadcast, based on the information on the emergency alert broadcast, Select the channel that is carrying out the emergency alert broadcast in digital broadcasting,
It is characterized by that.

In addition, a broadcast receiving apparatus according to an embodiment of the present invention includes:
A receiver that receives broadcast waves of digital broadcasting configured by connecting segments extracted from each of a plurality of digital broadcast waves;
A channel selection unit for selecting a desired channel of the digital broadcast;
When receiving a broadcast wave of (the receiver at) emergency warning digital broadcasting coupled Nde including a segment corresponding to the broadcast wave is broadcasting a broadcast, the emergency warning broadcast, in tuned by the tuning unit A determination unit that determines whether or not the broadcast is on the channel;
When the determination unit determines that the emergency alert broadcast is not broadcast on the selected channel of the digital broadcast, the emergency alert broadcast is broadcast based on information on the emergency alert broadcast. A notification unit for notifying that
An input unit that receives an operation input by a user in response to the notification of the notification unit;
With
The channel selection unit selects a channel that performs the emergency alert broadcast in the digital broadcast in response to an operation input by a user in the input unit.
It is characterized by that.

  Whether the emergency warning broadcast is performed by the determination unit is determined by the emergency warning described in the emergency warning broadcast start flag, the emergency information descriptor, and the reserved area included in the TMCC signal of the broadcast wave. This can be done from information on services that are being broadcast. Furthermore, the broadcast receiving apparatus preferably includes a correspondence table (channel list) between the physical frequency, the local operator identification, or the segment number and the broadcast service. The channel selection control unit controls the reception unit to select a channel on which emergency alert broadcasting is performed based on the channel list.

  Note that the information related to the emergency alert broadcast is information for specifying a channel carrying out the emergency alert broadcast, such as a channel on which the emergency alert broadcast is broadcast, a segment number, and a local business operator identification, etc. It is. In addition, the broadcast device can retransmit the broadcast wave of the original broadcast broadcast by the broadcast device including information related to the emergency warning broadcast.

  According to the present invention, even when the broadcast service of a broadcaster that does not provide the emergency warning broadcast service and the local limited broadcast is being viewed, the user is surely notified that the emergency warning broadcast has started. It becomes possible to do.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the following, the broadcast wave of the channel of the broadcasting station that provides the emergency warning broadcasting service using the emergency warning signal (EWS) is referred to as “EWS broadcasting wave”, the broadcasting station that does not provide the emergency warning broadcasting service. The broadcast wave of the channel is defined as “non-EWS broadcast wave”. The outline of emergency warning broadcasting in terrestrial digital broadcasting will be described later.

  FIG. 1 is a block diagram of a broadcast system including a broadcast receiving apparatus to which the present invention is applied and a broadcasting apparatus that provides broadcast waves to the broadcast receiving apparatus. As shown in the figure, this broadcasting system includes a broadcast receiving device 100 and broadcasting devices 200 and 300. The broadcasting device 200 is a broadcasting device of a general wide-area digital broadcasting system, and uses one-segment broadcasting, that is, digital broadcasting using a segment for partial reception that can be received by one segment alone, and 12 segments. Digital broadcasting for terrestrial TV. The broadcast device 200 corresponding to the emergency alert broadcast service also broadcasts the emergency alert broadcast. The broadcast receiving apparatus 100 according to the present invention can receive a digital broadcast broadcast from the broadcast apparatus 200 within the reception area covered by the broadcast apparatus 200. The broadcast device 300 receives and retransmits all or part of the service broadcast from the broadcast device 200. Note that the broadcast device 300 can also broadcast using a physical frequency band different from the physical frequency band used by the broadcast device 200 during retransmission. The broadcast device 300 also broadcasts a service different from the service broadcast by the broadcast device 200, for example, an original broadcast (original program / independent program). For example, when a user carrying the broadcast receiving apparatus 100 enters a store or the like equipped with the broadcasting apparatus 300, the broadcast receiving apparatus 100 adds to the broadcasting apparatus 300 in addition to a general wide-area digital broadcast from the broadcasting apparatus 200. It is also possible to receive their own broadcasts. In FIG. 1 and the following description, a mobile phone terminal is applied as a typical example of the broadcast receiving apparatus 100. As the broadcast receiving apparatus, in addition to a portable communication terminal such as a PDA (Personal Digital Assistance), digital broadcasting The present invention can be widely applied to portable electronic devices that can receive the signal. In addition, although the description will be made assuming that the terrestrial digital broadcast is a one-segment broadcast, it should be noted that the present invention is not limited to the one-segment broadcast.

  FIG. 2 is a block diagram of the broadcasting device 300. As shown in the figure, the broadcast device 300 includes a plurality of antennas ANT3 for receiving broadcast waves from the plurality of broadcast devices 200, and a digital broadcast receiver 310. The broadcast device 300 further includes an EWS determination unit 320, a retransmitted wave generation unit 330, a unique broadcast content acquisition unit 340, an installation area setting unit 350, a transmission unit 360, and a transmission antenna ANT4.

  Before describing each component, an outline of emergency warning broadcasting in terrestrial digital broadcasting will be described with reference to FIGS. First, each figure will be described. FIGS. 7 to 10 are schematic diagrams of data structures of the TMCC signal, the PMT, the NIT, and the emergency information descriptor, respectively. In digital terrestrial broadcasting, TMCC (Transmission and Multiplexing Configuration and Control) signals (transmission multiplex control signals) shown in FIG. 7 that transmit various parameters related to modulation type, error correction coding rate, etc. are multiplexed into broadcast waves. Has been broadcast. As shown in FIG. 7, an emergency warning broadcast activation flag is prepared in the TMCC information area of the TMCC signal. When the broadcast station (broadcast apparatus 200) starts the emergency alert broadcast, the broadcast station (broadcast apparatus 200) sets the value of the emergency alert broadcast activation flag to “1” so that the receiving side can recognize that the emergency alert broadcast has started. To. Further, the broadcast station sets the start / end flag in the emergency information descriptor shown in FIG. 10 to “0” when the emergency alert broadcast to be transmitted is a test broadcast, and to “1” when the broadcast is a main broadcast. Set. The emergency information descriptor shown in FIG. 10 is described in the descriptor area in the PMT (Program Map Table) shown in FIG. The emergency information descriptor may be described in a descriptor area in the NIT (Network Information Table) shown in FIG. The emergency information descriptor of FIG. 10 includes a service identification area for transmitting a service identification (service_id) that defines a channel (service) on which a main broadcast or a test broadcast of an emergency warning broadcast is broadcast, and an emergency An area code area is provided for transmitting an area code that defines an area to be subjected to alarm broadcasting. As for the area code, ARIB (Association of Radio Industries And Businesses) defines the wide area code for each wide area in the Kanto area, Chukyo area, etc., and the prefectural area code for each prefecture. Based on these TMCC signals sent from broadcast stations and PMT or NIT, the receiving side may detect and specify the presence or absence of emergency alert broadcasts and the channel (service) that broadcasts emergency alert broadcasts. it can.

  Returning to the description of the broadcasting apparatus 300 of FIG. Antenna ANT3 and digital broadcast receiver 310 receive broadcast waves (TS (Transport Stream) signals and TMCC signals) broadcast from a plurality of broadcast devices 200, and PSI / SI information such as PMT included in the received broadcast waves (Program sequence information), emergency alert descriptors, and the like are extracted. The installation area setting unit 350 stores information (installation area information) related to the area where the broadcasting device 300 is installed. The stored installation area information is used by the EWS determination unit 320 to determine the area targeted for emergency alert broadcasting. As the installation area information, for example, an area code defined by ARIB can be used. The EWS determination unit 320 determines whether or not the broadcast wave received by the digital broadcast reception unit 310 is an EWS broadcast wave for each broadcast wave to be received. Further, based on the emergency information descriptor included in the EWS broadcast wave, it is determined whether or not the emergency warning broadcast is the main broadcast, and the area where the broadcasting device 300 is installed is the target area for the emergency warning broadcast. It is determined whether or not it is included.

  The unique broadcast content acquisition unit 340 acquires content of a service broadcast by the broadcast device 300 independently. The retransmit wave generator 330 generates a retransmit wave based on the broadcast wave received by the digital broadcast receiver 310 and the unique broadcast content acquired by the unique broadcast content acquisition unit 340. At this time, if the broadcast wave received by the digital broadcast receiver 310 includes a broadcast wave that is determined to be an EWS broadcast wave by the EWS determination unit 320, the retransmit wave generator 330 generates a non-EWS broadcast wave. Then, EWS related information addition processing (details will be described later) is performed. The transmitting unit 360 transmits the retransmitted wave generated by the retransmitted wave generating unit 330 via the transmission antenna ANT4.

  Here, the determination method by the EWS determination unit 320 will be specifically described. The EWS determination unit 320 refers to the value of the emergency warning broadcast activation flag included in the TMCC signal (FIG. 7) of the received broadcast wave. If the flag value is “1”, the EWS determination unit 320 is an EWS broadcast wave. Otherwise, it is determined to be a non-EWS broadcast wave. If the EWS determination unit 320 determines that the received broadcast wave is an EWS broadcast wave, the EWS determination unit 320 determines whether or not the emergency alert broadcast is a main broadcast based on the emergency information descriptor included in the EWS broadcast wave ( Alternatively, it is determined whether or not the broadcast is a test broadcast) and whether or not the installation area (position where the broadcast apparatus 300 is installed) is included in the area targeted by the emergency alert broadcast. That is, the EWS determination unit 320 determines that the broadcast is the main broadcast when the value of the start / end flag in the emergency information descriptor (FIG. 10) is “1”. Further, the EWS determination unit 320 compares the area code described in the emergency information descriptor with the installation area of the broadcasting device 300 stored in the installation area setting unit 350, and the installation area of the broadcasting device 300 determines whether the It is determined whether or not it is included in the broadcast target area.

In addition, the broadcast device 300 according to the present invention broadcasts an emergency alert broadcast even when the user is receiving a service (non-EWS broadcast wave) from a broadcast station (the broadcast device 200) that is not providing the emergency alert broadcast service. It makes it possible to recognize that. For this reason, if there are broadcast waves that include an EWS broadcast wave in a plurality of broadcast waves received by the digital broadcast receiving unit 310, the EWS-related information is added to the non-EWS broadcast wave and then retransmitted. A wave is generated, and the generated retransmission wave is transmitted to the user. Here, the EWS related information addition process refers to any of the following processes.
1. Based on the emergency warning broadcast activation flag included in the TMWS signal of the EWS broadcast wave, the emergency warning broadcast activation flag included in the TMCC signal of the non-EWS broadcast wave is changed. That is, when the value of the emergency warning broadcast activation flag included in the TMCC signal shown in FIG. 7 is “1”, the value of the emergency warning broadcast activation flag included in the TMCC signal of the non-EWS broadcast wave is set to “0”. To "1".
2. Information of the emergency information descriptor (FIG. 10) included in the EWS broadcast wave is added to the non-EWS broadcast wave. That is, in the PMT (FIG. 8) or NIT (FIG. 9) descriptor area which is the PSI / SI information of the non-EWS broadcast wave, the emergency information description having the same contents as the emergency information descriptor included in the EWS broadcast wave Place a child.
3. Information for identifying (selecting) an EWS broadcast wave (EWS broadcast wave channel, segment, local broadcaster identification, etc.), reserved area of TMCC signal included in non-EWS broadcast wave (FIG. 7) To place.

  The above-described retransmission wave transmission processing (retransmission processing) by the broadcasting device 300 will be described with reference to a flowchart. FIG. 3 is a flowchart for explaining an example of a retransmission process performed by the broadcast device 300. The broadcast device 300 continues the process (loop 1) in the flowchart of FIG. 3 until the retransmission process is completed. When the processing of loop 1 is started in step S11, the unique broadcast content acquisition unit 340 acquires the unique broadcast content in step S12. In addition, execution of the process of step S12 is arbitrary, and the broadcasting apparatus 300 can also generate a retransmission wave so as not to include the original broadcast content. Next, in step S13, the digital broadcast receiving unit 310 receives a plurality of broadcast waves of the digital broadcast from a plurality of broadcast stations (broadcast apparatus 200). Also, the digital broadcast receiving unit 310 extracts PSI / SI information and emergency broadcast descriptor included in the received broadcast wave. After that, in step S14, the EWS determination unit 320 determines whether or not the EWS broadcast wave and the non-EWS broadcast wave exist in the broadcast wave received by the digital broadcast reception unit 310 (the EWS in the received broadcast wave). Judgment whether broadcast waves are included). That is, it is determined whether or not there is a broadcasting station that performs emergency alert broadcasting. As described above, this determination can be made by determining the value of the emergency warning broadcast activation flag in the TMCC signal included in the broadcast wave.

  If it is determined in step S14 that an EWS broadcast wave is included, the process proceeds to step S15, and the retransmit wave generation unit 330 executes the above-described EWS related information addition processing for the non-EWS broadcast wave. Thereafter, in step S16, retransmission wave generation unit 330 generates a retransmission wave based on the EWS broadcast wave and the non-EWS broadcast wave to which the EWS related information is added, and transmits the generated retransmission wave to transmission unit 360. Is output. In step S17, the transmission unit 360 transmits the retransmission wave output from the retransmission wave generation unit 330 via the transmission antenna ANT4. If it is determined in step S14 that no EWS broadcast wave exists, the process proceeds to step S16, where a retransmission wave is generated from the non-EWS broadcast wave received from the broadcast station and transmitted. Steps S12 to S18 (loop 1) are performed over a period in which the broadcast apparatus 300 continues the retransmission process.

  Next, a broadcast receiving apparatus according to the present invention that receives a retransmitted wave transmitted by the broadcast apparatus 300 will be described. FIG. 4 is a block diagram of a broadcast receiving apparatus according to an embodiment of the present invention. As shown in the figure, the broadcast receiving apparatus 100 includes a tuner unit 110, a demodulation unit 120, a demultiplexing unit 130, a processing unit 140, a control unit 150, a wireless communication unit 160, and a memory 170. The broadcast receiving apparatus 100 further includes a display unit DIS, an audio output unit (speaker) SP, an audio input unit 180, and an input unit KEY. The processing unit 140 includes a video processing unit 142, an audio processing unit 144, and a data processing unit 146. The data processing unit 146 includes a PSI / SI analysis unit 147. The control unit 150 includes a TMCC monitoring unit 152 and an EWS channel selection unit 154. The memory 170 includes a channel list 172.

  The function of each part of the broadcast receiving apparatus 100 will be described in detail. The broadcast receiving apparatus 100 receives a broadcast wave (RF signal) of digital broadcasting with an antenna ANT. The tuner unit 110 tunes the received broadcast wave based on a frequency (channel) designation command from the control unit 150 that controls the entire apparatus. The demodulator 120 demodulates the received broadcast wave and extracts broadcast data. Then, the demultiplexing unit 130 separates the demodulated broadcast data into audio data, video data, data such as PSI / SI information and data broadcast, and outputs the separated data to the processing unit 140. The video processing unit 142 decodes the video data to extract a video signal, and outputs the extracted video signal to the display unit DIS. The audio processing unit 144 decodes the audio data to extract an audio signal, and outputs the extracted audio data to the audio output unit SP. The data processing unit 146 uses the PSI / SI analysis unit 147 to analyze the PSI / SI information (NIT, etc.) included in the broadcast wave, and further, based on the data for data broadcasting (BML (Broadcast Markup Language), etc.) A data broadcast screen image composed of subtitles and the like is created and output to the display unit DIS.

  The control unit 150 controls each component according to a predetermined program and user input from the input unit KEY. The TMCC monitoring unit 152 monitors an emergency warning signal (EWS) included in the TMCC signal received by the tuner unit 110. Further, when the TMCC monitoring unit 152 detects EWS, the TMCC monitoring unit 152 determines whether or not the emergency alert broadcast is being broadcast on the channel currently being received. The EWS channel selection unit 154 stores the service list descriptor, the emergency information descriptor (FIG. 10) obtained from the PSI / SI analysis unit 147, and the channel list 172 stored in the memory 170 according to the determination result of the TMCC monitoring unit 152. Based on this, the tuner unit 110 is controlled to select the emergency warning broadcast.

  The wireless communication unit 160 performs wireless communication such as voice call, e-mail, and web browsing. The display unit DIS displays a display related to wireless communication such as video / data broadcasting of digital broadcasting and E-mail. The voice output unit SP outputs the voice of digital broadcasting, the voice of the other party during a voice call, and the like. The voice input unit 180 receives a user's voice during a voice call or the like. The input unit KEY is typically composed of a keypad or the like, and accepts various input operations such as a selection operation and a determination operation from the user. Further, the memory 170 stores various programs for controlling the broadcast receiving apparatus 100 and various information related to wireless communication, as well as information on a channel list 172 used for channel selection of digital broadcasting.

  FIG. 5 shows a flowchart of an embodiment of the receiving process of the broadcast receiving apparatus 100. Based on this flowchart, the receiving process of the broadcast wave transmitted by the broadcasting apparatus 300 by the broadcast receiving apparatus 100 will be described. The broadcast receiving apparatus 100 continues the process (loop 2) in the flowchart of FIG. 5 until the reception of the digital broadcast is completed. First, in step S21, processing of loop 2 is started. In step S22, TMCC monitoring unit 152 monitors the TMCC signal of the received broadcast wave. In step S23, the TMCC monitoring unit 152 determines whether or not an emergency alert broadcast (EWS broadcast) is being broadcast in the broadcast retransmitted by the broadcast device 300, that is, an emergency alert broadcast activation flag in the TMCC signal. It is determined whether or not “1” is “1”. Here, it should be noted that the broadcast wave received by the broadcast receiving apparatus 100 is a broadcast wave that has been subjected to EWS-related information addition processing on the non-EWS broadcast wave by the broadcast apparatus 300. Therefore, when an emergency alert broadcast is performed in at least one of the broadcast services retransmitted by the broadcast device 300, not only the TMCC signal of the EWS broadcast wave corresponding to the broadcast service for which the emergency alert broadcast is performed, Also in the TMCC signal of the non-EWS broadcast wave, the value of the emergency warning broadcast activation flag is “1”.

  If it is determined in step S23 that emergency warning broadcasting is not being performed (not being in EWS broadcasting), the process proceeds to step S32, and loop 2 is continued until reception of the digital broadcast is terminated. If it is determined in step S23 that emergency alert broadcasting is being performed, the TMCC monitoring unit 152 determines whether or not the EWS is included in the currently received broadcast wave, that is, the tuner unit 110 selects a channel. Then, it is determined whether or not the channel being received is performing an emergency alert broadcast (step S24). Specifically, first, based on the analysis result of the PSI / SI analysis unit 147, it is determined whether or not the emergency information descriptor (FIG. 10) is included in the NIT or PMT included in the broadcast wave of the channel being received. To do. If it is determined that the emergency information descriptor does not exist, the currently watched channel does not include the emergency alert broadcast service, that is, the emergency broadcast is performed at the broadcasting station that broadcasts the currently received channel. Judge that it is not. If the emergency information descriptor is included, the TMCC monitoring unit 152 next refers to the service identification described in the emergency information descriptor, and the EWS is included in the broadcast wave of the currently received channel. It is determined whether or not. Specifically, when the service identification described in the emergency information descriptor is not included in the service list descriptor, or the local carrier identification included in the service identification described in the emergency information descriptor is If it differs from the identification of the broadcaster (broadcast station) of the broadcast wave being received, the emergency broadcast service is not included in the broadcast wave currently being received, and the emergency broadcast is included in the other broadcast wave It is determined that Here, FIG. 11 shows a schematic diagram of a data structure of a service list descriptor, and FIG. 12 shows a schematic diagram of a bit arrangement for service identification. The service list descriptor describes a list of service identifications (service_id) and service type types of each broadcast wave, and a broadcaster that broadcasts each broadcast wave can be identified by the service identification. Also, it is possible to identify the broadcaster that broadcasts each broadcast wave by the local carrier identification in the bit arrangement of the service identification shown in FIG.

  If it is determined by the above-described determination method that the emergency alert broadcast is included in the currently received broadcast wave in step S24, the process proceeds to step S29. Here, the EWS channel selection unit 154 selects an emergency alert broadcast included in the currently received broadcast wave, and displays the content of the emergency alert broadcast on the display unit DIS, for example. If it is determined that the emergency alert broadcast service is not included in the currently received channel and the emergency alert broadcast is included in the other channel, the process proceeds to step S25, and the other channel is used. The user is notified that the emergency alert broadcast is being provided (the emergency alert broadcast is being implemented). This notification preferably displays a message on the display unit DIS prompting the user to select whether or not to select the emergency alert broadcast. Note that the notification to the user is not limited to the message display, but can be performed by voice, vibration, or the like.

After that, in step S26, the EWS channel selection unit 154 determines whether or not the input unit KEY has received an instruction to select an emergency warning broadcast by the user. If it is determined in step S26 that there is no channel selection instruction, the process proceeds to step S30, and the notification message to the user is deleted. When there is a channel selection instruction, the EWS channel selection unit 154 identifies another broadcast wave that is carrying out the emergency warning broadcast by any of the following methods, and the tuner unit selects the emergency warning broadcast. 110 is controlled (steps S27 and S28).
1. When information about a broadcaster that provides emergency alert broadcasting is stored in advance in the memory 170, the emergency alert broadcasting service included in the channel list is provided by referring to the currently used channel list. Select the channel of the broadcaster you are.
2. Based on information added to the reserved area of TMCC information in the TMCC signal (channels, segments, regional operators, etc. for which emergency alert broadcasting is provided), broadcast waves for which emergency alert broadcasting is provided are selected. Bureau.
3. A broadcaster whose service identification is included in the emergency information descriptor is selected from broadcast waves included in the currently used channel list.

  Note that the channel list is a correspondence table between physical channels, regional operator identification, segments, and broadcasting stations (services) as shown in FIG. 14, for example. The example shown in FIG. 14 is an example, and the physical frequency and the broadcasting station can be associated with each other. The channel list may be stored in a memory or a recording unit at the time of shipment from the factory, or may be acquired or updated later through communication means such as digital broadcasting or SMS (Short Message Service) message. May be. It can also be acquired by performing a channel scan or the like.

  FIG. 6 shows a screen transition diagram of the display unit DIS in the broadcast receiving apparatus 100 during the reception process. The screen D11 is a display unit DIS that is viewing normal digital broadcasting. Thereafter, the TMCC monitoring unit 152 detects that the emergency warning broadcast activation flag in the TMCC signal is “1”, and determines whether or not the broadcast wave of the currently received channel is an EWS broadcast wave. When the broadcast wave currently being received is an EWS broadcast wave, the content of the emergency alert broadcast such as “An earthquake has occurred” is displayed on the display unit DIS as shown in the screen D12. When the broadcast wave currently being received is a non-EWS broadcast wave, the display unit DIS displays that an emergency warning broadcast is being broadcast at another station, as shown on the screen D13. At the same time, a message that prompts the user to select whether or not to select the emergency alert broadcast, such as message M1, is displayed for a predetermined period. The predetermined period is preferably a period sufficient for the user to recognize the content of the message. For example, when the user selects an emergency alert broadcast via the input unit KEY (when YES is selected), the contents of the emergency alert broadcast are displayed as in a screen D12. In addition, when the user does not select the emergency alert broadcast (when NO is selected or when the selection operation from the user is not input during a predetermined period), the normal digital broadcast viewing screen of the screen D11 is displayed. Return to.

  The advantages of the present invention will be described again. According to the broadcasting device and the broadcast receiving device of the present invention, even when a user who is viewing a digital broadcast is viewing a channel of a broadcasting station that does not provide the emergency alert broadcast, the emergency alert broadcast is issued. Can be recognized. As a result, it is possible to reliably notify the occurrence of a disaster to a user who is watching a digital broadcast in an underground shopping center or the like that needs to be evacuated quickly in the event of a disaster.

  Although the present invention has been described based on the drawings and examples, it should be noted that those skilled in the art can easily make various modifications and corrections based on the present disclosure. Therefore, it should be noted that these variations and modifications are included in the scope of the present invention. For example, functions included in each component, each means, and the like can be rearranged so that there is no logical contradiction, and a plurality of components can be combined into one or divided.

1 is a configuration diagram of a broadcast system including a broadcast receiving apparatus to which the present invention is applied and a broadcasting apparatus that provides broadcast waves to the broadcast receiving apparatus. 2 is a block diagram of a broadcasting device 300. FIG. 10 is a flowchart for explaining an example of retransmission wave transmission processing (retransmission processing) by the broadcast device 300. 1 is a block diagram of a broadcast receiving apparatus according to an embodiment of the present invention. 5 is a flowchart of an example of reception processing of the broadcast receiving apparatus 100. It is the screen transition diagram of a display part in the broadcast receiving apparatus 100 in receiving processing. It is the schematic of the data structure of a TMCC signal. It is the schematic of the data structure of PAT. It is the schematic of the data structure of NIT. It is the schematic of the data structure of an emergency information descriptor. It is the schematic of the data structure of a service list descriptor. It is the schematic of bit arrangement | positioning of service identification. It is a figure which shows the segment structure of the channel which the gap filler apparatus for 1seg transmits. It is an example of a correspondence table (channel list) between physical channels and segments and broadcasting stations (services).

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Broadcast receiver 110 Tuner part 120 Demodulator part 130 Demultiplexing part 140 Processing part 142 Video processing part 144 Audio | voice processing part 146 Data processing part 147 PSI / SI analysis part 150 Control part 152 TMCC monitoring part 154 EWS channel selection part 160 Wireless communication part 170 Memory 172 Channel List 180 Audio Input Unit 200, 300 Broadcasting Device 310 Digital Broadcasting Reception Unit 320 EWS Determination Unit 330 Retransmission Wave Generation Unit 340 Unique Broadcast Content Acquisition Unit 350 Installation Area Setting Unit 360 Transmission Unit ANT1 to ANT4 Antenna D11 D13 screen DIS display section KEY input section M1 message SP voice output section

Claims (2)

A receiver that receives broadcast waves of digital broadcasting configured by connecting segments extracted from each of a plurality of digital broadcast waves;
A channel selection unit for selecting a desired channel of the digital broadcast;
When receiving a broadcast wave of digital broadcasting the segments are connected Nde free corresponding to a broadcast wave being broadcasted an emergency alert broadcast, either the emergency warning broadcast is being broadcast on the channel in tuned by the tuning unit A determination unit for determining whether or not,
The channel selection unit, when the determination unit determines that the emergency alert broadcast is not broadcast on the channel being selected in the digital broadcast, based on the information on the emergency alert broadcast, Select the channel that is carrying out the emergency alert broadcast in digital broadcasting,
A broadcast receiver characterized by that. A receiver that receives broadcast waves of digital broadcasting configured by connecting segments extracted from each of a plurality of digital broadcast waves;
A channel selection unit for selecting a desired channel of the digital broadcast;
When receiving a broadcast wave of digital broadcasting the segments are connected Nde free corresponding to a broadcast wave being broadcasted an emergency alert broadcast, either the emergency warning broadcast is being broadcast on the channel in tuned by the tuning unit A determination unit for determining whether or not,
When the determination unit determines that the emergency alert broadcast is not broadcast on the selected channel of the digital broadcast, the emergency alert broadcast is broadcast based on information on the emergency alert broadcast. A notification unit for notifying that
An input unit that receives an operation input by a user according to the notification of the notification unit,
The channel selection unit selects a channel that performs the emergency alert broadcast in the digital broadcast in response to an operation input by a user in the input unit.
A broadcast receiver characterized by that.

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