JP2004215219A - Communication center, receiving terminal, and broadcast data distributing system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a broadcast data distributing system capable of viewing and listening broadcast data during a telephone call. <P>SOLUTION: When distribution of the broadcast data is requested during the telephone call and the telephone call is terminated, a receiver 30 makes a request for distributing the broadcast data to a communication center 20 by a video distribution requesting unit 37 after searching viewing and listening data which is stored in a viewing and listening data storing unit 38 of a broadcast receiving unit 31 and is canceled to be viewed and listened during the telephone call (step SB8). When receiving the request for distributing the broadcast data from the receiver 30 (step SA5), the communication center 20 distributes the broadcast data (including broadcast wave video data and broadcast wave audio data) forming part of telephone call time data after being extracted from a broadcast data storing unit 22 based on the telephone call time data (including a starting time of the telephone call and a terminating time of the telephone call) of the receiver 30 stored in a telephone call time data storing unit 25 and the broadcast data of a requested channel (step SA6). <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a broadcast data distribution system that can receive a broadcast such as a digital terrestrial broadcast and distributes broadcast data to a receiving terminal that can communicate with a telephone line.
[0002]
Specifically, the present invention relates to a communication center that distributes broadcast data that is broadcast during a telephone call and cannot be viewed by a user or broadcast data that cannot be received by a user in an environment where reception conditions are poor. A receiving terminal that can receive broadcast data that is broadcast and cannot be viewed by the user, or that cannot be received by the user in an environment where reception conditions are poor, and a broadcast data distribution configured by the communication center and the receiving terminal. It is about the system.
[0003]
[Prior art]
Preparations are underway for digital terrestrial broadcasting, a new broadcasting method that replaces the current analog broadcasting.
Conventionally, in the technical standard ISDB-T (Integrated Services Digital Broadcasting-Terrestrial) of terrestrial digital broadcasting, orthogonal wave frequency division multiplexing (OFDM) using a large number of carriers (carriers) is adopted as a modulation method, and it is used for reflection by a building or the like. Ghost disturbance due to a plurality of propagation paths (multipaths) due to the ghost disturbance can be suppressed.
[0004]
In addition, ISDB-T is cited as one of the major features that stable reception on a mobile body is possible, and great expectations are placed on a broadcasting service for mobile terminals such as mobile phones. .
[0005]
Furthermore, the functions of mobile telephone devices have been improving at a remarkable speed, and it is expected that mobile phones capable of receiving the terrestrial digital broadcasting will be developed and put on the market in the near future.
[0006]
On the other hand, in the field of telephone lines as well, with the dramatic increase in communication capacity and the development of moving image compression technology, it has become possible to transmit and receive moving images via telephone lines. For example, a telephone, such as a videophone, is provided with a small camera so that voice and video data can be transmitted and received via a telephone line. Furthermore, in recent years, moving image data can be transmitted and received in the field of mobile phones.
[Patent Document 1]
JP 2002-77323 A
[0007]
[Problems to be solved by the invention]
However, with a mobile phone that can receive the above broadcast waves, if there is an incoming call while watching a TV broadcast, you must stop watching the TV when you answer the incoming call, or watch the TV. If you want to keep the call, you cannot answer the incoming call.
[0008]
This problem is not only a disadvantage of the user side, but the interruption of television viewing is also a major disadvantage of the broadcasting station that performs television broadcasting.
In particular, if television viewing is interrupted and a telephone call is made during a CM time zone, a broadcaster raising funds from an advertiser will not be able to view the CM, which is a serious problem. On the other hand, being unable to answer a telephone call means that the communication line is not used and the communication line usage time is reduced, which is a disadvantage of the communication company operating at the communication line usage fee. Therefore, it can be said that solving this problem is a very important issue for sound development of both broadcasting and communication services.
[0009]
To cope with this problem, Japanese Patent Application Laid-Open No. 2002-77323 discloses a communication control device that transmits a control signal to a receiver receiving a television broadcast and starts recording of the television broadcast when a mobile phone starts talking. Is disclosed.
[0010]
According to this communication control device, it is possible to provide a device which does not hinder the viewing of the program even if the communication terminal (mobile phone) performs communication during the broadcast of the program.
By applying this communication control device, a device that has a receiving and recording function in the mobile phone device itself and records a television broadcast when the mobile phone starts a call can be considered. However, digital broadcast reception includes demodulation and decoding processes. Due to the large processing load, it is difficult to record while talking on a mobile phone.
[0011]
Also, for example, by having a so-called home server system that allows remote control of a recording device at home from a mobile phone while away from home, it is possible to request recording to a device at home during a telephone call with a mobile phone. There are problems such as costly construction of the server system and complicated procedures for recording applications, and recording errors may occur with input operations using a small number of buttons such as mobile phones. .
[0012]
In addition to the above-described interruption of viewing by telephone call, there is also a case where broadcast reception becomes impossible due to a radio wave reception environment and viewing is interrupted. As described above, terrestrial digital broadcasting has a great feature that stable reception at a mobile body is possible. However, actual reception environments are various, and an environment where radio wave power (electric field strength) is weak or fading ( In an environment where the time variation of the radio wave power is large, it may be difficult to receive a predetermined radio wave and may not be able to watch television. In conventional analog broadcasting, it is possible to watch a video with noise even when the reception condition is poor, but in digital broadcasting, if the reception condition does not satisfy a predetermined condition, data cannot be demodulated or decoded. You cannot see the video at all. Since the interruption of viewing due to the deterioration of the radio wave reception environment occurs suddenly when the reception state becomes equal to or less than a predetermined condition, there is no way for the user to take any action such as making a reservation for recording in advance, and the solution is strongly desired.
[0013]
The present invention has been made to solve the above problems, and achieves the following objects.
1. To build a broadcast data distribution system that allows you to watch broadcast data during telephone calls.
2. To build a broadcast data distribution system that can easily receive broadcast data in a time zone where reception and viewing is not possible due to poor radio wave reception environment.
3. The broadcast data distribution system can easily and reliably distribute broadcast data during a call or in a poor radio wave reception environment without requiring a complicated operation by a user.
4. The broadcast data distribution system can provide a useful service for a broadcasting station by reliably distributing CM images.
5. The broadcast data distribution system can provide a useful service for a communication company by increasing the communication use time.
[0014]
[Means for Solving the Problems]
In order to achieve the above object, a communication center according to the present invention includes a terminal broadcast receiving unit that receives a broadcast wave transmitted from a broadcast station, and a communication processing unit that performs communication control such as telephone communication and data transmission / reception via a communication line. For a receiving terminal equipped with, a communication center that relays and controls communications such as telephone calls and data transmission / reception via a communication line, and a data storage unit that stores broadcast data transmitted from a broadcasting station or an equivalent thereof, A call time management unit that manages a telephone call time of the receiving terminal; and a call time data of the receiving terminal that is managed by the call time management unit based on a broadcast data distribution request from the receiving terminal via a communication line. And a data distribution unit that extracts broadcast data during a telephone call or an equivalent thereof from the data storage unit and distributes the data to the receiving terminal via a communication line. And wherein the door.
[0015]
Further, the receiving terminal according to the present invention is a receiving terminal having a terminal broadcast receiving unit that receives a broadcast wave transmitted from a broadcasting station, and a communication processing unit that performs communication control such as telephone communication and data transmission / reception via a communication line. A viewing data storage unit in which the viewing data of the broadcast data received by the terminal broadcast receiving unit is recorded before the telephone call starts, and during a telephone call, based on the viewing data in the viewing data storage unit. And a video distribution requesting unit for requesting the distribution of the broadcast data to a communication center via a communication line.
Further, a broadcast data distribution system according to the present invention is characterized by comprising the communication center and one or a plurality of the receiving terminals.
[0016]
According to these, a user can view broadcast data during a telephone call, thereby increasing a communication use time, thereby constructing a broadcast data distribution system capable of providing a useful service for a communication company. Becomes possible.
[0017]
Also, the viewing data and time range of the broadcast data requested by the user are managed by the viewing data storage unit of the receiving terminal and the call time management unit of the communication center. A request for distribution can be made without complicated operations.
[0018]
Further, the data distribution unit of the communication center determines whether or not the broadcast data during the telephone call to be distributed includes a CM video, and if not, distributes the CM video by adding the CM video. And
As a result, it is possible to reliably distribute the CM video, and it is possible to provide a useful service for the broadcasting station.
[0019]
Further, the video distribution requesting unit of the receiving terminal, upon receiving the detection of the end of the telephone call from the communication processing unit, automatically requests the communication center using the communication line that was in the telephone call. It is characterized by doing.
[0020]
This further simplifies the operation of the user, and furthermore, a request for distribution of broadcast data during a telephone call is immediately made after disconnecting the telephone line without disconnecting the telephone line. The load can be reduced and the communication line usage fee can be reduced.
[0021]
The communication center according to the present invention includes a terminal broadcast receiving unit that receives a broadcast wave transmitted from a broadcast station, and a receiving terminal that includes a communication processing unit that performs communication control such as a telephone call and data transmission / reception via a communication line. On the other hand, a communication center for relaying and controlling communications such as telephone calls and data transmission / reception by a communication line, a data storage unit for storing broadcast data transmitted from a broadcasting station or its equivalent, and a communication line from the receiving terminal. And a data distribution unit that multiplexes call voice data and broadcast data or its equivalent based on a distribution request accompanying the start of a telephone call, and distributes the data to the receiving terminal via a communication line. .
[0022]
Further, the receiving terminal according to the present invention is a receiving terminal having a terminal broadcast receiving unit that receives a broadcast wave transmitted from a broadcasting station, and a communication processing unit that performs communication control such as telephone communication and data transmission / reception via a communication line. A viewing data storage unit in which viewing data of broadcast data being received by the terminal broadcast receiving unit is recorded, and a start of a telephone call from the communication processing unit is detected. From a video distribution requesting unit that automatically requests distribution to a communication center via a communication line, and from a reception data in which call voice data and broadcast data transmitted from the communication center are multiplexed with broadcast data or the equivalent. Discriminating means for discriminating between audio data and broadcast data or its equivalent, and storing broadcast data or its equivalent during a telephone call, discriminated by the discriminating means Characterized in that it includes a that storage unit.
Further, a broadcast data distribution system according to the present invention is characterized by comprising the communication center and one or a plurality of the receiving terminals.
[0023]
According to these, a user can view broadcast data during a telephone call, thereby increasing a communication use time, thereby constructing a broadcast data distribution system capable of providing a useful service for a communication company. Becomes possible.
[0024]
In addition, the user can watch the broadcast during the telephone call immediately after the call is terminated, and the broadcast data distribution can be performed by transmitting the call voice data on the same line without using a new communication line. Since the communication is performed in parallel, the line can be effectively used in consideration of the amount of information per unit time of the voice data.
[0025]
Also, the viewing data such as the channel for the broadcast data requested by the user is managed by the viewing data storage unit of the receiving terminal, and the broadcast data during the call or its equivalent is sequentially multiplexed with the call voice data and distributed from the communication center. Therefore, the user can make a request for distribution without complicated operations such as specifying a channel and time.
[0026]
Further, the data distribution unit of the communication center determines whether or not the broadcast data or the equivalent thereof includes a CM video, and if not, distributes the CM video by adding the CM video. And
As a result, it is possible to reliably deliver the CM video, and it is possible to provide a useful service for the broadcasting station.
[0027]
The communication center according to the present invention includes a terminal broadcast receiving unit that receives a broadcast wave transmitted from a broadcast station, and a receiving terminal that includes a communication processing unit that performs communication control such as a telephone call and data transmission / reception via a communication line. On the other hand, a communication center that relays and controls communications such as telephone calls and data transmission / reception via a communication line, and a data storage unit for storing broadcast data broadcasted from a broadcasting station or its equivalent, and capable of receiving broadcast waves. A data distribution unit that distributes broadcast data corresponding to a portion where broadcast waves cannot be received or an equivalent thereof to the reception terminal via a communication line based on a broadcast data distribution request from the missing reception terminal. It is characterized by the following.
[0028]
Further, the receiving terminal according to the present invention is a receiving terminal having a terminal broadcast receiving unit that receives a broadcast wave transmitted from a broadcasting station, and a communication processing unit that performs communication control such as telephone communication and data transmission / reception via a communication line. A receiving state detecting section for detecting a broadcast wave receiving state by the terminal broadcast receiving section, and based on an output of the receiving state detecting section, when the broadcast wave cannot be received, the broadcast wave is received. A reception failure notification unit that notifies a communication center of a distribution request of broadcast data corresponding to the portion that cannot be transmitted to a communication center via a communication line.
Further, a broadcast data distribution system according to the present invention is characterized by comprising the communication center and one or a plurality of the receiving terminals.
[0029]
As a result, the user can easily receive and receive broadcast data corresponding to the part where the broadcast wave cannot be received even when the radio wave reception environment is poor and the broadcast wave can no longer be received from the communication center. Can be.
[0030]
Further, the data distribution unit of the communication center determines whether or not the broadcast data to be distributed includes a CM video, and if not, distributes the CM video by adding the CM video.
As a result, it is possible to reliably deliver the CM video, and it is possible to provide a useful service for the broadcasting station.
[0031]
Also, the reception state detection unit of the reception terminal detects reception power of a reception broadcast wave, and determines that reception is impossible if the detected reception power does not satisfy a predetermined condition.
[0032]
Accordingly, it is possible to determine the unreceivable state in an environment where the electric field strength is weak, surrounded by obstacles that block or absorb the broadcast wave, and the received radio wave strength can be detected before the OFDM demodulation processing. Therefore, when the radio field intensity is equal to or lower than the predetermined power, a low power consumption operation such as not performing the OFDM demodulation processing can be performed.
[0033]
Further, the reception state detection unit of the receiving terminal detects a C / N ratio (Carrier to Noise: carrier power to noise power ratio) of the received broadcast wave, and when the detected C / N ratio does not satisfy a predetermined condition. Is determined to be unreceivable.
[0034]
In this case, even in an environment where the reception power is a predetermined power, it is possible to detect a state in which reception is impossible due to many interfering waves such as multipath, ghost, and fading. Further, the C / N ratio is detected by an OFDM demodulation process. Since it is sometimes calculated using a pilot signal or the like, it is possible to accurately determine the unreceivable state as compared with the state determination based on the received power described above.
[0035]
The receiving state detecting unit of the receiving terminal detects a code decoding error rate (BER: Bit Error Rate) of a received broadcast wave, and determines that reception is impossible if the detected code decoding error rate does not satisfy a predetermined condition. It is characterized by doing.
[0036]
In this case, in order to decode and reproduce the TS (Transport Stream) data that is the received broadcast data, the code decoding error rate (BER) after the RS (Read Solomon) code decoding process, which is the final stage of the OFDM demodulation process, is performed. ) Is 1 × 10 ^-11 The above is required, and thus, it is possible to more clearly determine the unreceivable state as compared with the above state determination based on the reception power and the C / N ratio.
[0037]
Further, the reception failure notification unit of the receiving terminal may generate a broadcast data distribution request corresponding to a portion where broadcast waves can no longer be received, based on time data when the reception state detection unit determines that reception is not possible. It is characterized by.
Thereby, the receiving terminal, by including the time data when the receiving state detection unit determines that the reception is not possible in the distribution request, the receiving terminal, the radio wave reception environment is poor, the time zone during which the reception viewing is not possible, This can be easily specified by the data distribution unit of the communication center, and is effective when there is a time lag between the timing at which reception is disabled and the transmission timing of the distribution request.
[0038]
Further, the reception failure notification unit requests the communication center to distribute broadcast data corresponding to a portion where broadcast waves cannot be received when the reception state detection unit determines that reception is not possible. When the detection unit determines that reception is possible, the distribution center notifies the communication center of the end of distribution of broadcast data corresponding to the portion where the broadcast wave cannot be received.
[0039]
Thereby, when the receiving terminal cannot receive the broadcast wave, the receiving terminal can immediately acquire the broadcast data via the communication center, and the user does not miss the broadcast data that the user wants to watch.
[0040]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.
[First embodiment]
FIG. 1 is a system configuration diagram of a broadcast data distribution system according to the present embodiment.
For the sake of simplicity, the broadcast data distribution system 1 according to the present embodiment transmits broadcast waves, that is, a broadcast station 10 that performs television broadcasting, and a telephone line such as a telephone call or data communication, as shown in FIG. , A receiver 30 capable of receiving broadcast waves and communicating via a telephone line, and a telephone 40 different from the receiver 30.
[0041]
Broadcast waves from the broadcast station 10 are received by both the communication center 20 and the receiver 30. Further, a telephone call between the receiver 30 and another telephone 40 is performed via the communication center 20. Note that, in the broadcast data distribution system 1 of the present embodiment, a wireless communication network such as a mobile phone is used for telephone calls, but a similar configuration can be made using a wired telephone line.
[0042]
Next, the configuration of the communication center 20 will be described.
FIG. 2 is a configuration diagram of a communication center in the broadcast data distribution system according to the present embodiment.
[0043]
The communication center 20 includes a broadcast receiving unit 21, a broadcast data storage unit 22, a communication control unit 23, a call time management unit 24, and a data distribution unit 26.
The broadcast receiving unit 21 receives a broadcast wave (broadcast wave) via the antenna 21a and generates broadcast data. The broadcast receiving unit 21 receives a broadcast wave by a tuner (not shown), and if the received signal is, for example, a digital terrestrial broadcast signal, performs OFDM demodulation and decoding to restore broadcast video data and broadcast audio data. Broadcast data composed of broadcast video data and broadcast audio data restored by the broadcast receiving unit 21 is stored in the broadcast data storage unit 22. The communication center 20 can receive all broadcast data being broadcast and store the broadcast data in the broadcast data storage unit 22. Although not shown, a plurality of broadcast reception units corresponding to each broadcast wave are provided. 21.
[0044]
Further, the communication control unit 23 wirelessly controls relay between telephones such as telephone calls and data transmission / reception via the antenna 23a. The call time data of the telephone call controlled by the communication control unit 23 is recorded and managed in the call time data storage unit 25 by the call time management unit 24.
In response to a request from the receiver 30 as a receiving terminal, the data distribution unit 26 distributes broadcast data during a telephone call or its equivalent to the receiver 30 via a telephone line.
[0045]
Next, the configuration of the receiver 30 as a receiving terminal will be described with reference to FIG.
FIG. 3 is a configuration diagram of a receiver (that is, a receiving terminal) in the broadcast data distribution system according to the present embodiment.
[0046]
The receiver 30 includes a broadcast receiving unit 31, a display output unit 32, a video display unit 33, a speaker 34, a communication processing unit 35, a memory 36, and a video distribution request unit 37.
The broadcast receiving unit 31 receives a broadcast wave via the antenna 31a and generates broadcast data. The broadcast receiving unit 31 restores the broadcast wave to broadcast data composed of broadcast video data and broadcast audio data in the same manner as the broadcast receiving unit 21 shown in FIG.
The channel and program name of the broadcast data received by the broadcast receiving unit 31 are recorded in the viewing data storage unit 38 provided in the broadcast receiving unit 31 as needed.
[0047]
Broadcast video data and broadcast audio data output from the broadcast receiving unit 31 are sent to a display output unit 32, and the broadcast video data is displayed on a display screen of a video display unit 33 such as a liquid crystal display (LCD), for example. The broadcast audio data is output as audio from the speaker 34.
[0048]
The communication processing unit 35 performs communication processing via a telephone line (in this case, a wireless communication network), such as a telephone call and data communication, via the antenna 35a.
The received call voice output from the communication processing unit 35 during a telephone call is output from the speaker 34 via the display output unit 32. The received text data and multimedia data output from the communication processing unit 35 during data communication are temporarily stored in the memory 36, and displayed and output to the video display unit 33 via the display output unit 32 as necessary.
[0049]
Further, at the time of a telephone call, a call voice input from a microphone (not shown) provided in the receiver 30 is wirelessly output from the communication processing unit 35 via the antenna 35a. Communication data from the receiver 30 such as a broadcast data distribution request from the video distribution request unit 37 described below is also wirelessly output from the communication processing unit 35 via the antenna 35a.
The video distribution request unit 37 requests the communication center 20 to distribute broadcast data in the communication processing via the telephone line by the communication processing unit 35.
[0050]
Next, the flow of processing by the broadcast data distribution system 1 according to the present embodiment configured as described above will be described with reference to flowcharts for each example.
<First embodiment>
FIG. 4 is a flowchart showing the flow of processing as a first example by the broadcast data distribution system of the present embodiment.
In the figure, the flowchart on the left shows the flow of processing of the communication center 20, and the flowchart on the right shows the flow of processing of the receiver 30.
In the description, it is assumed that the receiver 30 is initially in a broadcast viewing state in which broadcast waves are being received and viewed.
[0051]
In the receiver 30, the broadcast wave is received by the broadcast receiving unit 31 and restored to broadcast data. The restored broadcast data is sent to the display output unit 32, displayed on the video display unit 33, and output from the speaker 34 as sound. , And the video is viewed (broadcast) (step SB1). At this time, the viewing data including the data of the channel related to the broadcast wave being received and viewed is recorded in the viewing data storage unit 38.
[0052]
Further, when there is a telephone call request (calling) from another telephone set 40 to the receiver 30, the communication control unit 23 of the communication center 20 performs relay control, and an incoming call is transmitted to the receiver 30 (step SA1). ).
[0053]
When the communication processing unit 35 of the receiver 30 receives the notification of the incoming call (step SB2), when it is confirmed that the user of the receiver 30 does not answer the telephone (incoming call) by the response confirmation processing in step SB3. In the receiver 30, the process returns to step SB1 described above, and the video reception by the broadcast receiving unit 31 is continued.
[0054]
Further, when it is confirmed that the user answers the telephone by the response confirmation processing in step SB3, the receiver 30 performs the call processing by the communication processing unit 35 instead of the video reception by the broadcast receiving unit 31, A telephone call is made (step SB4).
[0055]
When a telephone call is performed by the communication processing unit 35 on the receiver 30 side, the communication center 20 performs a telephone relay process shown in step SA2 to process call relay control with the other telephone 40 of the caller and The call time management unit 24 records the call start time in the call time data storage unit 25.
[0056]
Thereafter, when the telephone call between the receiver 30 and the other telephone 40 ends (step SB5), the communication center 20 stores the call end time and the call time data in the line disconnection process in step SA3. The result is recorded in the unit 25, and the process is terminated.
The call relay processing (steps SA1 to SA3) of the communication center 20 so far may be considered to be the same as the conventional call relay processing by the communication center.
[0057]
After the end of the call, the receiver 30 checks in step SB6 whether or not there is a distribution request of the broadcast data during the call. If the user does not wish to distribute the broadcast data during the call, the process returns to step SB1, and the broadcast receiving unit 31 enables the reception and viewing of broadcast radio waves.
[0058]
On the other hand, if the user wishes to distribute broadcast data during a call, the receiver 30 activates the communication processing unit 35 by the video distribution requesting unit 37 to call the communication center 20, and disconnects the line in step SA3. After opening the communication line with the communication center 20 disconnected by the processing, that is, the telephone line (step SB7), the viewing data stopped in the current telephone call recorded in the viewing data storage unit 38 of the broadcast receiving unit 31 , A broadcast data distribution request including the data of the channel whose distribution is requested is made to the communication center 20 (step SB8).
[0059]
When the call from the receiver 30 arrives, the communication center 20 opens a communication line with the receiver 30 (step SA4), and receives a broadcast data distribution request from the receiver 30 (step SA5). Based on the call time data (call start time and call end time) of the receiver 30 recorded in the call time data storage unit 25 from the broadcast data of the existing channel, the broadcast data (broadcast Video data and broadcast audio data) are extracted from the broadcast data storage unit 22, and the extracted broadcast data or its equivalent is delivered to the receiver 30 using the telephone line that is left open in steps SA4 and SB7. (Step SA6).
[0060]
The communication processing unit 35 of the receiver 30 stores the broadcast data distributed from the communication center 20 using the telephone line or its equivalent in the memory 36 (Step SB9). When the distribution of the broadcast data is completed, both the receiver 30 and the communication center 20 close the telephone line and end the processing (step SA7, step SB10).
This allows the user to view the broadcast data during a call stored in the memory 36 of the receiver 30 or its equivalent at a desired time.
[0061]
According to the present embodiment, after the telephone call is completed, a request for distribution of broadcast data during the telephone call is made to the communication center 20 to construct the broadcast data distribution system 1 which allows the user to view the broadcast data during the telephone call at a desired time. Becomes possible.
[0062]
As a result, there is an effect that the user can view the broadcast data during the telephone call, and the communication center 20 can construct the broadcast data distribution system 1 in which the communication use time is not reduced by the TV viewing. .
[0063]
Furthermore, since the call time data of the requested broadcast data is managed by the call time management unit 24 of the communication center 20, a video distribution request (broadcast data distribution request) is performed without complicated operations such as time designation. A broadcast data distribution system 1 capable of performing the above can be constructed.
[0064]
<Second embodiment>
FIG. 5 is a flowchart showing the flow of processing of the main broadcast data distribution system according to the second embodiment.
In the figure, the flowchart on the left shows the flow of processing of the communication center 20, and the flowchart on the right shows the flow of processing of the receiver 30.
[0065]
The difference from the flow of the process of the flowchart according to the first embodiment shown in FIG. 4 is that the video distribution requesting unit 37 of the receiver 30 terminates the telephone call in step SB5, This is the point that, even if detected, the broadcast data distribution request is automatically made via the communication processing unit 35 continuously without disconnecting the telephone line with the communication center 20 (step SB8).
[0066]
Although illustration is omitted, by detecting a call start operation in the step of answering the telephone call of the receiver 30 (step SB3) or an operation of stopping the reception and viewing of the broadcast radio wave in the broadcast receiving unit 31, the communication center 20 after the end of the telephone call. It is also possible to make an automatic distribution request after confirming whether or not to make an automatic distribution request (step SB8) in a state in which the telephone line is continuously connected.
[0067]
According to the present embodiment, the user's distribution operation is simplified in making a call to the communication center 20 as compared with the system shown in the flowchart of FIG. 4, and immediately after the telephone call is terminated without disconnecting the telephone line. Since the broadcast data or its equivalent is distributed, the communication fee with the communication center 20 is reduced, so that the processing load of the entire system can be reduced and the communication line usage fee can be reduced.
[0068]
<Third embodiment>
Processing details of the data distribution unit 26 of the communication center 20 in the broadcast data distribution system 1 of the present embodiment will be described with reference to FIG.
FIG. 6 is a diagram schematically illustrating the relationship between call time data and broadcast data, with the horizontal axis representing time.
[0069]
In FIGS. 6A and 6B, the section ranges TA and TB indicated by arrows indicate the call time zones t12 and t34 from the start of the call to the end of the call at the call times t1 to t2 and t3 to t4. As shown in FIGS. 6A and 6B, the broadcast data stored in the broadcast data storage unit 22 or the equivalent thereof includes the time zone during which the program is broadcast and the CM for each channel. It is managed and recorded so that the broadcast time zone can be determined.
[0070]
When the communication center 20 receives, for example, a distribution request for the channel “1” from the receiver 30, the data distribution unit 26 transmits the broadcast data of the talk time zone t12 of the specified channel “1”. Dt12 is extracted, and it is determined whether or not the broadcast data Dt12 includes a CM video.
[0071]
As shown in FIG. 6A, when the CM is included in the broadcast data Dt12 of the call time zone t12, the data distribution unit 26 of the communication center 20 performs the steps in the flowchart of FIG. In the process of SA6, the broadcast data Dt12 extracted as it is is distributed to the receiver 30 via the telephone line as the distribution broadcast data DTA.
[0072]
As shown in FIG. 6B, when the CM time is not included in the call time slot t34, that is, when the broadcast data Dt34 of the call time slot t34 of the call time t3 to t4 that does not include the CM video broadcast time slot. When there is a distribution request, the communication center 20 generates distribution broadcast data DTB in which the broadcast data Dt34 is added to the immediately preceding CM video data Dc in the processing of step SA6 in the flowchart of FIG. 4 or 5 described above. This is distributed to the receiver 30 via the telephone line via the communication control unit 23.
[0073]
According to the configuration of the data distribution unit 26 of the communication center 20 according to the present embodiment, since the CM video can be reliably distributed, the broadcast data that provides a useful service to the broadcasting station that has obtained the fund from the advertiser through the CM broadcast A distribution system can be constructed.
[0074]
[Second embodiment]
Next, a second embodiment of the broadcast data distribution system according to the present invention will be described with reference to the drawings.
FIG. 7 is a configuration diagram of the communication center according to the present embodiment.
[0075]
The difference between the configuration of the communication center 20 shown in FIG. 2 in the first embodiment and the configuration of the communication center 120 of the present embodiment is that the broadcast data storage unit 22 and the call time management unit 24 are not provided. The point that the broadcast data restored and generated by the receiving unit 21 is input to the data distribution unit 26, and the broadcast data input from the broadcast receiving unit 21 or its equivalent in the data distribution unit 26 is input from the communication control unit 23. And a multiplex processing unit 27 that multiplexes the communication voice data to be output to the communication control unit 23.
[0076]
In FIG. 7, the broadcast data storage unit 22 and the call time management unit 24 are not shown in the drawing because they are not necessary for the description of the present embodiment. There is no.
[0077]
Further, the configuration of the receiver 130 in the present embodiment is not different from the configuration of the receiver 30 shown in FIG. 3 in the first embodiment and its schematic configuration is omitted, and the illustration is omitted.
[0078]
The difference between the configuration of the receiver 30 of the first embodiment and the configuration of the receiver 130 of the present embodiment is that the video delivery requesting unit 37 of the It operates in response to an output from the communication processing unit 35 indicating that a telephone call is to be made, based on the detection of a broadcast radio wave reception / viewing stop operation in 31. Then, a broadcast data distribution request from the video distribution request unit 37 is performed together with an incoming call response (relay request) indicating that a telephone call is to be made from the communication processing unit 35 to the communication center 120. Further, the communication processing unit 35 is further provided with a function of discriminating call voice data from broadcast data transmitted from the multiplexed communication center 120 or its equivalent.
[0079]
The flow of processing of the broadcast data distribution system 101 according to the present embodiment will be described using a flowchart.
FIG. 8 is a flowchart showing a processing flow of the broadcast data distribution system according to the present embodiment.
8, as in the case of the flowchart shown in FIG. 4, the left side shows the processing flow of the communication center 120, and the right side shows the processing flow of the receiver 130.
In FIG. 8, the flow of processing up to step SB3 is the same as in the case of the flowchart of FIG. 4, and a description thereof will be omitted.
[0080]
Thereafter, in the process of step SB3, when it is confirmed that the user has answered the telephone call by detecting the call start operation or the operation of stopping the reception and viewing of the broadcast wave in the broadcast receiving unit 31, the receiver 130 The distribution request unit 37 refers to the viewing data recorded in the viewing data storage unit 38 and stopped by the current telephone call, and transmits a broadcast data distribution request including the data of the channel requested for distribution from the receiver 130. The process is performed on the center 120 (step SB8).
[0081]
In step SA5, the communication center 120 that has received the distribution request multiplexes the broadcast data of the requested channel or its equivalent and the call voice data from the other telephone set 40 by the multiplex processing unit 27. The data is transmitted to the receiver 130 (step SA6).
[0082]
In the receiver 130 that has received the multiplexed data of the broadcast data or its equivalent and the call voice data from the communication center 120, the communication processing unit 35 separates the broadcast data or its equivalent and the call voice data and separates them. The call voice data is output from the speaker 34 via the display output unit 32, and the separated broadcast data or its equivalent is stored in the memory 36 (step SB9).
[0083]
When the receiver 130 confirms that the telephone call has ended thereafter by detecting the call end operation, the communication processing unit 35 disconnects the telephone line and ends the operation (step SB10).
Thus, after the end of the telephone call, the user can view the broadcast data stored in the memory 36 of the receiver 130 during the telephone call at a desired time.
[0084]
According to broadcast data distribution system 101 of the present embodiment, it is possible to construct a broadcast data distribution system that allows the user to view broadcast data during a telephone call at a desired time.
Further, the user can view the broadcast data during the telephone call immediately after the telephone call ends, and can construct the broadcast data distribution system 101 that does not need to use a new communication line for video distribution.
[0085]
In this embodiment, as in the case of the third example of the first embodiment, the communication center 120 also determines whether or not the broadcast data that has been distributed contains a CM video. If not included, it is also possible to add and distribute a CM video.
[0086]
[Third embodiment]
Next, a third embodiment of the broadcast data distribution system according to the present invention will be described with reference to the drawings.
FIG. 9 is a configuration diagram of the communication center of the present embodiment.
[0087]
The difference between the configuration of the communication center 20 shown in FIG. 2 in the first embodiment and the configuration of the communication center 220 of the present embodiment is that the communication time management unit 24 is not provided.
In the configuration of communication center 220 of the present embodiment, the same components as communication center 20 shown in FIG.
[0088]
In the communication center 220 according to the present embodiment, the call time management unit 24 is simply omitted because it is not particularly required for the distribution of the broadcast data. It is also possible to adopt a configuration that has a function of viewing and listening to broadcast data during a telephone call.
[0089]
Next, the configuration of receiver 230 in the present embodiment will be described using FIG.
FIG. 10 is a configuration diagram of the receiver according to the present embodiment.
[0090]
In the description of the configuration of the receiver 230 of the present embodiment, the same components as those of the receiver 30 shown in FIG. 3 in the first embodiment are denoted by the same reference numerals, and the description of the overlapping portions will be omitted. Only the part where the configuration has been changed will be described.
[0091]
The difference between the configuration of the receiver 30 shown in FIG. 3 in the first embodiment and the configuration of the receiver 230 of the present embodiment is that a broadcast reception unit 37 ′ 31 is that, in addition to the viewing data storage unit 38, a reception state detection unit 39 that detects the reception state of the broadcast radio wave received via the antenna 31a is provided.
[0092]
In the receiver 230 of the present embodiment, the video distribution requesting unit 37 is not shown in the drawing because it is not particularly required for the distribution request of the broadcast data. It is also possible to adopt a configuration according to the embodiment that also has a viewing function for broadcast data during a telephone call.
[0093]
Next, the detailed configuration of the broadcast receiving unit 31 in the thus configured receiver 230 according to the present embodiment will be described with reference to the drawings.
FIG. 11 is a configuration diagram of a broadcast receiving unit in the receiver according to the present embodiment.
[0094]
The broadcast receiving unit 31 according to the present embodiment includes a tuner unit 3101, a demodulation unit 3102, a reception power detection unit 3103, a C / N ratio (Carrier to Noise: carrier power versus noise) in addition to a viewing data storage unit 38 (not shown). A power ratio) data detection unit 3104, a BER (Bit Error Rate) data detection unit 3105, a TS (Transport Stream) processing unit 3106, and a reception state determination unit 3107 are provided.
[0095]
Further, demodulation section 3102 in broadcast receiving section 31 of the present embodiment includes quadrature demodulation section 3111, phase correction section 3112, FFT (Fast Fourier Transform: fast Fourier transform) section 3113, frame synchronization section 3114, detection section 3115, frequency A time deinterleave 3116, a bit deinterleave 3117, a Viterbi decoder 3118, a byte deinterleave 3119, an energy spreader 3120, and an RS (Read Solomon: Reed-Solomon) code decoder 3121.
[0096]
In the thus configured broadcast receiving section 31 of the present embodiment, the tuner section 3101 multiplies a broadcast radio wave (RF: Radio Frequency) received by the antenna 31a with an arbitrary local oscillation signal (channel frequency). The signal is mixed and frequency converted to an intermediate frequency signal (IF signal: Intermediate Frequency signal). Then, the IF signal is limited to a predetermined band, amplified, and supplied to the demodulation unit 3102.
[0097]
Further, the broadcast radio wave received by tuner section 3101 is supplied to reception power detection section 3103, and reception power detection section 3103 measures reception power data of the broadcast radio wave received by tuner section 3101.
[0098]
The IF signal input to demodulation section 3102 is subjected to quadrature detection by multiplying by a quadrature demodulation section 3111 with a local oscillation signal having a phase of 0 or 90 degrees, and is converted into a baseband symbol. After that, the baseband symbol is corrected in phase by the transmission environment by the phase correction unit 3112, and the symbol data of each subcarrier is demodulated by the FFT unit 3113 by Fourier transform for converting time axis data to frequency axis data. .
[0099]
The demodulated symbol data of each subcarrier is subjected to detection of a reception synchronization symbol (for example, a null symbol) by a frame synchronization unit 3114, and synchronization processing of a transmission frame including a plurality of symbol data is performed. The detection unit 3115 performs delayed detection of a control signal, such as a pilot signal, which is periodically added to the received data, on the plurality of symbol data subjected to the synchronization processing. At this time, the C / N ratio data detection unit 3104 calculates the C / N ratio of the received radio wave from the variance value and supplies the C / N ratio to the reception state determination unit 3107.
[0100]
After that, an error generated during transmission is corrected by a frequency / time deinterleave unit 3116, a bit deinterleave unit 3117, a Viterbi decoder 3118, a byte deinterleave unit 3119, an energy spread unit 3120, and an RS code decoder 3121, and the TS data Is restored.
[0101]
Then, the restored TS data is subjected to demux processing and decoding processing by the TS processing section 3106, and is output to the display output section 32 shown in FIG. 10 as broadcast data.
[0102]
The BER data detection unit 3105 calculates BER data, which is an error rate of data, based on the decoding result of the Viterbi decoding unit 3118 or the RS code decoding unit 3121 during the error correction processing, and supplies the BER data to the reception state determination unit 3107. .
[0103]
In FIG. 11, BER data detection section 3105 calculates BER data based on the decoding result by RS code decoding section 3121 and outputs the calculated BER data to reception state determination section 3107. However, BER data detection section 3107 outputs BER data based on the decoding result by Viterbi decoding section 3118. Can be calculated and output to the reception state determination unit 3107.
[0104]
Reception power data from reception power detection section 3103, C / N ratio data from C / N ratio data detection section 3104, and BER data from BER data detection section 3105 are determined by reception state determination section 3107 under predetermined conditions. Is done.
[0105]
If the received power data, the C / N ratio data, and the BER data do not satisfy the predetermined conditions, the reception state determination unit 3107 regards the reception as unreceivable and records the time data at the time of this determination as unreception time data. At the same time, it notifies the non-reception notifying section 37 'that the broadcast radio wave is in a non-reception state including the non-reception time data.
[0106]
The reception failure notification unit 37 'receives the detection of the reception failure state by the reception state determination unit 3107, and transmits the reception failure time data and the viewing data (such as channel data) stored in the viewing data storage unit 38 (not shown). Based on this, a distribution request for the broadcast data in the time zone where reception was not possible is generated, and a distribution request is made to the communication center 220 via the communication processing unit 35.
[0107]
Here, the following values can be set as an example of the determination condition of each data by the reception state determination unit 3107.
For example, the required reception power (electric field strength) of digital terrestrial broadcasting is required to be approximately 60 dBμV / m. The C / N ratio varies depending on the carrier modulation method and the like, and is approximately 4.9 dB in the case of a QPSK (Quadrature PSK) coding rate of 1/2, and approximately in the case of a 16 QAM (Quadrature Amplitude Modulation) coding rate of 1/2. 11.5 dB is required. As the BER, in order to transmit the video signal without error, the output BER value of the Viterbi decoding unit 3118 is 2 × 10 ^-4 , The output BER value of the RS code decoding unit 3121 is 1 × 10 ^-11 Is needed.
[0108]
In broadcast receiving section 31 configured in this manner, first received state detecting section 39-1 is formed by received power detecting section 3103 and received state determining section 3107, and C / N ratio data detecting section 3104 and received state determining section 3104 are performed. A second reception state detection unit 39-2 is configured by the unit 3107, and a third reception state detection unit 39-3 is configured by the BER data detection unit 3105 and the reception state determination unit 3107.
[0109]
In this embodiment, three data, that is, the received power data, the C / N ratio data, and the BER data are supplied to the reception state determination unit 3107, and the reception state is detected for each of the three data. It is possible to change the reception state detection method, such as making a determination in step 2 or determining from two data.
[0110]
In demodulation section 3102 of the present embodiment, when reception state determination section 3107 determines that reception is impossible based on reception power data from reception power detection section 3103, demodulation section 3102 itself does not execute the demodulation processing. Alternatively, if reception state determination section 3107 determines that reception is impossible based on C / N ratio data from C / N ratio data detection section 3104, demodulation section 3102 does not execute the processing after frequency / time deinterleave section 3116. It is also possible to adopt operation control such as. By employing these operation controls, the power consumption of the broadcast receiving unit 31 in the receiver 230 can be reduced.
[0111]
Next, the flow of processing by the broadcast data distribution system 201 according to the present embodiment configured as described above will be described with reference to flowcharts for each example.
<First embodiment>
FIG. 12 is a flowchart showing the flow of processing as the first example by the broadcast data distribution system of the present embodiment.
[0112]
In the figure, the flowchart on the left shows the processing flow of the communication center 220, and the flowchart on the right shows the processing flow of the receiver 230.
In the description, it is assumed that the receiver 230 is initially in a broadcast viewing state in which the broadcast wave shown in step SB1 is being received and viewed.
In this case, the viewing data including the data of the channel related to the broadcast wave being received and viewed is recorded in the viewing data storage unit 38.
[0113]
In addition, the reception state detection unit 39 determines whether or not the received power data, C / N ratio data, and BER data at that time satisfy predetermined conditions (step SB2).
If any of the received power data, C / N ratio data, and BER data no longer satisfies the condition, that is, if the broadcast radio wave cannot be received, the reception state detection unit 39 makes the determination. The time is recorded as the start time of the unreceivable time data, and the start time data is added to output the fact that the reception is not possible to the receivable notification unit 37 '(step SB3).
[0114]
Thereafter, the reception state detection unit 39 keeps the reception power data until all of the reception power data, the C / N ratio data, and the BER data satisfy the conditions, that is, until the reception of broadcast radio waves is possible. , C / N ratio data, and BER data continue to be determined (step SB4).
[0115]
From the restoration confirmation processing shown in step SB4, the reception state detecting unit 39 restores the reception power data, the C / N ratio data, and the BER data to a state in which all of the conditions are satisfied and the broadcast radio wave can be received. Is confirmed, the reception state detection unit 39 records the determined time as the end time of the reception impossible time data, and adds the end time data to notify that the reception impossible state has been resolved by the reception disable notification. Output to the unit 37 '(step SB5).
[0116]
Then, the reception failure notification section 37 ', which has been notified from the reception state detection section 39 that the reception is in the reception impossible state and that the reception impossible state has been resolved, corresponds to the portion where the broadcast radio wave cannot be received. The user confirms whether or not there is a distribution request for the broadcast data (step SB6).
[0117]
As a result of this confirmation, if the user does not want to distribute the broadcast data corresponding to the portion where the reception of the broadcast wave is no longer possible, the reception failure notification section 37 ′ outputs the distribution request via the communication processing section 35. Instead, the receiver 230 returns to step SB1, and the broadcast receiving unit 31 can automatically receive and view the broadcast wave.
[0118]
On the other hand, if the user desires to distribute the broadcast data corresponding to the portion where the broadcast radio wave cannot be received, the reception failure notification unit 37 ′ of the receiver 230 activates the communication processing unit 35 to notify the communication center 220. After calling and opening the communication line with the communication center 220, that is, the telephone line (step SB7), the reception including the viewing data recorded in the viewing data storage unit 38 and the start time and end time of the reception disabled state. Based on the unreceivable time data from the state detection unit 39, a broadcast data distribution request including data on the channel and time zone for which distribution is requested is sent to the communication center 220 (step SB8).
[0119]
When the call from the receiver 230 arrives, the communication center 220 opens a communication line with the receiver 230 (step SA1), and receives a broadcast data distribution request from the receiver 230 (step SA2). The broadcast data of the time slot where the broadcast radio wave could not be received from the channel where there was was extracted from the broadcast data storage unit 22 and transmitted to the receiver 230 using the telephone line that was left open in steps SA1 and SB7. The extracted broadcast data or its equivalent is distributed (step SA3).
[0120]
The communication processing unit 35 of the receiver 230 stores the broadcast data distributed from the communication center 220 using the telephone line or its equivalent in the memory 36 (step SB9). When the distribution of the broadcast data is completed, both the receiver 230 and the communication center 220 close the telephone line and end the processing (step SA4, step SB10).
This allows the user to view the broadcast data stored in the memory 36 of the receiver 230 in the time zone during which the broadcast radio wave could not be received or its equivalent at a desired time.
[0121]
In the process of extracting and distributing the broadcast data or the equivalent thereof from the broadcast data storage unit 22 in the time zone during which the broadcast radio wave could not be received in steps SA2 and SA3, the communication center 220 described in FIG. It is also possible to perform the same processing as the processing.
[0122]
That is, the data distribution unit 26 of the communication center 220 determines whether or not the CM data is included in the broadcast data corresponding to the unreceivable time zone of the specified channel. If there is, broadcast data can be delivered as it is, and if CM video is not included, it is also possible to generate and deliver broadcast data to which CM video data immediately before is added.
[0123]
As described above, according to the present embodiment, the receiver 230 cannot receive and view the broadcast even when the radio wave reception environment is deteriorated due to the weak radio wave power (electric field strength) or the effect of fading. The time zone is determined by the reception state detection unit 39 based on the reception power data, the C / N ratio data, and the BER data, and the reception failure notification unit 37 ′ can request the communication center 220 to distribute the broadcast data that could not be received and viewed. Therefore, broadcast data in the time zone can be easily received from the communication center 220 via the communication line.
[0124]
<Second embodiment>
FIG. 13 is a flowchart showing the flow of processing as a second example by the broadcast data distribution system of the present embodiment.
In the figure, the flowchart on the left shows the processing flow of the communication center 220, and the flowchart on the right shows the processing flow of the receiver 230.
[0125]
In the present embodiment, the reception state detection unit 39 of the receiver 230 determines whether the reception power data, the C / N ratio data, and the BER data satisfy predetermined conditions in step SB2, and sets the reception impossible state. As soon as it is determined that the distribution request has been received, the reception failure notifying unit 37 'activates the communication processing unit 35 to automatically transmit a distribution request to the communication center 220, which is different from the first embodiment shown in FIG. It is different from the case.
[0126]
Therefore, in the present embodiment, when the receiver 230 detects that the broadcast state cannot be received (step SB2) while the broadcast receiver is watching the broadcast (step SB1), the receiver 230 notifies the receiver 230 of the reception failure. The unit 37 'immediately activates the communication processing unit 35 to make a call to the communication center 220, opens a communication line with the communication center 220, that is, a telephone line (step SB7), and starts viewing and listening recorded in the viewing data storage unit 38. Based on the data, a request for distribution of broadcast data including channel data for which distribution is requested is made to the communication center 220 (step SB8).
[0127]
Then, the receiver 230 receives the broadcast data distributed from the communication center 220 based on the distribution request, stores the broadcast data in the memory 36 (step SB9-1), and receives the received power data, It is determined whether the C / N ratio data and the BER data both satisfy the condition and the broadcast radio wave reception has been restored (step SB9-2), and the distribution broadcast shown in step SB9-1 is performed. This is performed in parallel with the data reception process.
[0128]
After that, when the reception state detecting unit 39 confirms that the broadcast signal can be received by the reception state detection unit 39, the reception failure notification unit 37 ′ immediately sends a request to the communication center 220 to end the distribution of the broadcast data to the communication center 220. (Step SB10). Note that, as an example of the distribution termination request by the reception failure notification unit 37 ', a termination request is transmitted to the communication center 220 via the communication processing unit 35 and the telephone line opened in step SB7 is disconnected. The telephone line opened in step SB7 may be disconnected on the receiver 230 side.
[0129]
As described above, according to the present embodiment, since the broadcast data is immediately distributed after the video reception becomes impossible, the user can view the broadcast data via the communication line almost in real time, and the reception state detection unit 39 eliminates the need to manage the time zone during which the broadcast cannot be received and viewed, so that the processing is also simplified.
[0130]
Although the broadcast data distribution system of the present invention is as described above, the embodiment is not limited to the above-described embodiment.
For example, in the above embodiment, the receiver 30 (or 130, 230), the telephone 40, and the broadcasting station 10, which are communicatively connected to the communication center 20 (or 120, 220), are only one each for simplicity of explanation. Although not shown, there may of course be more than one.
[0131]
Further, in the above-described embodiment, a description has been given assuming that a telephone line using a wireless communication network is used as a communication line between the communication center 20 (or 120, 220) and the receiver 30 (or 130, 230). A communication line that can perform another telephone call such as a wireless or wired LAN may be used.
[0132]
Further, in the above embodiment, the communication center 20 (or 120, 220) is configured to separately receive broadcast waves from the broadcasting station 10, but the communication center 20 (or 120, 220) itself is, for example, like a CATV station. May also serve as the broadcasting station 10. In such a case, the communication center 20 (or 120, 220) does not include the broadcast receiving unit 21, and the broadcast data storage unit 22 stores the distribution data of the distribution program (corresponding to the equivalent of the broadcast data). It should just be.
[0133]
Further, particularly with respect to the broadcast data distribution system of the first embodiment, the communication time management unit 24 is provided not in the communication center 20 but in the receiver 30 so that the communication center 20 that relays the telephone call It is also possible to adopt a configuration in which broadcast data during a telephone call is received from another communication center 20.
[0134]
【The invention's effect】
As described above, according to the broadcast data distribution system of the present invention, the following effects can be obtained.
According to the broadcast data distribution system of the present invention, it is possible to construct a broadcast data distribution system in which a user can view broadcast data during a telephone call and a communication company has an effect of increasing communication use time.
[0135]
Further, according to the broadcast data distribution system of the present invention, the user can make a distribution request without complicated operations such as time designation.
Further, according to the broadcast data distribution system of the present invention, the operation of the user is further simplified, and the broadcast data or its equivalent is immediately distributed without disconnecting the telephone line after the call is terminated. The number of communications is reduced, the processing load of the entire system is reduced, and the communication line usage fee can be reduced.
[0136]
Further, according to the broadcast data distribution system of the present invention, it is possible to reliably distribute a CM video, and it is possible to provide a service useful for a broadcast station.
Further, according to the broadcast data distribution system of the present invention, the user can view the broadcast during the telephone call immediately after the call is terminated, and there is no need to use a new telephone line (communication line) for video distribution. In addition, the line can be effectively used, and the line usage fee can be reduced.
[0137]
Further, according to the broadcast data distribution system and the receiving terminal of the present invention, the state in which the radio wave reception environment is poor and the broadcast reception and viewing cannot be performed is determined by the received power, C / N, and BER, and the broadcast data in the time zone can be easily determined. It becomes possible to enjoy.
[Brief description of the drawings]
FIG. 1 is a system configuration diagram of a broadcast data distribution system according to a first embodiment of the present invention.
FIG. 2 is a configuration diagram of a communication center in the broadcast data distribution system according to the first embodiment.
FIG. 3 is a configuration diagram of a receiver in the broadcast data distribution system according to the first embodiment.
FIG. 4 is a flowchart illustrating a flow of processing as a first example by the broadcast data distribution system according to the first embodiment;
FIG. 5 is a flowchart illustrating a flow of processing as a second example by the broadcast data distribution system according to the first embodiment;
FIG. 6 is a diagram schematically showing a relationship between call time data and broadcast data in the first embodiment, with the horizontal axis representing time.
FIG. 7 is a configuration diagram of a communication center in a broadcast data distribution system according to a second embodiment of the present invention.
FIG. 8 is a flowchart showing the flow of processing of the main broadcast data distribution system according to the second embodiment.
FIG. 9 is a configuration diagram of a communication center in a broadcast data distribution system according to a third embodiment of the present invention.
FIG. 10 is a configuration diagram of a receiver in a broadcast data distribution system according to a third embodiment.
FIG. 11 is a configuration diagram of a broadcast receiving unit of a receiver in a broadcast data distribution system according to a third embodiment.
FIG. 12 is a flowchart illustrating a flow of processing as a first example by the broadcast data distribution system according to the third embodiment;
FIG. 13 is a flowchart illustrating a flow of a process as a second example by the broadcast data distribution system according to the third embodiment;
[Explanation of symbols]
1,101,201 Broadcast data distribution system
10 broadcasting stations
20,120,220 Communication Center
21 Broadcast receiver
21a antenna
22 Broadcast data storage
23 Communication control unit
23a antenna
24 Call time management
25 Call time data storage
26 Data distribution unit
30, 130, 230 receiver
31 Broadcast receiver
32 Display output unit
33 Image display
34 speakers
35 Communication processing unit
36 memories
37 Video Distribution Request Department
37 'Reception impossible notification section
38 Viewing data storage
39 Reception state detector
40 telephone

Claims (18)

For a receiving terminal equipped with a terminal broadcast receiving unit that receives a broadcast wave transmitted from a broadcasting station and a communication processing unit that performs communication control such as a telephone call and data transmission / reception via a communication line, a telephone call and data via a communication line A communication center that relays communication such as transmission and reception,
A data storage unit for storing broadcast data transmitted from a broadcast station or its equivalent,
A call time management unit that manages a telephone call time of the receiving terminal;
Based on a broadcast data distribution request from the receiving terminal via a communication line, based on the call time data of the receiving terminal managed by the call time management unit, broadcast data during a telephone call or an equivalent thereof is stored in the data. And a data distribution unit that extracts the data from the communication unit and distributes the data to the receiving terminal via a communication line. The data distribution unit determines whether or not the broadcast data during a telephone call to be distributed or an equivalent thereof includes a CM video, and if not, distributes the CM video by adding the CM video. The communication center according to claim 1, wherein A terminal broadcast receiving unit that receives a broadcast wave transmitted from a broadcast station, and a receiving terminal including a communication processing unit that performs communication control such as telephone communication and data transmission and reception via a communication line,
A viewing data storage unit in which viewing data of broadcast data received by the terminal broadcast receiving unit before the telephone call starts is recorded,
A receiving terminal, comprising: a video distribution requesting unit for requesting a communication center to distribute broadcast data during a telephone call based on the viewing data in the viewing data storage unit. The video distribution request unit,
4. The receiving terminal according to claim 3, wherein upon receiving the detection of the end of the telephone call from the communication processing unit, a request is automatically made to the communication center using the communication line on which the telephone call was being made. . A broadcast data distribution system comprising the communication center according to claim 1 and one or a plurality of receiving terminals according to claim 3. For a receiving terminal equipped with a terminal broadcast receiving unit that receives a broadcast wave transmitted from a broadcasting station and a communication processing unit that performs communication control such as a telephone call and data transmission / reception via a communication line, a telephone call and data via a communication line A communication center that relays communication such as transmission and reception,
A data storage unit for storing broadcast data transmitted from a broadcast station or its equivalent,
A data distribution unit that multiplexes call voice data and broadcast data or an equivalent thereof based on a distribution request accompanying the start of a telephone call by a communication line from the reception terminal, and distributes the data to the reception terminal via the communication line. Communication center characterized by being. 7. The data distribution unit according to claim 6, wherein the broadcast data to be distributed or its equivalent determines whether or not a CM video is included, and if not, distributes the CM video by adding the CM video. Communication center described. A terminal broadcast receiving unit that receives a broadcast wave transmitted from a broadcast station, and a receiving terminal including a communication processing unit that performs communication control such as telephone communication and data transmission and reception via a communication line,
A viewing data storage unit in which viewing data of broadcast data received by the terminal broadcast receiving unit is recorded;
Upon receiving the start detection of the telephone call from the communication processing unit, a video distribution request unit that automatically requests the distribution of broadcast data during the telephone call to the communication center via a communication line,
Discriminating means for discriminating between call voice data and broadcast data or its equivalent from received data in which call voice data and broadcast data or its equivalent transmitted from a communication center via a communication line are multiplexed,
A receiving terminal comprising: a storage unit for storing broadcast data during a telephone call or an equivalent thereof, which is discriminated by the discriminating unit. A broadcast data distribution system, comprising: the communication center according to claim 6; and one or more receiving terminals according to claim 8. For a receiving terminal equipped with a terminal broadcast receiving unit that receives a broadcast wave transmitted from a broadcasting station and a communication processing unit that performs communication control such as a telephone call and data transmission / reception via a communication line, a telephone call and data via a communication line A communication center that relays communication such as transmission and reception,
A data storage unit for storing broadcast data broadcast from a broadcasting station or an equivalent thereof,
Based on a broadcast data distribution request from a receiving terminal that has become unable to receive broadcast waves, data distribution that distributes broadcast data corresponding to a portion where broadcast waves cannot be received or its equivalent to a receiving terminal via a communication line. And a communication center. The data distribution unit determines whether or not the broadcast data corresponding to the portion where the broadcast wave can no longer be received or the equivalent thereof includes the CM video, and if not, adds the CM video. The communication center according to claim 10, wherein distribution is performed. A terminal broadcast receiving unit that receives a broadcast wave transmitted from a broadcast station, and a receiving terminal including a communication processing unit that performs communication control such as telephone communication and data transmission and reception via a communication line,
A reception state detection unit that detects a broadcast wave reception state by the terminal broadcast reception unit,
If the broadcast wave cannot be received based on the output of the reception state detection unit, a communication line notifies the communication center of a broadcast data distribution request corresponding to the portion where the broadcast wave cannot be received. A receiving terminal comprising: a refusal notification unit. 13. The receiving terminal according to claim 12, wherein the reception state detection unit detects reception power of a reception broadcast wave, and determines that reception is impossible if the detected reception power does not satisfy a predetermined condition. 13. The reception according to claim 12, wherein the reception state detection unit detects a C / N ratio of a received broadcast wave, and determines that reception is impossible if the detected C / N ratio does not satisfy a predetermined condition. Terminal. 13. The reception apparatus according to claim 12, wherein the reception state detection unit detects a code decoding error rate of a received broadcast wave, and determines that reception is impossible if the detected code decoding error rate does not satisfy a predetermined condition. Terminal. The reception failure notification unit generates a distribution request of broadcast data corresponding to a portion where the reception of the broadcast wave has become impossible based on time data when the reception state detection unit determines that reception is impossible. Item 16. The receiving terminal according to any one of Items 13 to 15. The reception failure notification unit requests the communication center to deliver broadcast data corresponding to a portion where broadcast waves cannot be received when the reception state detection unit determines that reception is not possible, and the reception state detection unit The receiving terminal according to any one of claims 13 to 15, wherein when it is determined that reception is possible, the communication center is notified of the end of distribution of broadcast data corresponding to a portion where broadcast waves cannot be received. . 13. A broadcast data distribution system, comprising: the communication center according to claim 10; and one or more receiving terminals according to claim 12.

Images