JP2018029281A - Broadcast receiver, channel setting program, and channel setting method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To shorten a time required for a channel scan.SOLUTION: A broadcast receiver comprises: a storage part 13 in which a channel list 32 for associating a plurality of channels 34 with broadcasting stations 35 is stored; a determination part 40 for determining whether or not one channel 34 selected from the channel list 32 is on the air; and a channel setting part 41 which performs a channel scan for detecting an available channel 34 when the determination part 40 has determined that the channel is not on the air, and which skips the channel scan and sets each of the plurality of channels 34 in the channel list 32 as a channel available for its own device when the determination part 40 has determined that the channel is on the air.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a broadcast receiving apparatus, a channel setting program, and a channel setting method.

  Various application programs for improving user convenience are mounted on smartphones and tablet terminals. In particular, an application program for receiving TV broadcast waves can cause a smartphone or tablet terminal to function as a broadcast receiving device that receives TV broadcasts, and allows a user to watch TV according to his / her convenience. It becomes possible.

  As broadcast waves that can be received by the broadcast receiving apparatus, there are broadcast waves of cable television (CATV) propagating through a cable in addition to aerial waves such as terrestrial digital television broadcasts. Cable TV is used to retransmit broadcast waves to difficult-to-view areas where airwaves are difficult to reach, and to retransmit broadcast waves to each house in an apartment house.

  There are the same frequency pass-through method and the frequency conversion pass-through method in the terrestrial digital television broadcast retransmission method using the cable television.

  Among these, the same frequency pass-through method is a method of retransmitting broadcast waves at the same frequency as the airwaves of digital terrestrial television broadcasting, and cable television can be viewed on the same physical channel as the airwaves.

  On the other hand, the frequency conversion pass-through method is a method of retransmitting a broadcast wave at a frequency different from that of the airwave. There are various reasons why the frequency conversion pass-through method is adopted. For example, when the shared facilities of the apartment house are only compatible with VHF (Very High Frequency), by converting the UHF (Ultra High Frequency) airwaves to VHF with a frequency conversion pass-through method and sending it to the cable, Each house can receive broadcasts from that cable.

  In the frequency conversion pass-through method, there is no definition about the physical channel of the conversion destination, and the operator or administrator who retransmits the broadcast in the frequency conversion pass-through method can arbitrarily decide which physical channel to retransmit the broadcast. Can be set.

  However, in this case, it is not known in advance in which physical channel the broadcast is actually performed. Therefore, when viewing cable television with a broadcast receiving device such as a smartphone, it is necessary to detect a physical channel on which broadcasting is actually performed by performing a channel scan in advance by the broadcast receiving device. As a result, the user waits at the time of channel scanning, and the user feels stressed.

JP 2007-318638 A

  According to one aspect, an object is to provide a broadcast receiving apparatus, a channel setting program, and a channel setting method that can reduce the time required for channel scanning.

  According to one aspect, a storage unit storing a channel list in which a plurality of channels and a plurality of broadcasting stations are associated with each other, and whether or not broadcasting is performed on the one channel selected from the channel list. A determination unit that performs a channel scan to detect a receivable channel when the determination unit determines that the broadcast is not being performed, and the determination unit determines that the broadcast is being performed; In such a case, a broadcast receiving apparatus is provided that includes a channel setting unit that omits the channel scan and sets each of the plurality of channels in the channel list to a channel that can be received by the own apparatus.

  According to one aspect, the time required for channel scanning can be reduced.

FIG. 1 is an overall configuration diagram of a broadcast receiving apparatus according to the present embodiment. FIG. 2 is a hardware configuration diagram of the broadcast receiving apparatus according to the present embodiment. FIG. 3 is a schematic diagram of a channel list according to the present embodiment. FIG. 4 is a functional configuration diagram illustrating functions of the processor according to the present embodiment. FIG. 5 is a flowchart for explaining the channel setting method according to the present embodiment. FIG. 6 is a schematic diagram (part 1) illustrating a display example of the touch panel according to the present embodiment. FIG. 7 is a schematic diagram (part 2) illustrating a display example of the touch panel according to the present embodiment. FIG. 8 is a schematic diagram (part 3) illustrating a display example of the touch panel according to the present embodiment. FIG. 9 is a schematic diagram (part 4) illustrating a display example of the touch panel according to the present embodiment. FIG. 10 is a flowchart for explaining a determination method for determining whether or not the same frequency pass-through method is used in the present embodiment. FIG. 11 is a flowchart for explaining a channel list update method according to this embodiment.

(This embodiment)
Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings.

[overall structure]
FIG. 1 is an overall configuration diagram of a broadcast receiving apparatus according to the present embodiment.

  The broadcast receiving apparatus 1 is a mobile communication terminal such as a smartphone or a tablet terminal, and includes a main body 2 and a touch panel 3.

  Among these, the touch panel 3 is a device having both an input function and a display function, and displays a television image and accepts an input from a user.

  The main body 2 is provided with a cable television receiver 4. The cable television receiver 4 is a connection hole to which the transmission cable 5 is connected, and receives the broadcast wave of the cable television transmitted by the transmission cable 5.

[Hardware configuration]
FIG. 2 is a hardware configuration diagram of the broadcast receiving apparatus 1 according to the present embodiment.

  As shown in FIG. 2, the broadcast receiving apparatus 1 includes a wireless unit 11, a communication control unit 12, a storage unit 13, a main memory 14, a camera 15, an audio input / output in addition to the touch panel 3 and the cable television receiving unit 4 described above. A unit 16 and a processor 17 are provided.

  Among these, the touch panel 3 includes a display unit 3a that displays a television image and an input unit 3b that inputs to the broadcast receiving device 1 when the user touches it.

  The radio unit 11 is an interface for transmitting and receiving radio for performing calls and data communication, and the radio channel for transmission and reception is controlled by the communication control unit 12.

  The storage unit 13 is a non-volatile storage such as a flash memory, for example, and stores the channel setting program 31 and the channel list 32 according to the present embodiment.

  Among these, the channel list 32 is a list of physical channels that can be received by the broadcast receiving apparatus 1. In this example, a plurality of channel lists 32 corresponding to each of a plurality of regions in Japan are stored in the storage unit 13. When the broadcast receiving apparatus 1 is used only in one area, only one channel list 32 corresponding to that area may be stored in the storage unit 13.

  The channel setting program 31 may be recorded in the computer-readable recording medium 25 and the processor 17 may read the channel setting program 31 in the recording medium 25.

  Examples of such a recording medium 25 include a physical portable recording medium such as a CD-ROM (Compact Disc-Read Only Memory), a DVD (Digital Versatile Disc), and a USB (Universal Serial Bus) memory. Further, a semiconductor memory such as a flash memory or a hard disk drive may be used as the recording medium 25. These recording media 25 are not temporary media such as a carrier wave having no physical form.

  Further, the channel setting program 31 may be stored in a device connected to a public line, the Internet, a LAN (Local Area Network), etc., and the processor 17 may read and execute the channel setting program 31.

  On the other hand, the main memory 14 is, for example, a DRAM (Dynamic RAM), and the above-described channel setting program 31 is developed thereon.

  The camera 15 is an imaging device that captures still images and moving images. The audio input / output unit 16 is a microphone that inputs audio to the broadcast receiving apparatus 1 during a call, a speaker that outputs audio when watching a television, or the like.

  The processor 17 is a CPU (Central Processing Unit) that controls each unit of the device itself and executes the channel setting program 31 in cooperation with the main memory 14.

  The broadcast receiving apparatus 1 further includes a main body antenna 18, a switching unit 19, a channel selection unit 20, a demultiplexer unit 21, and a decoding unit 22.

  Among these, the main body antenna 18 is a rod antenna for receiving aerial waves of digital terrestrial television broadcasting, for example.

  The switching unit 19 is a switch that selects one of the cable television receiving unit 4 and the main body antenna 18 and outputs a broadcast wave received by one of them to the channel selection unit 20 at the subsequent stage.

  Note that the user determines which of the cable television receiver 4 and the main body antenna 18 is selected. Based on the determination, the processor 17 instructs the switching unit 19 to select one of the cable television receiving unit 4 and the main body antenna 18.

  The channel selection unit 20 is a tuning circuit that selects a channel by extracting a specific frequency from received broadcast waves. When selecting a channel, the user presses the remote control number displayed on the touch panel 3. As a result, an instruction to select a physical channel corresponding to the pressed remote control number is notified from the processor 17 to the channel selection unit 20.

  When the broadcast wave can be tuned, the tuning unit 20 outputs a tuning signal indicating that to the processor 17. At the same time, the tuning unit 20 outputs an intensity signal indicating the reception intensity of the tuned broadcast wave to the processor 17.

  Further, the channel selection unit 20 demodulates the broadcast wave of the selected channel, extracts a transport stream in which video data and audio data are mixed from the demodulated broadcast wave, and outputs it to the demultiplexer unit 21. It also has functions.

  The demultiplexer unit 21 is a circuit that extracts each elementary stream of video and audio from the transport stream and outputs them to the decoding unit 22.

  In addition to this, the demultiplexer unit 21 has a function of extracting PSI (Program Specific Information) / SI (Service Information) information from the transport stream and notifying the processor 17 of the information.

  The PSI / SI information includes, for example, a TS (Transport Stream) -ID for uniquely identifying a broadcast station of a received broadcast and a service ID for uniquely identifying a program broadcast by the broadcast station. It is.

  The decoding unit 22 is a circuit that decodes each elementary stream of video and audio under the control of the processor 17 and outputs it to the processor 17.

  In this example, each function of the demultiplexer unit 21 and the decoding unit 22 is realized by a circuit. However, the processor 17 reads software for realizing these functions so that the demultiplexer unit 21 and the decoding unit 22 can be decoded. The unit 22 may be realized by software.

  In such a broadcast receiving apparatus 1, the channel selection unit 20 selects one of a plurality of physical channels stored in the channel list 32, so that a receivable physical channel is detected every time the channel is selected. This makes it possible to receive broadcasts smoothly without having to perform channel scanning.

  FIG. 3 is a schematic diagram of the channel list 32.

  FIG. 3 shows an example of the channel list 32 when the area where the user is located is Hokkaido.

  As shown in FIG. 3, the channel list 32 is a list in which the remote control number 33, the physical channel 34, the broadcast station 35, the TS-ID 36, the service ID 37, and the reception strength 38 are associated with each other.

  Among these, the remote control number 33 is a number displayed on the display unit 3a (see FIG. 2), and the channel selection is performed by the user selecting one of these numbers.

  The physical channel 34 is a digitized frequency band assigned to each terrestrial digital television broadcast station. For example, the physical channel 34 in Japan includes UHF band 13ch to 52ch.

  The broadcast station 35 is a broadcaster to which the above-described physical channel 34 is assigned.

  On the other hand, the TS-ID 36 is an identifier that uniquely identifies the broadcasting station 36 of digital terrestrial television broadcasting, and the service ID 37 is an identifier that uniquely identifies the broadcasting service broadcast by each broadcasting station 35.

  The TS-ID 36 and the service ID 37 are information unique to each broadcasting station 35, and are hereinafter collectively referred to as broadcasting station information 39.

  The reception intensity 38 is the broadcast wave reception intensity when the channel list 32 is created.

  Here, in terrestrial digital television broadcasting, each physical channel 34 corresponding to each broadcasting station 35 is assigned in advance by the Ministry of Internal Affairs and Communications in Japan, and when the broadcast receiving apparatus 1 is shipped, the channel list 32 is preset in accordance with the assignment. Is done.

  However, in cable televisions adopting the frequency conversion pass-through method, there is no provision for the physical channel after frequency conversion as described above, and the operator or administrator can decide which physical channel to use. Can be set.

  Furthermore, it is not known in advance whether the cable television that the user wants to watch uses the same frequency pass-through method or the frequency conversion pass-through method.

  Therefore, when the broadcast wave is received by the broadcast receiving apparatus 1, even if the user selects the remote control number 33 in the preset channel list 32, the broadcast is not broadcast with the remote control number, and the user cannot watch TV. Is assumed.

  In order to prevent this, it is effective to update the channel list 32 by performing a channel scan at a predetermined timing.

  Therefore, in the present embodiment, the broadcast receiving apparatus 1 is provided with a function for performing channel scanning as follows.

[Function configuration]
FIG. 4 is a functional configuration diagram showing functions of the processor 17.

  In FIG. 4, the same elements as those described in FIG. 2 are denoted by the same reference numerals as those in FIG. 2, and the description thereof is omitted below.

  As shown in FIG. 4, the processor 17 includes a video / audio processing unit 23, a determination unit 40, a channel setting unit 41, and an update unit 42. These units can be realized by the processor 17 executing the channel setting program 31 in cooperation with the main memory 14.

  Among these, the determination unit 40 determines whether or not the retransmission method on the cable television is the same frequency pass-through method by determining whether or not broadcasting is performed on one physical channel 34 selected from the channel list 32. Determine.

  In addition, the channel setting unit 41 performs a channel scan for detecting a channel capable of receiving a broadcast when the determination unit 40 determines that the broadcast is not being performed. If the determination unit 40 determines that the broadcast is being performed, the channel setting unit 41 omits the channel scan, and the physical device can receive each of the plurality of physical channels 34 in the channel list 32. Set to.

  Then, the update unit 42 updates the channel list 32 based on the result of the channel scan performed by the channel setting unit 41.

  On the other hand, the video / audio processing unit 23 outputs the elementary stream of the video decoded by the decoding unit 22 to the display unit 3a so that the display unit 3a can display the video of the television.

  Further, the video / audio processing unit 23 outputs the audio elementary stream decoded by the decoding unit 22 to the audio input / output unit 16 so that the audio input / output unit 16 can reproduce the audio of the television.

[Channel setting method]
Next, a channel setting method according to the present embodiment will be described.

  FIG. 5 is a flowchart for explaining the channel setting method according to the present embodiment.

  First, in step S101, when the user operates the touch panel 3, the channel list 32 corresponding to the area where the user is present is selected.

  6 to 8 are schematic diagrams illustrating display examples of the touch panel 3 in this step.

  As shown in FIG. 6, a list of a plurality of regions 43 is first displayed on the touch panel 3, and the user selects a region in which he / she is located.

  For example, when the user selects “Hokkaido / Tohoku” from among the regions 43, a list of prefectures 44 included in “Hokkaido / Tohoku” is displayed on the touch panel 3 as shown in FIG. 7. Then, the user selects the prefecture where he / she is from among the prefectures 44.

  Here, it is assumed that the user selects “Hokkaido”. In this case, as shown in FIG. 8, a list of regions 45 included in “Hokkaido” is displayed on the touch panel 3. Eventually, the user selects an area where the user is present from among the areas 45.

  As a result, the channel list 32 corresponding to the selected region 45 is selected from the plurality of channel lists 32, and channel selection is performed based on the channel list 32 or the channel list 32 is updated. Will be able to.

  Instead of the user selecting the area 45 in this way, the broadcast receiving apparatus 1 is provided with a GPS (Global Positioning System) function so that the processor 17 can automatically select the area 45 where the own apparatus is located. May be.

  Refer to FIG. 5 again.

  Next, the process proceeds to step S102, where the user operates the touch panel 3 to notify the processor 17 whether or not to watch cable television.

  FIG. 9 is a schematic diagram showing a display example of the touch panel 3 in this step.

  As shown in FIG. 9, the touch panel 3 displays a first button 47 for selecting the transmission cable 5 for cable television and a second button 48 for selecting the main antenna 18 for airwaves.

  When viewing cable TV, the user presses the first button 47. On the other hand, the user presses the second button 48 when viewing the television from the airwaves of terrestrial digital television broadcasting without viewing the cable television.

  When the user determines that the cable television receiving unit 4 has the function of determining whether or not the transmission cable 5 is connected to the user apparatus instead of selecting the user himself / herself in this way. In this case, the processor 17 may be automatically determined to view the cable television. In this case, for example, the cable television receiver 4 measures the electrical resistance of the transmission cable 5 and can determine that the transmission cable 5 is connected to the own apparatus based on the measured value.

  Refer to FIG. 5 again.

  If it is determined in step S102 that the cable television is not viewed (NO), the user is about to receive an airwave such as a terrestrial digital television broadcast.

  Therefore, in this case, the process proceeds to step S108, and the channel setting unit 41 sets the physical channel 34 on which airwave broadcasting is performed as the physical channel to be scanned. Here, as the physical channel 34, 13ch to 52ch of the UHF band where terrestrial digital television broadcasting is performed is set.

  Thereafter, the process proceeds to step S107, and the channel setting unit 41 sequentially scans channels 13 to 52, thereby detecting those physical channels that can be viewed. Then, the update unit 42 updates the channel list 32 based on the detection result. The updating method will be described later.

  On the other hand, if it is determined that the cable TV is viewed (YES) in step S102, the user is about to receive the cable TV broadcast wave.

  When the retransmission method on the cable television is the frequency conversion pass-through method, the physical channel after frequency conversion is unknown as described above. Therefore, in this case, there is a possibility that broadcasting is being performed on a physical channel different from that in the preset channel list 32, and it is necessary to perform a channel scan to search for a viewable physical channel 34.

  On the other hand, if the retransmission method on the cable television is the same frequency conversion pass-through method, the physical channel is not converted, so that channel scanning is unnecessary.

  Therefore, as described above, when the cable television is viewed (YES) in step S102, the determination unit 40 uses the same retransmission method on the cable television in step S103 to confirm whether or not the channel scan is necessary. It is determined whether or not the frequency pass-through method is used.

  Details of the determination method will be described later.

  Then, the process proceeds to step S104, and the process branches according to the determination result in step S103.

  Here, if it is determined that the same frequency pass-through method is used (YES), the broadcast is being performed on the same physical channel 34 as in the preset channel list 32. The channel selection unit 20 can be selected using this.

  Therefore, the channel setting unit 41 omits extra processing such as channel scanning for searching for a viewable physical channel 34.

  In step S110, the channel setting unit 41 uses the preset channel list 32 as it is to set each physical channel 34 in the preset channel list 32 as a physical channel that can be received by the own apparatus.

  On the other hand, if it is determined in step S104 that the same frequency pass-through method is not used (NO), there is a possibility that broadcasting is performed on a physical channel different from that in the preset channel list 32. List 32 cannot be used.

  Therefore, in this case, the process proceeds to step S105, and the channel setting unit 41 initializes the channel list 32 by deleting each entry of the preset channel list 32.

  Next, the process proceeds to step S106, and the channel setting unit 41 sets all physical channels that may be used in the frequency conversion pass-through method as channel scan targets.

  In Japan, there are 113 physical channels such as 1ch to 12ch in the VHF band, 13ch to 62ch in the UHF band, C13 to C22ch in the MID band, and C23 to C63ch in the SHB band.

  Thereafter, the process proceeds to step S107, and the channel setting unit 41 sequentially scans the 113 channels set in step S106, thereby detecting those physical channels that can be viewed. Then, the update unit 42 updates the channel list 32 based on the detection result.

  Thus, the basic steps of the channel setting method according to the present embodiment are finished.

  According to the above-described embodiment, when the retransmission method is the same frequency pass-through method, the channel scan in step S107 and the update of the channel list 32 are omitted, and the preset channel list 32 is used as it is.

  Therefore, since it is not necessary to scan the 113 channels in step S107, the time required for the channel scan can be shortened, and the stress felt by the user during the channel scan can be reduced.

  If it is determined that the same frequency pass-through method is not used (NO) in step S103, the viewable physical channel 34 is detected in step S107, and the channel list 32 is updated based on the detection result.

  As a result, the physical channel 34 in the channel list 32 is updated to be viewable, so that the broadcast can be reliably viewed using the channel list 32.

<Judgment method of the same frequency pass-through method>
Next, the determination method for determining whether or not the same frequency pass-through method is used in step S103 will be described in detail.

  FIG. 10 is a flowchart for explaining a determination method for determining whether or not the same frequency pass-through method is used in step S103 of FIG.

  First, in step S201, the determination unit 40 selects one arbitrary physical channel 34 in the channel list 32 selected in step S101.

  Next, in step S202, the determination unit 40 determines whether broadcasting is being performed on the physical channel 34 selected in step S201.

  The determination method is not particularly limited. In this example, the determination unit 40 determines that broadcasting is being performed when a tuning signal indicating that the received broadcast wave has been tuned is notified from the channel selection unit 20 to the determination unit 40. On the other hand, when the tuning signal is not notified, the determination unit 40 determines that broadcasting is not performed.

  If it is determined that the broadcast is not being performed (NO), the cable television broadcast wave is converted to a physical channel 34 different from that in the preset channel list 32 by the frequency conversion pass-through method. become.

  Therefore, in this case, the process proceeds to step S206, and the determination unit 40 determines that the same frequency pass-through method is not used.

  On the other hand, if it is determined in step S202 that the broadcast is being performed (YES), since the broadcast can be viewed on the physical channel 34 of the preset channel list 32, the cable television adopts the same frequency pass-through method. The probability is high.

  Therefore, in this case, it may be determined that the same frequency pass-through method is used, but in the present embodiment, the following steps are further performed in order to increase the accuracy of the determination.

  First, the process proceeds to step S203, and the determination unit 40 identifies a broadcasting station that is currently broadcasting in step S202.

  The specific method is not particularly limited. For example, the determination unit 40 can extract the TS-ID from the PSI / SI information notified from the demultiplexer unit 21 and specify the broadcast station based on the TS-ID.

  Next, the process proceeds to step S204, where the determination unit 40 determines whether or not the broadcasting station that is currently broadcasting in step S202 is the same as the broadcasting station corresponding to the physical channel 34 selected in step S201. . The determination can be made based on, for example, whether the TS-ID extracted in step S202 is the same as the TS-ID corresponding to the physical channel 34 selected in step S201.

  Here, when it is determined that they are not identical (NO), the correspondence between the physical channel 34 and the broadcasting station 35 in the channel list 32 is broken. This is because broadcasting is performed on a physical channel 34 different from that before conversion by the frequency conversion pass-through method. Therefore, in this case, the process proceeds to step S206, and the determination unit 40 determines that the same frequency pass-through method is not used.

  On the other hand, if it is determined in step S204 that the broadcasting stations are the same (YES), the same broadcasting station 35 is broadcasting on the same physical channel 34 in the preset channel list 32. .

  Thus, when the correspondence between the physical channel 34 and the broadcasting station 35 is maintained, the conversion of the physical channel 34 is not performed.

  Therefore, in this case, the process proceeds to step S205, and the determination unit 40 determines that the same frequency pass-through method is used.

  Thus, the basic steps of the same frequency pass-through determination method are completed.

  According to the determination method described above, it is possible to easily determine whether or not the same frequency pass-through method is obtained by simply checking the presence / absence of broadcasting in step S202.

  In addition, the accuracy of the determination can be increased by checking the identity of the broadcasting station in step S204.

<How to update channel list 32>
Next, the channel list update method in step S107 in FIG. 5 will be described in detail.

  FIG. 11 is a flowchart for explaining the channel list update method in step S107 of FIG.

  In the update method, the viewable physical channels 34 are sequentially detected by performing a channel scan as described below, and information on broadcasting stations or the like corresponding to the detected physical channels 34 is updated.

  First, in step S301, the channel setting unit 41 selects one physical channel 34 to be scanned.

  The physical channels 34 to be scanned are 113 physical channels 34 set in step S106 (see FIG. 5) and UHF band channels 13 to 52ch set in step S108 (see FIG. 5). When step S301 is executed first, the channel having the lowest frequency among these physical channels 34 is selected.

  Next, the process proceeds to step S302, and the determination unit 40 determines whether broadcasting is being performed on the physical channel 34 selected in step S301.

  In this example, the determination unit 40 determines that the broadcast is being performed when a tuning signal indicating that the received broadcast wave can be tuned is notified from the channel selection unit 20, and if not, the determination unit 40 determines that the broadcast is being performed. Is determined not to be performed.

  If it is determined that the broadcast is being performed (YES), the physical channel 34 capable of receiving the broadcast has been detected.

  Therefore, in this case, the process proceeds to step S303, and the determination unit 40 identifies a broadcasting station that is currently broadcasting in step S302.

  The specific method is not particularly limited. Similar to step S <b> 203 described above, the determination unit 40 can extract the TS-ID from the PSI / SI information notified from the demultiplexer unit 21 and specify the broadcast station based on the TS-ID.

  Here, when channel scanning is performed in this way, the same broadcast station may appear in a plurality of different physical channels 34. This is because the same broadcast station may broadcast using a plurality of different physical channels 34.

  In this case, which of the plurality of physical channels 34 is registered in the channel list 32 is not particularly limited, but in the present embodiment, the one having higher reception strength is registered in the channel 32 as follows.

  First, in step S304, the updating unit 42 determines whether or not the broadcasting station identified in step S303 is a broadcasting station detected for the first time after executing this flowchart.

  If it is determined that the detection is not the first detection (NO), it means that the same broadcasting station has been detected in the past on a different physical channel 34.

  Therefore, in this case, the process proceeds to step S310, and the update unit 42 determines whether or not the reception strength of the physical channel 34 of the broadcast station detected this time is stronger than the reception strength of the physical channel 34 of the same broadcast station detected in the past. Judgment.

  Note that the strength of the reception strength is determined by the updating unit 42 based on the strength signal output from the channel selection unit 20.

  If it is determined that the current reception intensity is stronger (YES), the broadcast using the physical station 34 detected this time can be clearly received. Therefore, in this case, the process proceeds to step S311 and the updating unit 42 updates the channel list 32.

  As a result of the update, the physical channel 34 of the broadcast station 35 identified in step S304 is rewritten to the one detected this time. At the same time, the update unit 42 rewrites the reception intensity 38 of the broadcasting station 35 to the reception intensity of the physical channel 34 detected this time.

  On the other hand, if it is determined in step S310 that the current reception intensity is not stronger (NO) than in the past, the process proceeds to step S308.

  In step S308, the determination unit 40 determines whether or not the physical channel 34 set in step S301 is the last physical channel to be scanned.

  In this example, the channel having the highest frequency among the plurality of physical channels 34 to be scanned is set as the last physical channel 34.

  If it is determined that the physical channel 34 is not the last physical channel (NO), the process proceeds to step S312.

  In step S312, the channel setting unit 41 selects the physical channel 34 having the next higher frequency than the physical channel 34 selected in step S301 immediately before, and starts again from step S301.

  On the other hand, if it is determined in step S304 that it is the first detection (YES), the process proceeds to step S305.

  In step S305, the update unit 42 determines whether or not the broadcast station information 39 corresponding to the physical channel 34 determined to be broadcast in step S302 has been registered in the channel list 32.

  Here, if it is determined that it is registered (YES), the updating unit 42 updates the broadcasting station information from the channel list 32 in step S306 in order to update the broadcasting station information 39 corresponding to the physical channel 34. 39 is deleted.

  On the other hand, if it is determined in step S305 that it is not registered (NO), the broadcast station information 39 corresponding to the physical channel 34 determined to be broadcasting in step S302 does not exist in the channel list 32. The broadcast station information 39 corresponding to the physical channel 34 need not be deleted from the channel list 32.

  Therefore, in this case, step S306 is skipped and the process proceeds to step S307.

  In step S307, the updating unit 42 registers the broadcast station 35 specified in step S303 in the channel list 32. At the same time, the update unit 42 registers the remote control number 33, the physical channel 34, the reception intensity 38, and the broadcast station information 39 corresponding to the broadcast station 35.

  Thus, the basic steps of the channel list 32 update method according to the present embodiment are completed.

  According to the method for updating the channel list 32 described above, when the receivable physical channel 34 is detected in step S302, the channel list 32 is updated in step S307.

  Therefore, all the physical channels 34 in the channel list 32 can be received, so that the broadcast can be surely viewed using the channel list 32.

  Moreover, according to this updating method, when a plurality of physical channels 34 corresponding to the same broadcasting station 35 are detected, the physical channel 34 in the channel list 32 is selected as the channel having the strongest reception intensity among the physical channels 34. Update.

  Therefore, the broadcast wave can be clearly received using the physical channel 34 having a strong reception intensity, and the stress of the user who views the broadcast can be alleviated.

  The following additional notes are disclosed for each embodiment described above.

(Supplementary Note 1) A storage unit that stores a channel list in which a plurality of channels and a plurality of broadcasting stations are associated with each other;
A determination unit that determines whether or not broadcasting is performed in one of the channels selected from the channel list;
When it is determined by the determination unit that the broadcast is not performed, a channel scan for detecting a receivable channel is performed, and when the determination unit determines that the broadcast is performed, A channel setting unit that omits the channel scan and sets each of the plurality of channels in the channel list to a channel that can be received by the own device;
A broadcast receiving apparatus.

  (Additional remark 2) It further has an update part which updates each of the said channel of the said channel list | wrist and the said broadcasting station to the said receivable channel detected by the said channel scan, and the said broadcasting station corresponding to the said channel. The broadcast receiving apparatus according to appendix 1, characterized by:

  (Supplementary Note 3) When a plurality of the channels corresponding to the same broadcasting station are detected by the channel scan, the updating unit adds the channel having the strongest reception strength among the channels to the channel list. The broadcast receiving apparatus according to appendix 2, wherein the channel is updated.

(Supplementary Note 4) When the determination unit determines that the broadcast is being performed on the one channel, the determination unit corresponds to the broadcast station currently performing the broadcast and the one channel in the channel list. Determine whether the broadcast station is the same,
The channel setting unit may perform the channel scan when the determination unit determines that the broadcasting stations are not the same even when the determination unit determines that the broadcast is being performed. The broadcast receiving apparatus according to any one of appendix 1 to appendix 3, wherein the broadcast receiver is performed.

  (Supplementary note 5) The broadcast receiving apparatus according to any one of supplementary notes 1 to 4, wherein the broadcast is a cable television broadcast adopting the same frequency pass-through method or the frequency conversion pass-through method.

  (Supplementary note 6) The broadcast receiving apparatus according to any one of supplementary notes 1 to 5, further comprising a channel selection unit that selects one of the plurality of channels in the channel list.

(Supplementary Note 7) In a broadcast receiving apparatus including a storage unit that stores a channel list in which a plurality of channels and a plurality of broadcasting stations are associated with each other,
Determining whether broadcasting is performed in one channel selected from the channel list;
When it is determined that the broadcast is not performed, a channel scan for detecting a receivable channel is performed, and when it is determined that the broadcast is performed, the channel scan is omitted in the channel list. A channel setting program for executing processing for setting each of the plurality of channels as a channel that can be received by the own device.

(Supplementary Note 8) It is determined whether or not broadcasting is performed in one channel selected from a channel list in which a plurality of channels and a plurality of broadcasting stations are associated,
When it is determined that the broadcast is not performed, a channel scan for detecting a receivable channel is performed, and when it is determined that the broadcast is performed, the channel scan is omitted in the channel list. Each of the plurality of channels is set to a channel that can be received by the own device.
Channel setting method.

DESCRIPTION OF SYMBOLS 1 ... Broadcast receiving apparatus, 2 ... Main body, 3 ... Touch panel, 3a ... Display part, 3b ... Input part, 4 ... Cable television receiving part, 5 ... Transmission cable, 11 ... Radio | wireless part, 12 ... Communication control part, 13 ... Memory | storage , 14 ... main memory, 15 ... camera, 16 ... audio input / output unit, 17 ... processor, 18 ... main body antenna, 19 ... switching unit, 20 ... channel selection unit, 21 ... demultiplexer unit, 22 ... decoding unit, 23 ... Audio / video processing unit 25 ... recording medium 31 ... channel setting program 32 ... channel list 33 ... remote control number 34 ... physical channel 35 ... broadcasting station 36 ... TS-ID 37 ... service ID 38 ... reception Intensity, 39 ... Broadcasting station information, 40 ... Determination unit, 41 ... Channel setting unit, 42 ... Update unit, 43 ... Region, 44 ... Prefecture, 45 ... Region, 47 ... First button, 48 ... Second button N.

Claims (5)

A storage unit storing a channel list in which a plurality of channels and a plurality of broadcasting stations are associated;
A determination unit that determines whether or not broadcasting is performed in one of the channels selected from the channel list;
When the determination unit determines that the broadcast is not performed, a channel scan for detecting a receivable channel is performed, and when the determination unit determines that the broadcast is performed, the channel is performed. A channel setting unit that omits scanning and sets each of the plurality of channels in the channel list to channels that can be received by the device;
A broadcast receiving apparatus.   An update unit that updates each of the channel and the broadcasting station of the channel list to the receivable channel detected by the channel scan and the broadcasting station corresponding to the channel is further provided. The broadcast receiving apparatus according to claim 1.   When the plurality of channels corresponding to the same broadcasting station are detected by the channel scan, the updating unit updates the channel in the channel list to the channel having the strongest reception strength among the channels. The broadcast receiving apparatus according to claim 2. In a broadcast receiving apparatus having a storage unit storing a channel list in which a plurality of channels and a plurality of broadcasting stations are associated with each other,
Determining whether broadcasting is performed in one channel selected from the channel list;
When it is determined that the broadcast is not performed, a channel scan for detecting a receivable channel is performed, and when it is determined that the broadcast is performed, the channel scan is omitted in the channel list. A channel setting program for executing processing for setting each of the plurality of channels as a channel that can be received by the own device. Determining whether broadcasting is performed in one channel selected from a channel list in which a plurality of channels and a plurality of broadcasting stations are associated;
When it is determined that the broadcast is not performed, a channel scan for detecting a receivable channel is performed, and when it is determined that the broadcast is performed, the channel scan is omitted in the channel list. Each of the plurality of channels is set to a channel that can be received by the own device.
Channel setting method.

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