JP4614872B2 - Broadcast receiving apparatus and reception quality detection method - Google Patents

Description

  The present invention relates to a broadcast receiving apparatus that receives a digital broadcast wave, and more particularly to a channel reception quality detection technique.

  2. Description of the Related Art Conventionally, in a broadcast receiving apparatus that receives a digital broadcast wave, it is essential for a user to select a channel to present the reception quality of a channel that provides a digital broadcast service to the user. In particular, when the broadcast receiving apparatus is a mobile terminal, since the receivable broadcast area varies depending on the location of the terminal, it is very important to present the reception quality for each channel to the user.

  Hereinafter, conventional processing for detecting reception power, which is one of the reception qualities, for each channel will be described. In the conventional received power detection process, after starting the tuner, the regional broadcast station table is read from the memory, and the tuner channel is set. Next, after performing OFDM demodulation with the same frequency, if the synchronization can be achieved, the received power is calculated. When a plurality of channels are to be searched, the same operation is performed for each channel.

  FIG. 5 is a flowchart showing a conventional region-specific channel setting process, and FIG. 6 is a flowchart showing a conventional channel-specific received power search process. Both are processing flow diagrams when the broadcast receiving apparatus is a mobile terminal (mobile terminal). In FIG. 5, first, the mobile terminal obtains location information using a GPS function provided in the terminal, and obtains current location information based on the location information (step S501). Then, based on the current location information of the mobile terminal, the broadcast area is specified, the regional broadcast station table is referenced (step S502), and the number N of channels is calculated (step S503). As described above, in FIG. 5, the mobile terminal calculates the number of channels in the broadcast area to which the terminal belongs based on the current location information.

  In FIG. 6, the mobile terminal sets the number of channels N shown in FIG. 5 as a search target (step S601). Then, for each channel (i = 1 to N), the received power is calculated by processing in steps 602 to 610 described later. When the mobile terminal sets the channel CH (i) (step S602), the mobile terminal performs OFDM demodulation on the channel (step S603), and determines whether OFDM detection is completed (step S604). When the OFDM detection is completed, it is determined whether or not the synchronization is OK (step S605). If the synchronization is OK, the received power of that channel is calculated (step S606). In step 605, if the synchronization is not OK, it is determined whether or not the synchronization retry is abnormal (step S607). If the synchronization retry is not abnormal, the process returns to step 605. If the synchronization retry is abnormal, the process returns to step 603. If the OFDM detection is not completed in step 604, it is determined that the channel cannot be received (step S608).

  When the mobile terminal detects the received power in step 606, the mobile terminal stores the received power information of the channel in the memory. If the mobile terminal determines that reception is impossible in step 608, the mobile terminal cannot receive the channel. That is stored in the memory (step S609). Then, for the next channel (i = i + 1), the processing from steps 602 to 610 is performed. In this way, in FIG. 6, the mobile terminal calculates the received power for each channel broadcast by the broadcast area to which the terminal belongs and stores it in the memory.

  Further, in a mobile terminal that notifies the reception sensitivity of each channel to the user, the reception state of the digital broadcast wave of each channel is detected, and the lighting operation corresponding to the reception state for the operation key assigned to each channel The technique which performs is disclosed (refer patent document 1). Further, a technique for measuring a current position by a GPS function in a mobile terminal that displays a reception level of each channel, detecting a reception level of each channel in a broadcasting area to which the mobile terminal belongs, and specifying a receivable channel is disclosed. (See Patent Document 2).

JP 2004-266602 A JP-A-5-83648

  As shown in FIG. 5 and FIG. 6, in the conventional reception power detection process, it takes a very long time to display the reception statuses of all the channels that the user wants to know in real time on the standby screen of the mobile terminal. . This is because all the channels must be searched and the received power for each channel must be detected. That is, it is necessary to scan all channels.

  As described above, the technique disclosed in Patent Literature 1 notifies the user of the reception sensitivity of each channel in association with the illumination of the operation key. However, since it is necessary to sequentially scan each channel in order to detect the reception sensitivity, there is a similar problem that it takes time to notify the user. Also in the technique of Patent Document 2, when a broadcast area is changed by movement, it is necessary to sequentially scan each channel in order to check which channel can be received. For this reason, the same problem that it takes time to check the receivable channel occurs.

  Accordingly, the present invention provides a broadcast receiving apparatus and a reception quality detection method capable of detecting a channel reception quality at high speed when receiving a digital broadcast.

In order to solve the above-mentioned problems, a broadcast receiving apparatus according to the present invention stores information on a channel transmitted with the maximum power for each broadcast area capable of receiving a digital broadcast wave in a broadcast receiving apparatus that receives a digital broadcast wave. Storage means for detecting the reception quality of the channel transmitted with the maximum power, and the reception quality of the channel transmitted with the maximum power detected by the detection means. And an informing means for informing as described above.

Further, the broadcast receiving apparatus according to the present invention is a broadcast receiving apparatus that receives digital broadcast waves, storage means for storing channel information transmitted with minimum power for each broadcast area that can receive digital broadcast waves, Detection means for detecting reception quality for the channel transmitted with the minimum power, and notification means for notifying the reception quality of the channel transmitted with the minimum power detected by the detection means as the reception quality of the broadcast area And.

Although the present invention has been described as a broadcast receiving apparatus, the present invention can be realized as a method substantially corresponding to these, and the present invention includes a reception quality detection method. That is, the reception quality detection method according to the present invention includes a step of detecting reception quality for a channel transmitted with maximum power from a plurality of channel information in a broadcast area, and the channel transmitted with the detected maximum power. And notifying the reception quality as the reception quality of the broadcast area.

The reception quality detection method according to the present invention includes a step of detecting reception quality for a channel transmitted with minimum power from a plurality of channel information in a broadcast area, and a channel transmitted with the detected minimum power. And notifying the reception quality as the reception quality of the broadcast area.

  According to the present invention, when receiving a digital broadcast, only a specific channel in the broadcast area is scanned, and the reception quality of all the channels in the broadcast area is detected. Thus, since it is not necessary to scan all channels, the number of channel scans can be reduced and the scan time can be reduced. Therefore, the reception quality of the channel can be detected at high speed. In particular, when the broadcast receiving apparatus of the present invention is a mobile type, the broadcast area may change frequently with movement. For example, even when the broadcast area is changed and the number of channels is greatly increased, it is not necessary to scan all the channels, so that the reception quality of the channels can be detected more effectively.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a block diagram showing a configuration of a broadcast receiving apparatus according to an embodiment of the present invention when a mobile terminal such as a mobile phone is taken as an example. The mobile terminal 1 includes a tuner unit 2, a transmission / reception unit 3, a storage unit 4, a display unit 5, an operation unit 6, and a control unit 7. The tuner unit 2 receives a digital broadcast wave via a digital broadcast receiving antenna, performs tuning, and outputs broadcast data to the control unit 7. Further, the tuner unit 2 calculates the received power of the representative search channel according to the instruction from the control unit 7 and outputs the received power information to the control unit 7. Details of the received power detection method for the representative search channel will be described later.

  The transmission / reception unit 3 transmits / receives signal waves such as GPS and wireless networks via the communication antenna, and inputs / outputs communication data to / from the control unit 7. Further, the transmission / reception unit 3 receives a signal wave including a terrestrial digital broadcast base station table from the network according to an instruction from the control unit 7, and outputs communication data of the terrestrial digital broadcast base station table to the control unit 7. . The terrestrial digital broadcast base station table is a table composed of channel information for each base station belonging to the broadcast area, and includes a representative search channel. Details of this table will be described later. This table may be stored in advance in the storage unit 4 or may be received by broadcast waves.

  The storage unit 4 stores a terrestrial digital broadcast base station table including a representative search channel and the reception status of each channel. The display unit 5 inputs the received power detected by the tuner unit 2 as display data indicating reception status such as reception sensitivity information via the control unit 7 and displays it. For example, when the reception status of each channel is constantly or periodically scanned, the display unit 5 displays the reception status of the digital broadcast as an antenna bar indicating the reception status of the mobile terminal 1 so that it can always be seen. To do. The operation unit 6 inputs a user operation on a button or the like provided on the mobile terminal 1 and outputs it to the control unit 7 as operation data.

  The control unit 7 inputs / outputs broadcast data to / from the tuner unit 2, inputs / outputs communication data to / from the transmission / reception unit 3, stores data in the storage unit 4, and reads data from the storage unit 4, By outputting display data to the display unit 5 and inputting operation data from the operation unit 6, each unit is controlled.

  Next, the processing flow of the mobile terminal 1 shown in FIG. 1 will be described. FIG. 2 is a flowchart showing the regional representative channel setting process. FIG. 3 is a flowchart showing the received power search process for each channel. 5 is compared with the flowchart of FIG. 2, the number of channels in the broadcast area is conventionally calculated (step S <b> 503), whereas in FIG. 2, the representative search channel in the broadcast area is calculated. This is different in that the number is calculated (step S203). 6 is compared with the flowchart of FIG. 3 in the related art, the received power is calculated for each channel (steps S601, 602, 606, and 610), whereas in FIG. The received power is calculated for each representative search channel (steps S301, 302, 306, 310). That is, the number of scans in the related art is the number N of channels, but in FIG. 3, the number of scans is the number M of representative search channels. In this case, the representative channel number M is equal to or less than the channel number N (M ≦ N). Such a search process may be performed by the mobile terminal 1 constantly or periodically, or may be performed at a preset timing.

  Next, the terrestrial digital broadcast base station table stored in the storage unit 4 shown in FIG. 1 will be described. FIG. 4 is a diagram showing the configuration of the terrestrial digital broadcast base station table. This table is composed of a regional broadcast station table for each broadcast area, and indicates at which frequency the base station broadcasts each program according to the broadcast area. Specifically, it is a table composed of channel information for each base station belonging to the broadcast area, and each program channel, representative search channel, maximum output channel and minimum output channel are set for each base station belonging to the broadcast area. Has been. Referring to FIG. 4, for example, when the broadcasting area is the Kanto 1 area, the Kanto A base station has 16 channels of MHK general programs, 13 channels of MHK education programs, 20 channels of commercial broadcasting 1 programs, and civil law 6 This shows that the program is broadcast on 28ch and the representative search channel is set to 16ch.

  Here, the representative search channel is associated with the storage unit 4 of the mobile terminal 1 or the terrestrial digital broadcast base station table acquired from the outside, and broadcast waves of the same output are transmitted from one base station. It is a channel defined when That is, this representative search channel indicates that when the received power of only the representative search channel can be detected and viewed, other channels transmitted from the base station can be sufficiently viewed. Also, the maximum output channel shown in FIG. 4 is a channel having the maximum transmission power in the base station. The minimum output channel is a channel having the minimum transmission power in the base station.

Next, embodiments of the present invention will be described in detail with specific examples.
(1) When the output of each channel broadcasted by the base station is the same When the control unit 7 of the mobile terminal 1 obtains the current location information of the mobile terminal 1 from the GPS location information or communication base station information, the current location information Based on the above, the receivable broadcast area is identified, the terrestrial digital broadcast base station table read from the storage unit 4 is referred to in advance, the representative search channel in the base station belonging to the broadcast area is identified, and the number is calculated. To do. In addition, after obtaining a receivable channel by performing an auto channel scan, a broadcast area can be specified by detecting a region code from the received broadcast wave. As for a method for specifying a broadcast area that can be received from the current location information, for example, it is specified from a broadcast area table corresponding to latitude and longitude, a broadcast area table corresponding to a postal code, or a broadcast corresponding to an address. Specify from the area table. These tables may be stored in advance in the storage unit 4, may be acquired from the network, or may be searched by a server on the network. Further, reference information for converting the current location information into a postal code or an address may be stored in the storage unit 4 in advance, may be acquired from the network, or may be searched by a server on the network. . The above-described broadcast area specifying method is the same in the following embodiments. Then, the control unit 7 causes the tuner unit 2 to calculate received power for each representative search channel, determines whether or not viewing is possible based on the received power, and stores the received power and the determination result in the storage unit 4. And displayed on the display unit 5.

  For example, it is assumed that the terrestrial digital broadcast base station table shown in FIG. According to this terrestrial digital broadcasting base station table, in “Kanto 1 area”, “Kanto A base station” is “16ch”, “13ch”, “20ch”, “28ch”, and “Kanto B base station” is “22ch”. It can be seen that “32ch” and “30ch” are broadcasted by “Kanto C Base Station”, respectively, “26ch” and “41ch”. Further, it can be seen that one representative search channel is set for each base station in the “Kanto 1 area”.

  When the control unit 7 specifies “Kanto 1 area” as a broadcasting area based on the acquired current location information, etc., the control unit 7 refers to the terrestrial digital broadcasting base station table and sets “Kanto A base as a base station belonging to“ Kanto 1 area ”. Station "," Kanto B base station "and" Kanto C base station "are specified," 16ch "," 22ch "and" 26ch "are specified as representative search channels, respectively, and the number of representative search channels is calculated.

  The control unit 7 causes the tuner unit 2 to search for “16ch” of “Kanto A base station” to calculate received power, and determines whether or not viewing is possible based on the received power. The control unit 7 determines that “16ch”, “13ch”, “20ch”, and “28ch” are viewable when it is determined that viewing is possible, and when it determines that viewing is not possible, It is determined that “16 ch”, “13 ch”, “20 ch”, and “28 ch” cannot be viewed. In addition, the control unit 7 causes the tuner unit 2 to search for “22ch” of “Kanto B base station” to calculate the received power, and determines whether or not viewing is possible based on the received power. The control unit 7 determines that “22ch”, “32ch”, and “30ch” are viewable when it is determined that viewing is possible, and if it is determined that viewing is not possible, these channels are Judge that viewing is impossible. In addition, the control unit 7 causes the tuner unit 2 to search for “26ch” of “Kanto C base station” to calculate the received power, and determines whether or not viewing is possible based on the received power. Similarly, the control unit 7 determines that “26ch” and “41ch” are viewable when it is determined that viewing is possible, and if it is determined that viewing is not possible, these channels are Judge that viewing is impossible. And the control part 7 memorize | stores received power, a determination result, etc. in the memory | storage part 4, and displays it on the display part 5. FIG. Thereby, the mobile terminal 1 can notify the reception quality of each channel to the user.

  As described above, when the output of each channel broadcasted by the base station is the same, the control unit 7 needs to scan the representative search channel only once for each base station. In the above example, the prior art requires at least nine scans, whereas the embodiment of the present invention can obtain the reception status of all channels by performing at least three scans. it can. As a result, the number of scans of the channel is reduced, so that the scan time can be saved and the reception quality of each channel can be detected at high speed.

(2) When the output of each channel broadcasted by the base station is different (the output of the broadcast station is different) The control unit 7 of the mobile terminal 1 determines the current location of the mobile terminal 1 based on GPS position information and communication base station information. When the information is acquired, the broadcast area is specified based on the current location information, or the broadcast area is specified from the broadcast wave area code, and the terrestrial digital broadcast base station table read in advance from the storage unit 4 is referred to. The maximum output channel and the minimum output channel in the base station belonging to the area are specified, and the numbers thereof are calculated. Then, the control unit 7 causes the tuner unit 2 to calculate the reception power of the maximum output channel or the minimum output channel for each base station according to a preset policy (user policy, terminal manufacturer policy, broadcaster policy, etc.). Based on the received power, it is determined whether viewing is possible, and the received power and the determination result are stored in the storage unit 4 and displayed on the display unit 5. In this case, the control unit 7 sets either the maximum output channel or the minimum output channel as the representative search channel of (1) according to the policy.

  For example, it is assumed that the terrestrial digital broadcast base station table shown in FIG. According to this terrestrial digital broadcasting base station table, “Kanto D base station” broadcasts “18ch” and “13ch” in “Kanto 2 area”, the maximum output channel is “13ch”, and the minimum output channel is It can be seen that “18ch” is set.

  When the control unit 7 specifies “Kanto 2 area” as the broadcast area based on the acquired current location information, the control unit 7 refers to the terrestrial digital broadcast base station table and selects “Kanto D base station” as the base station belonging to “Kanto 2 area”. “Kanto E base station” and “Kanto F base station” are specified, and “Kanto D base station” specifies “13 ch” as the maximum output channel and “18 ch” as the minimum output channel.

  When the policy that “there is a channel that can be viewed at a minimum in the channels broadcast from the Kanto D base station” is set in advance, the control unit 7 sets the search target channel to the maximum according to the policy. The output channel is set to “13ch”. Then, the control unit 7 causes the tuner unit 2 to search for “13ch” of “Kanto D base station” to calculate the received power, and determines whether or not viewing is possible based on the received power. When it is determined that the viewing is possible, the control unit 7 determines that “there is a minimum viewable channel”, and when it is determined that the viewing is impossible, “there is no minimum viewable channel”. Judge. And the control part 7 memorize | stores received power, a determination result, etc. in the memory | storage part 4, and displays it on the display part 5. FIG.

  In addition, when a policy of “display when all channels are viewable in channels broadcast from the Kanto D base station” is set in advance, the control unit 7 sets the search target according to the policy. The channel is set to “18ch” which is the minimum output channel. Then, the control unit 7 causes the tuner unit 2 to search for “18ch” of “Kanto D base station” to calculate received power, and determines whether or not viewing is possible based on the received power. When it is determined that viewing is possible, the control unit 7 determines that “all channels are viewable”, stores the received power, the determination result, and the like in the storage unit 4 and displays them on the display unit 5. . Thereby, the mobile terminal 1 can notify the reception quality of each channel to the user. On the other hand, if it is determined that viewing is not possible, the control unit 7 determines that “not all channels are viewable” and stores the received power, the determination result, and the like in the storage unit 4. . In this case, display on the display unit 5 is not performed according to the policy.

  Further, the control unit 7 performs the channel scan process in the “Kanto E base station” in the same manner as in the above (1), and performs the channel scan process in the “Kanto F base station” in accordance with a preset policy. I do.

  Thus, when the output of each channel broadcast by the base station is different (the output of the broadcast station is different), the control unit 7 does not need to search for a channel that cannot be viewed depending on a preset policy. As a result, the scan time of channels that cannot be viewed can be saved, and the reception quality of each channel can be detected at high speed. In addition, since the control unit 7 searches for a channel according to a preset policy, the control unit 7 searches for a channel according to the intention of the user, terminal manufacturer, broadcaster, broadcast area, base station, and the like according to the policy. It can be realized.

(3) When the broadcasting area changes due to the movement of the mobile terminal 1 When the user who owns the mobile terminal 1 is moving on a train or the like, the control unit 7 performs GPS position information or communication base station information. To acquire the current location information of the mobile terminal 1 and specify the broadcast area based on the current location information, or specify the broadcast area from the area code of the broadcast wave, and the broadcast area is, for example, from “Kanto 1 area” to “Kanto 2 When it is determined that the area has changed, the terrestrial digital broadcasting base station table is referenced, the representative search channel or the like in the base station belonging to the “Kanto 2 area” is specified, and the processes (1) and (2) described above are performed. Do. Here, when channel information of “Kanto 2 area” is not set in the terrestrial digital broadcast base station table stored in the storage unit 4, the control unit 7 refers to the terrestrial digital broadcast base station table. In this case, it is determined that there is no channel information of “Kanto 2 area” after the change due to movement. Then, the control unit 7 acquires the channel information of “Kanto 2 area” from the network via the transmission / reception unit 3 and the communication antenna, and sets the channel information of “Kanto 2 area” in the terrestrial digital broadcasting base station table. And stored in the storage unit 4. And the control part 7 performs the process of above-mentioned (1) (2).

  Thus, when the broadcast area changes due to the movement of the mobile terminal 1 and the channel information of the broadcast area is not set in the terrestrial digital broadcast base station table, the control unit 7 transmits the channel information of the broadcast area from the network. And the processes (1) and (2) described above were performed. As a result, it is only necessary to search the number of base stations for a broadcast area that has changed due to movement, and the reception quality of each channel can be detected at high speed.

(4) When mobile terminal 1 can simultaneously receive broadcasts from two broadcast areas In mobile terrestrial digital broadcast base station table shown in FIG. 4, mobile terminal 1 has “Kanto 2 area” and “Kanto 3 area” When the broadcast can be received simultaneously from the two broadcast areas, that is, when “Kanto 2 area” and “Kanto 3 area” are specified as the receivable areas based on the current location information of the mobile terminal 1, the tuner The unit 2 is caused to scan the representative search channels of “Kanto 2 area” and / or “Kanto 3 area” in accordance with a preset policy.

  For example, when a policy of “search for representative search channels in the Kanto 2 area and Kanto 3 area” is set in advance, the control unit 7 sets a search target channel to “Kanto 2 area” according to the policy. And the representative search channel of the base station belonging to “Kanto 3 area”. In addition, for example, when a policy “search for a representative channel in a broadcasting area close to the distance” is set in advance, the control unit 7 performs GPS position information, communication base station information, and the like according to the policy. Thus, a near broadcast area is specified, and a search target channel is set as a representative search channel of a base station belonging to the broadcast area. The search target channel is set according to the policy of the user, terminal manufacturer, broadcaster, or the like. For a method for identifying a nearby broadcast area based on position information, base station information, etc., for example, from a broadcast area table corresponding to latitude / longitude, postal code, address, etc. based on current position information from position information, base station information, etc. You may specify.

  As described above, when the mobile terminal 1 can simultaneously receive broadcasts from the two broadcast areas, the control unit 7 sets the search target channel to at least one of the two broadcast areas according to a preset policy. It was set to the representative search channel of the base station belonging to one broadcast area. Also in this case, since the processes (1) and (2) described above are performed, the number of channel searches is further reduced as compared with the conventional method, and the reception quality of each channel in the broadcast area can be detected at high speed. Is possible.

  The present invention has been described with reference to the embodiment. However, the present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit and intention of the present invention. For example, in the above-described embodiment, the configuration example of the mobile terminal 1 such as a mobile phone is shown in FIG. 1, but it is not limited to the mobile phone. The mobile terminal 1 is preferably a battery-driven device. According to the battery-driven mobile terminal 1, the number of channel scans can be reduced and the reception quality can be detected at high speed, so that the power consumption of the mobile terminal 1 can be reduced.

It is a block diagram at the time of taking a mobile terminal as an example about the structure of the broadcast receiving apparatus by embodiment of this invention. It is a flowchart figure which shows a regional representation channel setting process. It is a flowchart figure which shows the received power search process according to channel. It is a figure which shows the structure of a terrestrial digital broadcasting base station table. It is a flowchart figure which shows the conventional channel setting process according to area. It is a flowchart figure which shows the conventional reception power search process according to channel.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Mobile terminal 2 Tuner part 3 Transmission / reception part 4 Storage part 5 Display part 6 Operation part 7 Control part

Claims (4)

In a broadcast receiving device that receives digital broadcast waves,
Storage means for storing channel information transmitted at maximum power for each broadcast area capable of receiving digital broadcast waves;
Detecting means for detecting reception quality for a channel transmitted at the maximum power;
Informing means for informing the reception quality of the channel transmitted with the maximum power detected by the detecting means as the reception quality of the broadcast area;
A broadcast receiving apparatus comprising: In a broadcast receiving device that receives digital broadcast waves,
Storage means for storing channel information transmitted with minimum power for each broadcast area capable of receiving digital broadcast waves;
Detecting means for detecting reception quality for a channel transmitted with the minimum power;
Informing means for informing the reception quality of the channel transmitted with the minimum power detected by the detection means as the reception quality of the broadcast area;
A broadcast receiving apparatus comprising: From multiple channel information in the broadcast area to channels that transmit with maximum power
Detecting the reception quality;
Informing the reception quality of the channel transmitted at the detected maximum power as the reception quality of the broadcast area;
A reception quality detection method characterized by comprising: Detecting reception quality for a channel transmitted with minimum power from a plurality of channel information in a broadcast area;
Informing the reception quality of the channel transmitted with the detected minimum power as the reception quality of the broadcast area;
A reception quality detection method characterized by comprising:

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