JP4504601B2 - Data receiving terminal and data receiving program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention can integrate and use broadcast data provided via data broadcasting and communication data provided via a communication line.DeThe present invention relates to a data receiving terminal and a data receiving program.
[0002]
[Prior art]
Currently, in data broadcasting in digital broadcasting, a data carousel transmission system is adopted in which the broadcasting station side repeatedly transmits the same data at a constant cycle, and the receiving side can acquire necessary data even during the broadcasting.
[0003]
This data carousel transmission system is a transmission system defined by ISO / IEC 13816-6, and its conceptual diagram is shown in FIG. In FIG. 6, assuming that the same data is repeatedly transmitted in a certain cycle, for example, when the power of the broadcast receiver is turned on during the first data transmission, the broadcast receiver The data is received at the timing of the second transmission. As a result, the broadcast receiver can acquire necessary data at an arbitrary time during the broadcast time.
[0004]
On the other hand, communication services represented by the Internet receive communication data via a public line, so that viewers can view the data on a personal computer or a communication terminal such as a mobile phone or PHS (Personal Handy-phone System). You can browse the data at. For this reason, it is possible for the communication terminal to view the contents of the data broadcast by publishing the data having the same contents as the data broadcast on the server.
[0005]
[Problems to be solved by the invention]
However, when the receiving side fails to receive the broadcast data, in the data carousel transmission system, it is necessary to wait for the next data transmission period and perform reception again. For this reason, in a situation where the radio wave is weak due to bad weather, for example, in the case of a portable broadcast receiver, in a situation where the radio wave between buildings is weak, it is necessary to repeat the reception for several cycles until the data can be completely received In other words, there is a problem that the waiting time until the viewer browses the data increases or cannot be received.
[0006]
In addition, when browsing the contents of data broadcasting published on a server in a communication terminal, if access concentrates on the server, the communication line becomes busy or the server becomes busy, and the viewer receives data. There is a problem that it is not possible to browse or the waiting time until browsing is increased.
[0007]
  The present invention has been made in view of the above problems, and when receiving a data broadcast in digital broadcasting, it has the functions of a broadcast receiver and a communication terminal, and receives data from a broadcast wave and a server. Efficiently receive data broadcasts by complementing each other with data reception via communication linesDeIt is an object to provide a data receiving terminal and a data receiving program.
[0014]
[Means for Solving the Problems]
  The present invention is provided to achieve the above-mentioned object,Claim1The data receiving terminal described in 1 is a transmission error when receiving broadcast data.Degradation of broadcast data reception status due toReceiving state detecting means for detecting,From the serverAt least one of communication line busy and server busy when receiving communication dataDegradation of communication data reception status due toCommunication state detecting means for detecting the at least one of the broadcast channel and the broadcast program number of the broadcast data;Server addressBased on the detection results of the reception status detection means and the communication status detection means, switching between reception of broadcast data and communication data is performed.controlMeans.
[0015]
  According to such a configuration, the data receiving terminal detects a transmission error when receiving broadcast data by the reception state detecting means, and the communication line busy and server busy when receiving the communication data by the communication state detecting means. Detecting at least one, and storing means for at least one of a broadcast channel and a broadcast program number of the broadcast data;Server addressA program correspondence table showing the correspondence between andcontrolMeans based on the detection results of the reception state detection means and the communication state detection means,Refer to the program correspondence table,Switching between reception of broadcast data and communication data is performed.
  At this time, when the control means is notified of the address of the server corresponding to the broadcast data superimposed on the broadcast data, the control means corresponds to the broadcast channel or broadcast program number of the currently received broadcast data in the program correspondence table. When the relationship is updated and the broadcast channel or broadcast program number of the broadcast data corresponding to the communication data is notified by being superimposed on the communication data, the address of the server currently receiving the communication data is displayed in the program correspondence table. Update correspondence.
[0016]
  Claims2The data receiving terminal described in claim1In the data receiving terminal according to claim 1,controlThe means is based on a comparison result between at least one observation value of the ratio of packets in which transmission errors occur within a predetermined time interval and the number of consecutive packets in which transmission errors have occurred, and a preset reference value Thus, the reception data is switched from broadcast data to communication data.
[0017]
  According to such a configuration, the data receiving terminalcontrolBased on a comparison result between at least one observation value of the ratio of packets in which transmission errors occur within a predetermined time interval and the number of consecutive packets in which transmission errors have occurred, and a preset reference value When the transmission error exceeds the reference value, the reception is switched from broadcast data to communication data.
[0018]
  Claims3The data receiving terminal described in claim1Or claims2In the data receiving terminal according to claim 1,controlMeans for communicating from communication data based on a comparison result between at least one consecutive number of the communication line busy and the server busy, or the number of observations within a predetermined time interval and a preset reference number The reception is switched to broadcast data.
[0019]
  According to such a configuration, the data receiving terminalcontrolThe communication line busy is based on a comparison result between at least one consecutive number of the communication line busy and the server busy, or the number of observations within a predetermined time interval and a preset reference number. Alternatively, when the number of server busys exceeds the reference value, the reception is switched from communication data to broadcast data.
[0028]
  Claims4The data receiving terminal described in claim1To claims3In the data receiving terminal according to any one of the above, broadcast dataIf the switch delay time is set when the server address is notified in, the terminal set as the priority terminal in advance switches the reception regardless of the switch delay time and is not set as the priority terminal. The terminalThe reception is switched after the switching delay time has elapsed.
[0029]
  According to such a configuration, the data receiving terminal, when reception is switched from broadcast data to communication data,Only devices that are not set as preferred devicesConnection to the communication line is started after the specified switching delay time has elapsed.
[0030]
  Claims5The data receiving program described in 1 is a data receiving terminal.Computer, Transmission error when receiving broadcast dataDegradation of broadcast data reception status due toReceiving state detecting means for detectingFrom the serverAt least one of communication line busy and server busy when receiving communication dataDegradation of communication data reception status due toBased on the detection results of the communication state detection means, the reception state detection means and the communication state detection means for detectingRefer to the program correspondence table,Switch reception of broadcast data and communication datacontrolIt was set as the structure made to function as a means.
[0031]
  According to such a configuration, the data reception program detects a transmission error when receiving broadcast data by the reception state detection means, and the communication line busy and server busy when the communication data is received by the communication state detection means. Detect at least one,controlMeans based on the detection results of the reception state detection means and the communication state detection means,Refer to the program correspondence table stored in the storage means,Switching between reception of broadcast data and communication data is performed.
[0032]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
(Configuration of data broadcasting system)
FIG. 1 is a conceptual diagram showing the configuration of the entire data broadcasting system. As shown in FIG. 1, the broadcast transmission means 21 of the broadcast station 20 transmits the data in the broadcast data 22 in which the broadcast data for data broadcasting is stored, using the broadcast wave 1 in accordance with the time zone of the data broadcast. The broadcast receiving means 11 of the receiving terminal 10 receives the transmitted broadcast data.
[0033]
The data receiving terminal 10 can also acquire data in the communication server 24 of the broadcasting station 20 by the communication receiving means 12. At this time, the data receiving terminal 10 transmits a request for data from the communication receiving unit 12 to the broadcasting station 20 via the communication line 2, and the broadcasting station 20 transmits the requested data in the communication server 24 to the communication transmitting unit 23. To the data receiving terminal 10 via the communication line 2.
[0034]
The broadcast data 22 and the communication server 24 have a correspondence relationship, and by holding similar data, the receiving side can view the same content in both broadcast data and communication data. The broadcast data 22 and the communication server 24 can be constructed as a data device sharing the same data.
[0035]
Here, the data receiving terminal 10 switches whether the data is received from the broadcast receiving means 11 or the communication receiving means 12 by the control means 13, and when the received data is a video, the video display means 15 If the displayed and received data is audio, it is output by the audio output means 16.
[0036]
Further, the broadcast transmission means 21 of the broadcast station 20 matches the broadcast data of the broadcast data 22 with the communication data holding address (hereinafter abbreviated as “address”) of the communication server 24 having the corresponding relationship, for example, WWW (World Wide Web) The server address (URL) is notified. As a result, the data receiving terminal 10 can switch the reception from the reception of the broadcast data by the broadcast receiving means 11 to the reception of the communication data by the communication receiving means 12 while maintaining the data correspondence.
[0037]
As a method of notifying this address (URL), for example, it is broadcast within a network (satellite television, satellite audio, terrestrial television, terrestrial audio, etc.) included in digital broadcast program arrangement information (SI: Service Information). A link descriptor is specified in an NIT (Network Information Table) indicating the list information of organized channels and an EIT (Event Information Table) indicating the guidance of each program, and “R-” is set as private data (private_data_byte) therein. An address is designated after “URL =”. At this time, when specifying for each service channel, it is specified with NIT, and when specifying for each program (event), it is specified with EIT.
[0038]
As another example of the method of notifying this address, a hyperlink descriptor is included in the EIT, and a new type indicating WEB content is defined as the link destination type. For example, 0x08 of reserved_future_use is set to “WEB content”, and the description of the selector area is specified in the same way as the description of the stored content specified in 6.2.29 of ARIB STD-B10, and the address (URL) may be specified. it can.
[0039]
Moreover, the broadcast transmission means 21 of the broadcast station 20 adds the switching delay time when the reception side switches the reception from the broadcast data to the communication data, and transmits the transmission data from the broadcast data to the communication data after the switching delay time has elapsed. Reception can be switched. With this switching delay time, for example, when emergency disaster-related information is provided as communication data in the event of an emergency disaster, it is possible to control so that viewers do not make calls to the communication line 2 all at once. . In this case, if only the preset data receiving terminal 10 can preferentially receive emergency disaster related information when an emergency disaster occurs, the setting is made so that the switching delay time is ignored. When an emergency disaster occurs, the priority terminal uses the communication line 2 first, and the general terminal uses the communication line 2 after the switching delay time elapses, thereby preventing the communication line 2 from being congested.
[0040]
As a method for notifying the data receiving terminal 10 of this switching delay time, for example, “<-Wait_to_T {URL} {specified seconds}->” is described in the content description using a comment tag. Thus, access to this URL can be limited for a specified number of seconds.
[0041]
In addition, the communication transmitting means 23 of the broadcast station 20 notifies the broadcast channel or broadcast program number of the broadcast data 22 of the broadcast data 22 having the corresponding relationship in accordance with the communication data of the communication server 24. As a result, the data receiving terminal 10 can switch reception from the communication receiving unit 12 to the broadcast receiving unit 11 while maintaining the data correspondence. The broadcast program number is a number for identifying a broadcast program.
[0042]
As a method for notifying the broadcast channel or the broadcast program number, for example, a comment tag is used in the description of the content of the Web page specified by the URL, “<-Link_to_B {original_network_id}. {Transport_stream_id}.
{service_id}. {event_id}-> ”. Here, original_network_id represents the type of digital broadcasting network (satellite television, satellite audio, terrestrial television, terrestrial audio, etc.), transport_stream_id identifies TS (Transport Stream), service_id represents a broadcast channel, and event_id represents a program. ing. Each id is a 16-bit identification number, and {network_id} can be omitted when the network is fixed.
[0043]
Another method for notifying the broadcast channel or broadcast program number is that arib: // <original_network_id>. <Transport_stream_id is included in the communication data in accordance with ARIB STD-B24 Vol. 2, 9.2.5 or 9.2.6. >. <service_id>
Alternatively, notification can be made by describing arib: // <original_network_id>. <Transport_stream_id>. <Service_id>. <Event_id>.
[0044]
This method of notifying the broadcast channel or broadcast program number is, for example, by notifying the unique broadcast channel or broadcast program number when an emergency disaster occurs, so that even when the data receiving terminal 10 is receiving communication data, You can automatically switch to a disaster information program.
[0045]
In the above description, each means of the data receiving terminal 10 can be configured as an individual device, and the communication transmitting means 23 and the communication server 24 used for the communication line 2 of the broadcast station 20 are broadcast. Although it can be configured as equipment outside the station 20, the present invention is not limited to this configuration.
[0046]
(Configuration of data receiving terminal)
Next, the configuration of the data receiving terminal 10 will be described in detail based on FIG. 2 and FIG.
FIG. 2 is a block diagram showing the overall configuration of the data receiving terminal 10. As shown in FIG. 2, broadcast receiving means 11, communication receiving means 12, control means 13, storage means 14, video display means 15, audio output means 16, transmission means 17, and operating means 18 It was set as the structure containing these. FIG. 3 is a diagram showing the contents of control signals from the control means 13 and other means.
[0047]
The broadcast receiving unit 11 includes a receiving unit 11a, a decoding unit 11b, and a reception state detecting unit 11c, and starts and ends reception of broadcast data from the broadcast wave 1 by a control signal from the control unit 13 described later. .
[0048]
The broadcast receiving means 11 includes a control signal (program number notification 100) for notifying the broadcast program number from the control means 13, and a control signal (reception start instruction) indicating an instruction to start receiving broadcast data from the broadcast wave 1. 101), the receiving unit 11a receives the broadcast data of the broadcast program number broadcast by the data carousel transmission system from the broadcast wave 1 such as terrestrial digital broadcasting, and the decoding unit 11b decodes the received data. . When the decoding of the first screen is completed, the broadcast receiving unit 11 notifies the control unit 13 of a control signal (reception preparation completion 102) indicating that preparation for reception is completed. Thereafter, the broadcast receiving unit 11 continues to receive broadcast data until a control signal (reception end instruction 103) instructing the end of reception of broadcast data is notified from the control unit 13. Of the received data decoded by the decoding unit 11b, the video signal is output to the video display means 15 and the audio signal is output to the audio output means 16.
[0049]
Also, the broadcast receiving means 11 detects a transmission error by the reception state detecting unit 11c, and if a transmission error occurs above a certain limit, a control signal (reception state) indicating that the reception state by the broadcast wave 1 has deteriorated. Notification 104) is notified to the control means 13.
[0050]
In the reception state detection unit 11c, for example, a Reed-Solomon code ((204, 188) shortened Reed-Solomon code) used for outer code error correction for each TS (Transport Stream) packet in digital terrestrial broadcasting, TS, An error of the synchronization code (8 bits) at the head of the packet is detected. For example, the number of consecutive TS packets in which the number of error bits of the Reed-Solomon code is 8 bits or more, the number of consecutive TS packets having an error in the synchronization code, or the TS including the error at a certain time interval. When a value such as a packet ratio exceeds a preset value, it is determined that the reception state is bad.
[0051]
The communication receiving unit 12 includes a transmission / reception unit 12a, a decoding unit 12b, a communication state detection unit 12c, and a call unit 12d. Start of reception of communication data from the communication line 2 by a control signal from the control unit 13 described later. And end. Also, voice communication is started and ended.
[0052]
The communication receiving means 12 receives a control signal (address notification 200) including an address (URL) of a WWW (World Wide Web) server from the control means 13 and an instruction to start receiving communication data from the communication line 2. By receiving the control signal (communication start instruction 201) indicating that, for example, when the Internet connection form is a dial-up connection, the transmission / reception unit 12a connects to the access point of the contracted network provider.
[0053]
Then, the transmission / reception unit 12a transmits the address (URL) via the communication line 2 to receive data from the server providing the information on the address (URL). The received data is decoded by the decoding unit 12b. When the decoding of the first screen is completed, the communication receiving unit 12 notifies the control unit 13 of a control signal (communication preparation complete 202) indicating that the preparation for reception has been completed.
[0054]
Thereafter, the communication receiving unit 12 continues to receive communication data until a control signal (communication end instruction 203) instructing the end of reception of communication data is notified from the control unit 13. Of the communication data decoded by the decoding unit 12b, the video signal is output to the video display means 15 and the audio signal is output to the audio output means 16.
[0055]
Further, the communication receiving means 12 detects the busy state of the communication line 2 or the server by the communication state detecting unit 12c. If the number of continuous busy times or the detected number of occurrences exceeds a certain limit, data reception by the communication line 2 is performed. A control signal (communication status notification 204) indicating that the status has deteriorated is notified to the control means 13.
[0056]
In the communication state detection unit 12c, for example, the partner station (access point) busy state at the time of the dial-up connection is called, or even if the communication line 2 can be connected, the connection window to the server is disconnected and is disconnected. Detects the state of being And, for example, when the partner station is busy, values such as the number of consecutive connection attempts after a certain period of time and the number of consecutive connections that are disconnected when there is no available connection window to the server are set in advance. When a certain value is exceeded, it is determined that the state of the communication line 2 is bad.
[0057]
The calling unit 12d has a general telephone function, and at the time of outgoing call, a control signal (outgoing instruction 205) instructing outgoing call including telephone number information is notified from the control means 13, and the telephone number is sent to the telephone number. A connection is established, and when the other party accepts an incoming call, a communication path is formed, and a control signal (transmission acceptance 206) indicating that the connection is completed is notified to the control means 13. Thus, the viewer can make a call by transmitting his / her voice by the transmission means 17 and receiving the voice of the other party of the telephone number by the voice output means 16. The call unit 12d detects an incoming call from the communication line 2 when receiving a call, notifies the control means 13 of a control signal (incoming call notification 207) indicating that the incoming call has been received, and receives the incoming call from the control means 13. When a control signal (incoming reception reception 208) indicating reception is notified, a communication path is formed and a call can be made.
[0058]
Further, when the call unit 12d disconnects the call, the control unit 13 disconnects the communication by receiving a control signal (disconnect instruction 209) indicating the disconnection instruction, and indicates that the disconnection is completed. A signal (disconnection completion 210) is notified to the control means 13. In addition, when detecting a disconnection from the partner station, the communication unit 12d notifies the control means 13 of a control signal (disconnection notification 211) indicating that the disconnection has occurred, and a control signal (completion of disconnection acceptance) The communication is terminated when the disconnection reception 212) is notified.
[0059]
The control means 13 includes a switching control unit 13a and an operation execution 13b, and controls the entire data receiving terminal 10.
This control means 13 switches between data reception by the broadcast wave 1 of the broadcast receiving means 11 and data reception by the communication line 2 of the communication receiving means 12 by the switching control unit 13a. This switching is performed when the control unit 13 is notified of a control signal (reception state notification 104) indicating that the reception state by the broadcast wave 1 has deteriorated from the broadcast reception unit 11, and from the communication reception unit 12. Occurs when a control signal (communication status notification 204) indicating that the data reception status on the line 2 has deteriorated is notified.
[0060]
Here, when the data receiving terminal 10 receives broadcast data by the broadcast wave 1, the switching control unit 13a includes a control signal (program number notification 100) for notifying the broadcast receiving means 11 of the broadcast program number, A control signal (reception start instruction 101) for starting reception of broadcast data is notified, the broadcast data is received from the broadcast receiving means 11, and the preparation for reception is completed at the stage where the first screen has been decoded. A control signal (reception preparation completion 102) is received. Then, a control signal (input switching instruction 500 or input switching instruction 600) for instructing the video display means 15 and the audio output means 16 to use the video signal and the audio signal of the broadcast receiving means 11 is notified. Further, the communication receiving means 12 is notified of a control signal (communication end instruction 103) for stopping the reception of communication data via the communication line 2.
[0061]
The broadcast program number used here is the address (URL) of the WWW server stored in the storage means 14 which will be described later when the viewer inputs from the operation means 18 and when the reception is switched from communication data to broadcast data. The broadcast program number corresponding to the address received by the communication data may be used based on the program correspondence table 14a in which the broadcast program number of the digital broadcast is associated.
[0062]
When the data receiving terminal 10 receives communication data through the communication line 2, the control signal (address notification 200) including the address (URL) of the WWW server and the communication data are received with respect to the communication receiving means 12. Control signal (communication start instruction 201) to start the communication, the communication signal is received from the communication receiving means 12, and the control signal indicating that the preparation for reception is completed when the first screen is decoded (Communication ready 202) is received. Then, a control signal (input switching instruction 500 or input switching instruction 600) for instructing the video display means 15 and the audio output means 16 to use the video signal and the audio signal of the communication receiving means 12 is notified. Further, the broadcast receiving means 11 is notified of a control signal (reception end instruction 103) for stopping the reception of broadcast data by the broadcast wave 1.
[0063]
The address (URL) used here is based on the program correspondence table 14a stored in the storage means 14 to be described later when the reception is switched from the broadcast data to the communication data when input from the operation means 18 by the viewer. In some cases, an address (URL) corresponding to the broadcast program number received in the broadcast data is used, and an address (URL) described in the content is used.
[0064]
When using the address (URL) described in this content, by analyzing "<-Wait_to_T {URL} {specified seconds}->" described using comment tags in the content, A switching delay time for a specified time can be set. At this time, the normal data receiving terminal 10 makes a call after the switching delay time elapses, and the preset terminal ignores the switching delay time, thereby reducing the congestion of the communication line 2 when an emergency disaster occurs. Can be prevented. The terminal ignoring this switching delay time may be set for each terminal in advance, or for example, a unique identification number may be assigned to the terminal and switching may be performed based on the identification number. .
[0065]
The operation execution unit 13b executes various processes corresponding to the viewer's operation based on the key notified from the operation unit 18. For example, when a broadcast program number is input from the viewer via the operation means 18, a control signal (program number notification 100) for instructing program switching including the broadcast program number is notified to the broadcast receiving means 11. Then, when a telephone number is input from the viewer via the operation means 18, the communication receiving means 12 is notified of a control signal (transmission instruction 205) for instructing transmission including the telephone number.
[0066]
The storage unit 14 stores a program correspondence table 14a.
This program correspondence table 14a associates broadcast channels and broadcast program numbers in digital broadcasting with addresses (URLs) of WWW servers. This correspondence is updated by the control means 13 when the broadcast data is notified with the address (URL) of the communication data superimposed or when the communication data is notified with the broadcast channel or broadcast program number superimposed. .
[0067]
The video display means 15 includes a display unit 15a and a switching unit 15b, and displays the input video signal. Here, the display unit 15a is a display device such as a liquid crystal monitor, and the switching unit 15b is a video signal of the broadcast receiving unit 11 and a video of the communication receiving unit 12 according to a control signal (input switching instruction 500) from the control unit 13. Switch to the signal and display either video.
[0068]
The audio output means 16 includes an output unit 16a and a switching unit 16b, and outputs an input audio signal. Here, the output unit 16a is an audio output device such as a speaker, and the switching unit 16b is an audio signal of the broadcast receiving unit 11 and an audio of the communication receiving unit 12 according to a control signal (input switching instruction 600) from the control unit 13. Switch to the signal and output either one of the audio.
[0069]
The transmitter 17 functions as a mouthpiece, that is, a microphone when the viewer uses the data receiving terminal 10 as a telephone. The voice signal (viewer's voice) input from the transmitter 17 is sent to the communication receiver 12 and output as a voice signal onto the communication line 2 via the call unit 12d of the communication receiver 12.
[0070]
The operation means 18 is an operation unit for the viewer to instruct the data receiving terminal 10 and includes an input unit 18a such as a keyboard. The key input here is notified to the control means 13, and the operation execution unit 13b of the control means 13 analyzes the key and executes the process.
[0071]
As described above, the configuration of the data receiving terminal 10 according to the present invention has been described based on one embodiment, but the present invention is not limited to this. For example, every time the reception state detection unit 11c detects a transmission error. Alternatively, a transmission error state is notified to the switching control unit 13a at regular time intervals, and the communication state detection unit 12c detects the busy state of the communication line 2 or the server or the busy state at regular time intervals. To the switching control unit 13a, and based on the error or busy status, the switching control unit 13a receives data by the broadcast wave 1 of the broadcast receiving unit 11 and data reception by the communication line 2 of the communication receiving unit 12 It may be configured to switch which one is used.
[0072]
In the data receiving terminal 10, in the computer, each function of the broadcast receiving means 11, the communication receiving means 12, and the control means 13 can be realized by a program, and the function programs are combined to operate as a data receiving program. It is also possible to make it.
[0073]
(Operation of data receiving terminal)
Next, based on the flowcharts of FIGS. 4 and 5, the operation of switching the reception of broadcast data and communication data of the data receiving terminal 10 will be described.
[0074]
First, the case where the data receiving terminal 10 receives broadcast data will be described based on the flowchart of FIG.
[0075]
The data receiving terminal 10 receives the broadcast channel and broadcast program number of the broadcast data from the operation means 18 by the viewer's operation (viewer's operation reception) (step S1).
[0076]
Based on the instruction of the viewer, the broadcast receiving means 11 receives the broadcast data of the broadcast channel and the broadcast program number, and decodes the broadcast data (step S2).
[0077]
At the time of receiving the broadcast data, the broadcast receiving means 11 detects a transmission error in the reception state detecting unit 11c (step S3), and when there is no transmission error (No), based on the address (URL) notified by the broadcast data. The program correspondence table 14a is updated (step S4). Then, the currently displayed data is determined (step S5). If broadcast data is displayed, the display is continued as it is and the process returns to step S1 to accept the viewer's operation. On the other hand, when the currently displayed data is communication data, reception of the communication data is terminated and display switching is performed (step S6).
[0078]
If a transmission error is detected in step S3 (Yes), the number of consecutive error packets and the ratio of packets including errors in a certain time interval are calculated by the transmission error frequency process (step S7). Then, it is determined whether or not reception switching from broadcast data to communication data is necessary (step S8). If the reference value set in advance is not exceeded, it is determined that reception switching is not necessary (No), and the process returns to step S1. On the other hand, if it is determined that reception switching is necessary (Yes), the communication data address (URL) is acquired from the program correspondence table 14a (step S9), and the process proceeds to step 11 in FIG. 5 to perform reception switching.
[0079]
Next, a case where the data receiving terminal 10 receives communication data will be described based on the flowchart of FIG.
[0080]
The data receiving terminal 10 receives the address (URL) of the communication data from the operation means 18 by the viewer's operation (viewer's operation reception) (step S10).
[0081]
Based on the instruction of the viewer, for example, in the case of dial-up connection, the access point of the provider is connected (connection to the communication line) (step S11), and the communication data address is designated to receive the communication data. (Step S12).
[0082]
At the time of connection to the communication line 2 or reception of communication data, the communication receiving unit 12 detects the communication line 2 or the server busy in the communication state detection unit 12c (step S13), and when there is no busy (No), The program correspondence table 14a is updated based on the broadcast channel and broadcast program number notified by the communication data (step S14). Then, the currently displayed data is determined (step S15), and if the communication data is displayed, the display is continued as it is and the process returns to step S10 to accept the viewer's operation. On the other hand, if the currently displayed data is broadcast data, reception of the broadcast data is terminated and display switching is performed (step S16).
[0083]
If busy is detected in step S13 (Yes), the number of continuous connection attempts for re-calling, the number of continuous disconnections with the server, etc. are calculated by busy number processing (step S17) and broadcast from communication broadcast data. It is determined whether or not reception switching is required for data (step S18). If the preset reference value is not exceeded, it is determined that reception switching is not necessary (No), and the process returns to step S10. On the other hand, if it is determined that reception switching is necessary (Yes), the broadcast channel or broadcast program number of the broadcast data is acquired from the program correspondence table 14a (step S19), and the process returns to step 2 in FIG. 4 to perform reception switching. .
With the above operation, the data receiving terminal 10 can switch reception of broadcast data and communication data.
[0084]
【The invention's effect】
  As described above, the present invention relates toDeThe data receiving terminal and the data receiving program have the following excellent effects.
[0091]
  Claim1According to the invention, the data receiving terminal detects at least one of the communication line busy and the server busy when the communication state detecting unit detects a transmission error of the broadcast data and the communication state detecting unit receives the communication data. And the storage means detects the broadcast channel or broadcast program number of the broadcast data,Server addressMemorize the program correspondence table withcontrolThe means can switch reception of broadcast data and communication data.
[0092]
  Thereby, the data receiving terminal can share the reception of broadcast data and communication data, and can realize a data integration terminal capable of switching between broadcast data and received data in the data receiving terminal. For this reason, it is more convenient than using two broadcast data receiving terminals and two communication data receiving terminals, and by sharing the common part, the cost of the data receiving terminal can be reduced. Also, by sharing broadcast data and communication data, it is possible to select to receive communication data when it is difficult to receive broadcast data and to receive broadcast data when communication data is difficult to connect.
  Further, the data receiving terminal can always hold the latest program correspondence table. Therefore, the viewer can use the data receiving terminal without being aware of the correspondence between the broadcast data and the communication data.
[0093]
  Claim2According to the invention described in the above, the data receiving terminal iscontrolBased on a comparison result between at least one observation value of the ratio of packets in which transmission errors occur within a predetermined time interval and the number of consecutive packets in which transmission errors have occurred, and a preset reference value Thus, when the transmission error exceeds the reference value, it is possible to switch reception from broadcast data to communication data.
[0094]
As a result, the data receiving terminal detects the reception state at the time of receiving the broadcast data, and automatically receives the communication data even if the viewer does not perform an operation when the reception state of the broadcast data deteriorates. Can be switched. That is, even in an area where broadcast data cannot be received, communication data can be substituted, so that the service area can be substantially expanded.
[0095]
  Claim3According to the invention described in the above, the data receiving terminal iscontrolThe communication line busy is based on a comparison result between at least one consecutive number of the communication line busy and the server busy, or the number of observations within a predetermined time interval and a preset reference number. Alternatively, when the number of server busys exceeds the reference value, it is possible to switch reception from communication data to broadcast data.
[0096]
As a result, the data receiving terminal detects the communication line state and server state at the time of receiving the communication data, and automatically broadcasts even if the viewer does not operate when the reception state of the communication data deteriorates. Reception can be switched to data. That is, even in a situation where reception of communication data is concentrated, basic data can be received as broadcast data, so that a comfortable data browsing environment can be constructed for the viewer.
[0105]
  Claim4According to the invention described in the above, when the reception of the data receiving terminal is switched from the broadcast data to the communication data,If your device is not set as a preferred device,Connection to the communication line is started after the specified switching delay time has elapsed.
[0106]
  As a result, the data receiving terminal, DeBy setting in advance whether or not to determine this switching delay time for each data receiving terminal, for example, when the connection to the communication line is concentrated when an emergency disaster occurs, etc., the congestion on the communication line is controlled. be able to.
[0107]
  Claim5According to the invention, the data reception program detects a transmission error of broadcast data by the reception state detection means, and at least one of communication line busy and server busy when the communication data is received by the communication state detection means. Detect onecontrolThe means switches between receiving broadcast data and communication data.
[0108]
As a result, the data reception program can share reception of broadcast data and communication data, and function to switch between broadcast data and reception data in the data reception terminal. In addition, by appropriately receiving and displaying broadcast data and communication data, selection can be made such that communication data is received when it is difficult to receive broadcast data, and broadcast data is received when communication data is difficult to connect.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram showing a configuration of an entire data broadcasting system according to an embodiment of the present invention.
FIG. 2 is a block diagram showing an overall configuration of a data receiving terminal according to the embodiment of the present invention.
FIG. 3 is a diagram showing the contents of control signals between the control means and other means according to the embodiment of the present invention.
FIG. 4 is a flowchart illustrating an operation of receiving broadcast data according to an embodiment of the present invention.
FIG. 5 is a flowchart illustrating an operation of receiving communication data according to the embodiment of the present invention.
FIG. 6 is a conceptual diagram of a data carousel transmission method used in data broadcasting.
[Explanation of symbols]
1 …… Broadcast wave
2. Communication line
10. Data receiving terminal
11. Broadcast receiving means
11a …… Receiver
11b: Decoding unit
11c: Reception state detection unit
12 …… Communication receiving means
12a …… Transceiver
12b: Decoding unit
12c: Communication state detector
12d …… Calling part
13. Control means
13a …… Switching control unit
14 …… Storage means
14a …… Program compatibility table
15 …… Video display means
16 …… Voice output means
17 …… Transmission means
18 …… Operating means
20 …… Broadcasting station
21 …… Broadcast transmission means
22 …… Broadcast data
23 …… Communication transmission means
24 …… Communication server

Claims (5)

The data of the same content corresponding to each other, the data receiving terminal and broadcast data transmitted over the broadcast wave, and a communication data that is transmitted via the communication line from the server, receiving by switching in accordance with the reception state Because
Receiving state detecting means for detecting deterioration of the receiving state of the broadcast data due to a transmission error when receiving the broadcast data ;
A communication state detection means for detecting deterioration of the receiving state of said communication data by at least one communication line busy and the server busy at the time of receiving the communication data,
Storage means for storing a program correspondence table representing a correspondence relationship between at least one of the broadcast channel and broadcast program number of the broadcast data and the address of the server ;
When the reception status detection means determines that the reception status of the broadcast data has deteriorated, the communication status is received from the server corresponding to the broadcast data by referring to the program correspondence table and communicated by the communication status detection means. Control means for switching reception so that broadcast data is received by a broadcast channel or broadcast program number corresponding to the communication data with reference to the program correspondence table when it is determined that the data reception state has deteriorated and, with a,
When the control means is notified of the address of the server corresponding to the broadcast data superimposed on the broadcast data, in the program correspondence table, the broadcast channel or broadcast program number of the currently received broadcast data is displayed. A server that is currently receiving communication data in the program correspondence table when a correspondence relationship is updated and a broadcast channel or broadcast program number of broadcast data corresponding to the communication data is superimposed on the communication data. A data receiving terminal , wherein the correspondence relationship between the addresses is updated . The control means includes a comparison result between at least one observation value of a ratio of packets in which transmission errors occur within a predetermined time interval and the number of consecutive packets in which transmission errors occur, and a preset reference value The data receiving terminal according to claim 1 , wherein reception switching from broadcast data to communication data is performed based on the data. The control means performs communication based on a comparison result between at least one consecutive number of the communication line busy and the server busy or the number of observations within a predetermined time interval and a preset reference number. The data receiving terminal according to claim 1 or 2 , wherein reception is switched from data to broadcast data. If the switch delay time is set when the server address is notified by the broadcast data , the terminal set as the priority terminal in advance switches the reception regardless of the switch delay time and is set as the priority terminal. not the terminal, the data receiving terminal according to any one of claims 1 to 3, characterized in that for switching received after lapse of the switching delay time. The data of the same content corresponding to each other, the data receiving terminal and broadcast data transmitted over the broadcast wave, and a communication data that is transmitted via the communication line from the server, receiving by switching in accordance with the reception state Computer
Receiving state detecting means for detecting deterioration of the receiving state of the broadcast data due to a transmission error when receiving the broadcast data ;
Communication state detection means for detecting deterioration of the reception state of the communication data by at least one of communication line busy and server busy when receiving the communication data ;
When the reception state detection means determines that the reception state of the broadcast data has deteriorated, it corresponds to a program indicating a correspondence relationship between at least one of the broadcast channel and the broadcast program number stored in the storage means and the address of the server Referring to the table, when communication data is received from a server corresponding to the broadcast data, and the communication state detection means determines that the reception state of the communication data has deteriorated, the program correspondence table is referred to, Function as control means for switching reception so that broadcast data is received by a broadcast channel or broadcast program number corresponding to communication data ,
When the control means is notified of the address of the server corresponding to the broadcast data superimposed on the broadcast data, in the program correspondence table, the broadcast channel or broadcast program number of the currently received broadcast data is displayed. A server that is currently receiving communication data in the program correspondence table when a correspondence relationship is updated and a broadcast channel or broadcast program number of broadcast data corresponding to the communication data is superimposed on the communication data. A data receiving program for updating a correspondence relationship between addresses .

Images