JP2004289508A - Electronic apparatus and acquiring method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide electronic equipment capable of speedily acquiring the sections of the PSI/SI. <P>SOLUTION: A receiver for the terrestrial digital television broadcast is equipped with two systems of tuners, OFDM decoders, and TS processors. A controller 13 performs control so that a 1st digital broadcast tuner 10a and a 2nd digital broadcast tuner 10b select mutually different frequencies of the radio waves sent from a desired broadcasting station and select the frequencies of the radio waves sent from a desired broadcasting station group. When the 1st digital broadcast tuner 10a is used to view a program etc., the 2nd digital broadcast tuner 10b is controlled to select the frequencies of the radio waves sent from the desired broadcasting station group. After the tuner selects the desired frequency, an OFDM decoder generates a transport stream (TS) and a TS processor acquires the sections of the PSI/SI from the generated TS. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to digital broadcasting, and more particularly to a receiver for digital terrestrial broadcasting.
[0002]
[Prior art]
In recent years, digital broadcasting such as BS (Broadcasting Satellite) digital broadcasting and broadband CS (Communication Satellite) digital broadcasting has been performed. In BS digital broadcasting and broadband CS digital broadcasting, since radio waves are transmitted from satellites, it is possible to receive the same broadcast content in Japan. Further, a frequency for selecting a broadcasting station is determined by previously determining a satellite used for broadcasting.
[0003]
Further, the program arrangement information of each broadcasting station is once collected at the center, and the channel information and the program information of these broadcasting stations are collected, and then the all-station SI (Service) transmitting the collected information to each broadcasting station again. Since a system called “Information” is introduced, it is possible to receive the collected information regardless of the radio wave transmitted from any broadcasting station. Therefore, if a radio wave transmitted from a certain broadcasting station is received for a certain period of time, program information necessary for displaying an EPG (Electronic Program Guide) can be received.
[0004]
As an invention for acquiring program information as described above, an invention related to a digital communication system capable of quickly acquiring long-term program information has been made (see Patent Document 1).
[0005]
Since the terrestrial digital broadcasting scheduled to start broadcasting in 2003 is a terrestrial broadcasting system, the broadcasting station in charge of broadcasting differs depending on the region. Therefore, when the receiver is installed, an operation called initial scan for receiving radio waves transmitted from all broadcast stations and examining the frequencies of these radio waves is required. Also, when a new broadcasting station is opened, as a means for enabling the reception of the radio waves transmitted from this broadcasting station, the radio waves transmitted from all the broadcasting stations are received and the frequencies of these radio waves are checked. In addition, an operation called re-scan for updating information on the frequency of radio waves that can be received is required.
[Patent Document 1]
JP 2000-13756 A (Page 6, FIG. 3)
[0006]
[Problems to be solved by the invention]
However, when performing the initial scan or rescan, or when newly acquiring program information that has not been stored, it is necessary to acquire a PSI / SI section by receiving radio waves transmitted from each broadcasting station. Yes, it took a very long time to do so.
[0007]
Therefore, the present invention has been made in view of the above problems, and has as its object to provide an electronic device capable of quickly acquiring a PSI / SI section.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, in the invention according to claim 1, first receiving means for receiving a first radio wave relating to terrestrial digital broadcasting, and first radio wave received from the first radio wave receiving means, A first acquisition unit for acquiring information related to the first network, and a second reception unit for receiving a second radio wave related to digital terrestrial broadcasting that is different from a frequency of the first radio wave received by the first reception unit. Means, and second acquisition means for acquiring information about the second network from the second radio wave received by the second reception means.
[0009]
With such a configuration, it is possible to quickly acquire a PSI section.
[0010]
Further, in the invention according to claim 2, the first receiving means for receiving the first radio wave related to the terrestrial digital broadcasting, and the first program information is obtained from the first radio wave received by the first receiving means. A first acquisition unit that performs reception, a second reception unit that receives a second radio wave that is different from the frequency of the first radio wave received by the first reception unit, and that receives a second radio wave related to terrestrial digital broadcasting, And second acquisition means for acquiring the second program information from the second radio wave received by the means.
[0011]
With such a configuration, it is possible to quickly obtain the section of the SI.
[0012]
Further, in the invention according to claim 6, the first receiving means for receiving a radio wave related to broadcasting, a reproducing means for reproducing data related to a program based on the radio wave received by the first receiving means, and a reproducing means. A second receiving unit that receives a radio wave related to digital terrestrial broadcasting while reproducing data related to the program; and an obtaining unit that obtains information about a network from the radio wave received by the second receiving unit. Features.
[0013]
With such a configuration, it is possible to acquire a PSI section while watching a program.
[0014]
Further, in the invention according to claim 7, the first receiving means for receiving a radio wave relating to broadcasting, a reproducing means for reproducing data relating to a program based on the radio wave received by the first receiving means, and a reproducing means. A second receiving unit that receives a radio wave related to digital terrestrial broadcasting while reproducing data related to a program; and an obtaining unit that obtains program information from the radio wave received by the second receiving unit. And
[0015]
With such a configuration, it is possible to acquire the section of the SI while watching the program.
[0016]
Further, in the invention according to claim 9, the first receiving means for receiving the carrier signal and the second receiving means for receiving the radio wave related to the terrestrial digital broadcast while being related to the carrier signal received by the first receiving means. It is characterized by comprising receiving means, and obtaining means for obtaining information about a network from radio waves received by the second receiving means.
[0017]
With such a configuration, it is possible to quickly acquire a PSI section without receiving a radio wave related to a frequency having no carrier signal.
[0018]
In the invention according to claim 10, the first receiving means for receiving the carrier signal and the second receiving means for receiving the radio wave related to the terrestrial digital broadcast while being related to the carrier signal received by the first receiving means. It is characterized by comprising receiving means and obtaining means for obtaining program information from radio waves received by the second receiving means.
[0019]
With such a configuration, it is possible to quickly obtain an SI section without receiving a radio wave related to a frequency having no carrier signal.
[0020]
In the invention according to claim 12, a first radio wave according to a first digital terrestrial broadcast is received, and information about a network is acquired from the received first radio wave according to the first digital terrestrial broadcast. A frequency different from the frequency of the received first radio wave related to the first digital terrestrial broadcasting, a second radio wave related to the second digital terrestrial broadcasting is received, and the second radio wave related to the received second terrestrial digital broadcasting is changed. The information about the network is acquired from the radio wave of the above.
[0021]
With such a configuration, it is possible to quickly acquire a PSI section.
[0022]
In the invention according to claim 13, a first radio wave according to the first terrestrial digital broadcast is received, and program information is acquired from the received first radio wave according to the first terrestrial digital broadcast. The frequency of the first terrestrial digital broadcast is different from the frequency of the first terrestrial digital broadcast and the second radio wave of the second terrestrial digital broadcast is received. It is characterized in that program information is obtained from radio waves.
[0023]
With such a configuration, it is possible to quickly obtain the section of the SI.
[0024]
In the invention according to claim 14, a radio wave related to broadcasting is received, data related to a program based on the received radio wave is reproduced, and a radio wave related to digital terrestrial broadcasting is received during reproduction of data related to the program. And acquiring information on the network from the received radio waves related to the digital terrestrial broadcasting.
[0025]
With such a configuration, it is possible to acquire a PSI section while watching a program.
[0026]
Further, in the invention according to claim 15, a radio wave related to broadcasting is received, data related to a program based on the received radio wave is reproduced, and a radio wave related to digital terrestrial broadcasting is received during reproduction of data related to the program. And acquiring program information from the received radio waves related to digital terrestrial broadcasting.
[0027]
With such a configuration, it is possible to acquire the section of the SI while watching the program.
[0028]
Further, in the invention according to claim 17, a carrier signal is received, a radio wave related to the received carrier signal is received, and a radio wave related to the terrestrial digital broadcast is received. It is characterized by acquiring.
[0029]
With such a configuration, it is possible to quickly acquire a PSI section without receiving a radio wave related to a frequency having no carrier signal.
[0030]
Further, in the invention according to claim 18, a carrier signal is received, a radio wave related to the received carrier signal, a radio wave related to the terrestrial digital broadcast is received, and the program information is obtained from the received radio wave related to the terrestrial digital broadcast. It is characterized by doing.
[0031]
With such a configuration, it is possible to quickly obtain an SI section without receiving a radio wave related to a frequency having no carrier signal.
[0032]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiments according to the present invention will be described below with reference to the drawings.
[0033]
FIG. 1 is a hardware block diagram of a first terrestrial digital television broadcast receiver.
[0034]
The control device 13 receives a channel selection command from an input device 14 such as an input button provided on the receiver main body or a remote controller. The antenna 2 captures radio waves transmitted as terrestrial waves from the transmitting device.
[0035]
The first digital broadcast tuner 10a and the second digital broadcast tuner 10b are tuners corresponding to terrestrial digital television broadcasting. These tuners select a frequency of a radio wave transmitted from a desired broadcast station based on a channel selection command received by the control device 13.
[0036]
The first OFDM (Orthogonal Frequency Division Multiplexing) decoder 11a and the second OFDM decoder 11b generate a transport stream by decoding radio waves related to the frequency selected by the tuner and captured by the antenna 2.
[0037]
The first TS (Transport Stream) processing device 12a and the second TS processing device 12b extract a section of PSI (Program Specific Information) / SI (Service Information) related to acquisition of program information and the like and packetized video. And an ES (Elementary Stream) composed of audio data.
[0038]
The PSI / SI section includes, for example, the following section. As one of the sections constituting the PSI, there is a Network Information Table (NIT) in which information about a broadcast station (network) related to a radio wave being received is described. By sequentially acquiring the NIT of each broadcasting station, an initial scan and a rescan are performed. As one of the sections constituting the SI, there is an EIT (Event Information Table) in which information related to the program such as a program name and a broadcast date and time is described. The program information of each broadcast station is obtained by sequentially acquiring the EIT of each broadcast station.
[0039]
The PSI / SI sections extracted by the first TS processing device 12a and the second TS processing device 12b are stored in the storage device 15. Further, the selected ES is transmitted to the MPEG decoder 16.
[0040]
The control device 13 controls an OSD (On Screen Display) device 18 to display an EPG (Electric Program Guide) or the like on the display device 19 based on the EIT which is a section of the SI stored in the storage device 15. The MPEG decoder 16 decodes the ES, and the video and audio signals generated as a result are reproduced by the display device 19 and the speaker 17.
[0041]
As shown in FIG. 1, a terrestrial digital television broadcast receiver includes a tuner, an OFDM decoder, and a TS processor (hereinafter, referred to as a tuner group) in two systems. The control device 13 includes two tuners, a first digital broadcast tuner 10a and a second digital broadcast tuner 10b, and a first TS processing device for receiving radio waves transmitted from two desired broadcast stations. The second TS processing device 12a and the second TS processing device 12b are controlled. These two tuner groups can be used for processing other than program viewing.
[0042]
FIG. 2 is a flowchart illustrating an embodiment using the first receiver described with reference to FIG.
[0043]
Hereinafter, the first embodiment will be described with reference to a flowchart. When the viewer is not watching the program (step S1 no), the first digital broadcast tuner 10a selects a frequency related to a radio wave transmitted from a desired broadcast station (step S2). The OFDM decoder 11a generates a transport stream by decoding radio waves related to the selected frequency. Further, the TS processing device 12a acquires NIT and EIT from the generated transport stream. An initial scan or rescan is performed based on the NIT, and program information is obtained based on the EIT.
[0044]
The control device 13 controls the second digital broadcast tuner 10b to select a frequency of a radio wave transmitted from a desired broadcast station other than the broadcast station related to the frequency selected by the first digital broadcast tuner 10a. (Step S3). The NIT and EIT are acquired in the same manner as described above, based on the radio wave of the frequency selected by the second digital broadcast tuner 10b, and the initial scan or rescan is performed based on the NIT, and based on the EIT. Acquires program information.
[0045]
When a frequency of a radio wave transmitted from a desired broadcast station group is selected using the first digital broadcast tuner 10a and the second digital broadcast tuner 10b, and processing such as rescan is completed (step S4) Yes), the control of selecting the frequency of the radio wave transmitted from the desired broadcast station group by the control device 13 ends.
[0046]
If all the frequencies of the radio waves transmitted from the desired broadcast station group have not been selected (step S4 no), the control device 13 determines that the first digital broadcast tuner 10a and the second digital broadcast tuner 10b have the desired frequency. Unselected frequencies are mutually selected among the frequencies of the radio waves transmitted from the broadcasting stations, and control is performed using two tuners to select the frequencies of the radio waves transmitted from all the broadcasting stations to be selected. .
[0047]
In this way, processing such as re-scanning is performed using a tuner group for two systems, so that processing such as re-scanning can be performed more quickly than when processing is performed using a tuner group for one system. It is possible to do.
[0048]
Note that the configuration of the first terrestrial digital television broadcasting receiver described with reference to FIG. 1 includes two systems of terrestrial digital broadcasting tuners, but three systems, four systems, and so on. By increasing the number of terrestrial digital broadcast tuners to be equipped, it is possible to perform processing such as rescan more quickly as compared with the effect of the embodiment described in the first embodiment.
[0049]
When the viewer is watching the program (step S1 yes), one tuner group among the two tuner groups is used for the viewer to watch the program. Thus, while the viewer is watching the program, the control unit 13 selects the frequency of the radio wave transmitted from the desired broadcast station by using the unused tuner group of one system. The NIT and the EIT are acquired in the same manner as the contents, and rescanning is performed based on the NIT, and control is performed so as to acquire program information based on the EIT (step S5).
[0050]
While the viewer is watching the program, the frequency of the radio wave transmitted from the desired broadcasting station group is selected using the unused tuner group, and processing such as rescanning is completed. In this case (step S6 yes), the control of the selection of the frequency of the radio wave transmitted from the desired broadcast station group by the control device 13 ends.
[0051]
If all the frequencies of the radio waves transmitted from the desired broadcast station group have not been selected (step S6 no), the control unit 13 determines that one tuner group that is not used for program viewing has all channels to be selected. Control is performed to select the frequency of the radio wave transmitted from the broadcasting station.
[0052]
As described above, by using a tuner group not used for program viewing, processing contents such as re-scanning are processed, so that the viewer can simultaneously watch re-scanning or acquire program information while viewing the program. Can be performed. When rescanning is performed using an unused tuner group, it is possible to always obtain the latest tuning information. Further, when the program information acquisition processing is performed by using the unused tuner group, it becomes possible to acquire the program information relating to the program that has not been viewed.
[0053]
FIG. 3 is a hardware block diagram of the second terrestrial digital television broadcast receiver.
[0054]
The control device 23 receives a channel selection command from an input device 24 such as an input button provided on the receiver main body or a remote controller. The antenna 2 captures radio waves transmitted as terrestrial waves from the transmitting device.
[0055]
The terrestrial digital broadcasting tuner 20a selects a frequency of a radio wave related to terrestrial digital television broadcasting. The terrestrial analog broadcast tuner 20b selects a frequency of a radio wave related to terrestrial analog television broadcast. These tuners select a frequency of a radio wave transmitted from a desired broadcast station based on a channel selection command received by the control device 23.
[0056]
The demodulation device 21b demodulates radio waves related to the frequency selected by the terrestrial analog broadcast tuner 20b and captured by the antenna 2.
[0057]
The functions of the respective configurations of the OFDM decoder 21a, the TS processing device 22, the storage device 25, the MPEG decoder 26, the speaker 27, the OSD device 28, and the display device 29 are the same as those described with reference to FIG.
[0058]
FIG. 4 is a flowchart illustrating a second embodiment using the second receiver described with reference to FIG.
[0059]
A second embodiment will be described. When the viewer is watching a program related to terrestrial analog television broadcasting (step S7 yes), the terrestrial digital broadcast tuner 20a is not used.
[0060]
Therefore, while the viewer is watching the program related to the analog television broadcast, the control device 23 selects the frequency of the radio wave transmitted from the desired broadcast station by the unused terrestrial digital broadcast tuner 20a. (Step S8). The OFDM decoder 21a generates a transport stream by decoding radio waves related to the selected frequency, and the TS processing device 22 further acquires NIT and EIT from the generated transport stream. An initial scan or rescan is performed based on the NIT, and program information is obtained based on the EIT.
[0061]
If the frequency of the radio wave transmitted from the desired broadcasting station group is selected using the terrestrial digital broadcasting tuner 20a and the processing such as rescan is completed (step S9 yes), the desired broadcasting station by the control device 23 is selected. The selection control of the frequency of the radio wave transmitted from the group ends.
[0062]
If all the frequencies of the radio waves transmitted from the desired broadcast station group have not been selected (step S9 no), the control unit 23 transmits the terrestrial digital broadcast tuner 20a from all the broadcast stations to be selected. The frequency of the radio wave is sequentially selected, and control is performed so that rescanning or program information acquisition is performed based on the radio wave related to each of the selected frequencies.
[0063]
By using a terrestrial digital broadcast tuner not used for program viewing as described above, processing contents such as rescanning processing are performed, so that viewers can view programs related to terrestrial analog television broadcasting and the like. At the same time, processing such as rescanning or acquisition of program information can be performed.
[0064]
When rescanning is performed using a tuner group related to an unused digital broadcast, it is possible to always obtain the latest channel selection information. Further, when the program information acquisition processing is performed using the unused tuner group, it becomes possible to acquire the program information relating to the program related to the terrestrial digital television broadcast that has not been watched.
[0065]
In the above-described embodiment, the configuration in which the terrestrial digital broadcast tuner 20a and the terrestrial analog broadcast tuner 20b are mounted has been described. A configuration in which a tuner for CS digital broadcasting and the like may be mounted.
[0066]
Further, the configuration of the second terrestrial digital television broadcasting receiver described with reference to FIG. 3 is equipped with one system of terrestrial digital broadcasting tuners, but in two systems, three systems, and so on. By increasing the number of terrestrial digital broadcast tuners to be equipped, it is possible to perform processing such as rescan more quickly as compared with the effect of the embodiment described in the second embodiment.
[0067]
FIG. 5 is a flowchart illustrating a third embodiment using the second receiver described with reference to FIG.
[0068]
A third embodiment will be described. The control device 23 performs control described below. The terrestrial analog broadcast tuner 20b sequentially receives the carrier signals (step S10). The value of the frequency related to the received carrier signal is stored in the storage device 25 (step S11). The terrestrial digital broadcast tuner 20a selects a frequency based on the frequency value stored in the storage device 25 (step S12). The OFDM recorder 21a and the TS processing device 22 perform re-scanning or program information acquisition based on the selected frequency and the radio wave related to the digital terrestrial broadcasting.
[0069]
When the terrestrial digital broadcast tuner 20a selects the frequency of the radio wave stored in the storage device 25 and transmitted from the desired broadcast station group and completes the processing such as the rescan (step S13 yes), the control is performed. The control by the device 13 ends.
[0070]
If all the frequencies of the radio waves transmitted from the desired broadcast station group have not been selected (step S13 no), the control unit 23 determines that the terrestrial digital broadcast tuner 20a is stored in the storage device 25 and the desired broadcast station The frequency of the radio wave transmitted from the group is selected, and based on the radio wave related to the selected frequency, control is performed so that the OFDM recorder 21a and the TS processing device 22 perform processing such as rescanning.
[0071]
By receiving the carrier signal in advance using the terrestrial analog broadcast tuner 20b, the terrestrial digital broadcast tuner 20a does not need to select the frequency related to the unreceived carrier signal, and is compared with the case where all the carrier signals are received. Thus, initial scan, rescan, or program information acquisition can be performed in a short time.
[0072]
The present invention is not limited to the above embodiment as long as it does not depart from the gist of the present invention. The present invention can be widely applied to an apparatus for digital broadcasting for acquiring a PSI / SI section.
[0073]
【The invention's effect】
According to the invention described in detail above, it is possible to quickly acquire a PSI / SI section.
[Brief description of the drawings]
FIG. 1 is a hardware block diagram of a first terrestrial digital television broadcast receiver.
FIG. 2 is a flowchart for explaining a first embodiment using the first receiver described with reference to FIG. 1;
FIG. 3 is a hardware block diagram of a second terrestrial digital television broadcast receiver.
FIG. 4 is a flowchart for explaining a second embodiment using the second receiver described with reference to FIG. 3;
FIG. 5 is a flowchart for explaining a third embodiment using the second receiver described with reference to FIG. 3;
[Explanation of symbols]
2 ... UHF antenna, 10a ... first tuner, 10b ... second tuner,
11a: first OFDM decoder, 11b: second OFDM decoder,
12a: a first TS processing device, 12b: a second TS processing device,
13, 23 ... control device, 14, 24 ... input device, 15, 25 ... storage device,
16, 26 ... MPEG decoder, 17, 27 ... Speaker,
18, 28 ... OSD device, 19, 29 ... display device,
20a: terrestrial digital broadcasting tuner,
20b terrestrial analog broadcast tuner,
21a: OFDM decoder, 21b: demodulator, 22: TS processor,

Claims (19)

First receiving means for receiving a first radio wave related to terrestrial digital broadcasting,
First acquisition means for acquiring information on a first network from the first radio wave received by the first reception means,
A second receiving unit that is different from the frequency of the first radio wave received by the first receiving unit and receives a second radio wave related to terrestrial digital broadcasting;
Second acquisition means for acquiring information about a second network from the second radio wave received by the second reception means;
An electronic device comprising: First receiving means for receiving a first radio wave related to terrestrial digital broadcasting,
First acquisition means for acquiring first program information from the first radio wave received by the first reception means,
A second receiving unit that is different from the frequency of the first radio wave received by the first receiving unit and receives a second radio wave related to terrestrial digital broadcasting;
Second acquisition means for acquiring second program information from the second radio wave received by the second reception means,
An electronic device comprising: First receiving means for receiving a first radio wave related to terrestrial digital broadcasting,
First acquisition means for acquiring information on a first network from the first radio wave received by the first reception means,
While receiving the first radio wave by the first receiving means, receiving a second radio wave related to digital terrestrial broadcasting while being different from the frequency of the first radio wave received by the first receiving means. Second receiving means;
A second acquisition unit that acquires information about a second network from the second radio wave received by the second reception unit while acquiring information about the first network by the first acquisition unit; ,
An electronic device comprising: First receiving means for receiving a first radio wave related to terrestrial digital broadcasting,
First acquisition means for acquiring first program information from the first radio wave received by the first reception means,
While receiving the first radio wave by the first receiving means, receiving a second radio wave related to digital terrestrial broadcasting while being different from the frequency of the first radio wave received by the first receiving means. Second receiving means;
A second acquisition unit for acquiring second program information from the second radio wave received by the second reception unit while the first acquisition unit acquires the first program information;
An electronic device comprising: Control means for controlling the second reception means to receive a second radio wave different from the first radio wave related to the digital terrestrial broadcast received by the first reception means,
The electronic device according to claim 1, further comprising: First receiving means for receiving radio waves related to broadcasting,
Reproducing means for reproducing data relating to a program based on the radio wave received by the first receiving means;
A second receiving unit that receives a radio wave related to digital terrestrial broadcasting while the data related to the program is being reproduced by the reproducing unit;
Acquiring means for acquiring information about a network from the radio waves received by the second receiving means;
An electronic device comprising: First receiving means for receiving radio waves related to broadcasting,
Reproducing means for reproducing data relating to a program based on the radio wave received by the first receiving means;
A second receiving unit that receives a radio wave related to digital terrestrial broadcasting while the data related to the program is being reproduced by the reproducing unit;
Acquiring means for acquiring program information from the radio wave received by the second receiving means;
An electronic device comprising: The electronic device according to claim 6, wherein the radio wave related to the broadcast is a radio wave related to a terrestrial analog broadcast. First receiving means for receiving a carrier signal;
Along with the carrier signal received by the first receiving means, a second receiving means for receiving radio waves related to terrestrial digital broadcasting,
Acquiring means for acquiring information about a network from the radio waves received by the second receiving means;
An electronic device comprising: First receiving means for receiving a carrier signal;
A second receiving unit that receives a radio wave according to the terrestrial digital broadcast, in addition to the carrier signal detected by the first receiving unit,
Acquiring means for acquiring program information from the radio wave received by the second receiving means;
An electronic device comprising: First receiving means for receiving the carrier signal,
The electronic device according to claim 9, wherein the electronic device is a receiving unit that receives a radio wave related to a terrestrial analog broadcast. Receiving a first radio wave related to a first terrestrial digital broadcast,
Acquiring information about a network from the received first radio wave relating to the first terrestrial digital broadcast,
Receiving the second radio wave according to the second terrestrial digital broadcast, which is different from the frequency of the first radio wave according to the received first terrestrial digital broadcast,
An acquisition method, wherein information about a network is acquired from the received second radio wave relating to the second terrestrial digital broadcast. Receiving a first radio wave related to a first terrestrial digital broadcast,
Acquiring program information from the received first radio wave relating to the first terrestrial digital broadcast,
Receiving the second radio wave according to the second terrestrial digital broadcast, which is different from the frequency of the first radio wave according to the received first terrestrial digital broadcast,
An acquisition method, wherein program information is acquired from the received second radio wave relating to the second terrestrial digital broadcast. Receives radio waves related to broadcasting,
Reproducing data related to the program based on the received radio wave,
While reproducing the data related to the program, receiving a radio wave related to digital terrestrial broadcasting,
An acquisition method, wherein information about a network is acquired from the received radio waves related to the digital terrestrial broadcasting. Receives radio waves related to broadcasting,
Reproducing data related to the program based on the received radio wave,
While reproducing the data related to the program, receiving a radio wave related to digital terrestrial broadcasting,
An acquisition method, wherein program information is acquired from the received radio waves related to the terrestrial digital broadcasting. 16. The acquisition method according to claim 14, wherein the broadcast radio wave is a terrestrial analog broadcast radio wave. Receiving the carrier signal,
Along with the received carrier signal, receives a radio wave related to digital terrestrial broadcasting,
An acquisition method, wherein information about a network is acquired from the received radio waves related to the digital terrestrial broadcasting. Receiving the carrier signal,
Along with the received carrier signal, receives a radio wave related to digital terrestrial broadcasting,
An acquisition method, wherein program information is acquired from the received radio waves related to the terrestrial digital broadcasting. 19. The electronic device according to claim 17, wherein the carrier signal is received when receiving a radio wave related to terrestrial analog broadcasting.

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