JP4132712B2 - Storage type multi-channel broadcasting device, broadcasting station, receiver, and synchronous playback control program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a technique for multi-channel broadcasting, and more specifically, a multi-channel is obtained by sending a content in advance from a broadcasting station side to a receiver and synchronously reproducing a broadcast program and the content on the receiver side. Broadcast.
[0002]
[Prior art]
Currently implemented multi-channel broadcasting is broadcasting for three channels on a standard television. The multi-channel method is a method in which when a single broadcast program is broadcast, video related to the broadcast program is simultaneously broadcast on another channel, and the viewer switches the channel and views his / her favorite video. For example, for a drama, three different scenarios are prepared and broadcast on different channels. If it is a sports program, three camera images will be broadcast on different channels.
[0003]
At this time, the viewer operates the remote controller to select and view an image of an arbitrary channel, but there is a problem that it is difficult to understand the channel switching operation. The remote control is used for the channel switching operation, but the remote control operation is complicated by the addition of the function corresponding to the multi-channel broadcasting. Further, the operation method of the remote controller is different for each receiver.
[0004]
Originally, in multi-channel broadcasting, a broadcast station creates videos (hereinafter referred to as “contents”) related to one broadcast program, and simultaneously broadcasts on different channels to view highly planned broadcast programs. Is provided to However, there is a problem that the broadcasting station side does not watch as intended because of the above-described operability problem on the receiver side.
[0005]
[Problems to be solved by the invention]
The present invention was devised to solve the above-described problems, and a multi-channel broadcast that allows a viewer to view the multi-channel broadcast as intended by the broadcasting station side. apparatus , Broadcaster ,Receiving machine as well as The purpose is to provide the program used for it.
[0006]
[Means for Solving the Problems]
The present invention is provided in order to achieve the above object, and the invention according to claim 1 is directed to content provided for a broadcast program corresponding to a multi-channel, and link information between the broadcast program and the content. A broadcast station that transmits metadata including: a content reproduction program that reproduces the content based on the metadata; a receiver that performs multi-channel broadcasting by synchronously reproducing the broadcast program and the content; A storage-type multi-channel broadcasting device comprising: the broadcast station, location information of the content, the metadata, and the content reproduction program URL address of the Web server of the broadcasting station where the content, the metadata, and the content reproduction program are stored Is transmitted to the receiver, and the receiver receives the location information posted in the electronic program guide. URL address of the broadcasting station's Web server as The content, the metadata, and the content reproduction program at the time of reservation for viewing or recording of the broadcast program, From the web server of the broadcasting station Storage for storing data receiving means for receiving, broadcast program receiving means for receiving the broadcast program from the broadcast station, the content received by the data receiving means, the metadata, and the content reproduction program An accumulation type multi-channel broadcasting apparatus comprising: an apparatus; and synchronous reproduction control means for executing and starting the content reproduction program in synchronization with the broadcast program.
[0007]
The storage type multi-channel broadcasting system according to the present invention performs multi-channel broadcasting by sending predetermined contents to a receiver in advance and synchronously reproducing the broadcast program received on the receiver side and the contents. It is. In the conventional multi-channel system, broadcast programs and content synchronized with the broadcast station are broadcast on multiple channels. In this system, content is sent from the broadcast station to the receiver in advance. In addition, the multi-channel broadcasting is performed in a pseudo manner by synchronously reproducing the broadcast program and the content on the receiver side. From the broadcasting station side, the content, metadata, and content reproduction program are sent to the receiver. The content is produced in connection with a certain broadcast program. The metadata includes link information between the broadcast program and this content and content reproduction timing information. The content reproduction program reproduces content based on the metadata. By synchronously reproducing the broadcast program and the content, pseudo multi-channel broadcasting is performed in the receiver.
[0008]
According to a second aspect of the present invention, there is provided content for a broadcast program that supports multi-channel, metadata including link information between the broadcast program and the content, and content for reproducing the content based on the metadata. And the location information of the content, the metadata, and the content playback program. URL address of a Web server storing the content, the metadata, and the content reproduction program Is a broadcasting station that transmits an electronic program guide on which is posted.
[0012]
Further, the invention according to claim 3 is the location information published in the electronic program guide. URL address of the web server of the broadcasting station as Based on the above, when the broadcast program viewing reservation or recording reservation is made, the content provided to the broadcast program corresponding to multi-channel, which is sent using a broadcast wave or a two-way communication line, the broadcast program and the content Metadata including link information and a content reproduction program for reproducing the content based on the metadata From the web server of the broadcasting station where the content, the metadata and the content reproduction program are stored A storage device for storing data receiving means for receiving, broadcast program receiving means for receiving the broadcast program from a broadcasting station, the content received by the data receiving means, the metadata, and the content reproduction program And a synchronous reproduction control means for executing and starting the content reproduction program in synchronization with the broadcast program.
[0013]
The receiver according to the present invention performs pseudo multichannel broadcasting by synchronously reproducing a broadcast program and content using content, metadata, and a content reproduction program sent from the broadcast station side. The receiver is connected to a broadcast wave or a two-way communication line, and stores the received content, metadata, and content reproduction program in a storage device. The metadata includes link information between a broadcast program and content produced in association with the broadcast program. The synchronous reproduction control means executes and activates a content reproduction program corresponding to the broadcast program, using the identifier of the broadcast program included in the broadcast data as a key. When the content reproduction program is activated, metadata corresponding to the broadcast program is read. When the broadcast program and the content are synchronously reproduced based on the link information included in the metadata, multichannel broadcasting is performed at the receiver.
[0014]
Claims 4 The invention according to claim 3 The receiver described in 1) further includes broadcast program recording means for recording the broadcast program.
[0015]
The receiver according to the present invention performs multi-channel broadcasting by synchronously playing back a recorded broadcast program and stored content. The received broadcast program is recorded in the broadcast program recording means. The broadcast program recording means may use a storage device in which contents and the like are stored. When the viewer reproduces the recorded broadcast program, a content reproduction program corresponding to the broadcast program is executed and activated. When the content reproduction program is activated, metadata corresponding to the recorded broadcast program is read out. When a broadcast program and content recorded based on link information included in the metadata are reproduced in synchronization, multi-channel broadcasting is performed at the receiver.
[0016]
According to a fifth aspect of the present invention, there is provided location information posted on an electronic program guide for receiving a receiver for multi-channel broadcasting. URL address of the web server of the broadcasting station as Based on the content, the content to be provided to the broadcast program corresponding to the multi-channel at the time of viewing reservation or recording reservation of the broadcast program, metadata including link information between the broadcast program and the content, and based on the metadata A content reproduction program for reproducing the content; From the web server of the broadcasting station where the content, the metadata and the content reproduction program are stored Means for receiving, broadcast program receiving means for receiving the broadcast program from a broadcasting station, means for storing the content received by the data receiving means, the metadata, and the content reproduction program in a storage device, It is a synchronous reproduction control program that functions as a synchronous reproduction control means that executes and activates the content reproduction program in synchronization with a broadcast program.
[0017]
The synchronized playback control program according to the present invention is a program for executing multi-channel broadcasting in a receiver. When this program is installed in the receiver, the content, metadata, and content reproduction program necessary for multi-channel broadcasting are received, and these data are stored in the storage device. Then, using the broadcast program identifier included in the broadcast data as a key, the content reproduction program corresponding to the broadcast program is executed and activated. The activated content reproduction program indexes the content and metadata corresponding to the broadcast program. The indexed metadata includes link information between broadcast programs and contents. When the content reproduction program reproduces the content based on the link information, multi-channel broadcasting is performed at the receiver.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. First, referring to FIG. 1, storage type multi-channel broadcasting of the present invention. Equipment (hereinafter referred to as storage type multi-channel broadcasting system) An overall outline of the will be described. FIG. 1 is a conceptual diagram of a storage type multi-channel broadcasting system.
[0019]
In FIG. 1, before broadcasting a broadcast program 24, the broadcast station 5 transmits content 21, metadata 22, and a content reproduction program 23 to the receiver 10 using the broadcast wave 1 or the bidirectional communication line 2. The content 21 is produced in association with the broadcast program 24. The metadata 22 is data including link information between the broadcast program 24 and the content 21. The content reproduction program 23 is an application program that reproduces the content 21 based on the metadata 22. The receiver 10 stores these received data in the storage device 12. When the broadcast program 24 is broadcast, the content reproduction program 23 stored in the receiver 10 is activated, and the content 21 and the broadcast program 24 are synchronously reproduced based on the metadata 22.
[0020]
Here, it is assumed that the content 21 is video data for three channels. In the receiver 10, the broadcast program 24 can be used as a main channel, and three subchannels can be selectively switched for viewing. A channel selection button is displayed on the monitor of the receiver 10. When the viewer operates this selection button using the remote controller, the video data of the content 21 corresponding to the channel is displayed on the monitor. The receiver 10 can view the multi-channel broadcast in a pseudo manner in this way.
[0021]
Next, the configuration of the receiver 10 will be described with reference to FIG. FIG. 2 is a block diagram illustrating a functional configuration of the receiver 10. In FIG. 2, the receiver 10 includes a data receiving unit 11, a storage device 12, a broadcast program receiving unit 13, a synchronized playback control unit 14 and a monitor 15.
[0022]
The data receiving means 11 is means for receiving the content 21, metadata 22 and content reproduction program 23 sent from the broadcasting station 5 using the broadcast wave 1 or the bidirectional communication line 2. The data receiving means 11 may be connected to a broadcast wave 1 transmitted from a satellite, a terrestrial relay station, or CATV, or connected to a bidirectional communication line 2 such as the Internet.
[0023]
When connecting to the broadcast wave 1, if the broadcast wave 1 is an analog broadcast, data transmitted using a vertical blanking period or a subcarrier is received. When the broadcast wave 1 is digital broadcasting, data transmitted using the data channel is received. In any case, the content identifier, the metadata 22, and the content reproduction program 23 are received by recognizing the data identifier. At this time, by using an electronic program guide (EPG), information such as the scheduled transmission date and time and the transmission channel of these data can be obtained. If you make a reservation for receiving the necessary data based on this information, the data is automatically received at the scheduled date and time.
[0024]
When connecting to the bidirectional communication line 2 such as the Internet, the Web server storing the content 21, the metadata 22, and the content reproduction program 23 is accessed and the Web server download service is received. In this case, if EPG is used, location information such as a URL (Uniform Resource Locator) address of the Web server can be obtained. When viewing the location information and connecting to the Web server and making a download request for necessary data, the data is received.
[0025]
The storage device 12 is means for storing the content 21, metadata 22, and content reproduction program 23 received by the data receiving means 11. The storage device 12 is composed of a recording medium such as a hard disk. The storage device 12 may store not only the data but also the broadcast program 24 together. As described above, when the storage device 12 is used as a shared device, a cluster configuration may be employed in which a plurality of recording media having different writing / reading speeds and storage capacities are used in accordance with the type and use of data to be stored.
[0026]
The broadcast program receiving means 13 is means for receiving a broadcast program 24 broadcast from the broadcast station 5 using the broadcast wave 1 or the bidirectional communication line 2. As with the data receiving means 11, the broadcast program receiving means 13 can be connected to the broadcast wave 1 and the bidirectional communication line 2. The broadcast program receiving unit 13 includes a tuner unit, a demodulation unit, and a signal processing unit. The tuner unit receives broadcast data obtained by modulating a broadcast program. The demodulator demodulates the received broadcast data. The signal processing unit performs error correction on the demodulated broadcast data, selection of a program to be viewed, code decoding, descrambling, and the like.
[0027]
The synchronized playback control means 14 is a means for executing the content playback program 23 in synchronization with the broadcast program 24. The synchronized playback control means 14 constantly monitors the identifier of the broadcast program 24 included in the program data of the broadcast program 24. Recognizing the identifier of the broadcast program 24, the content reproduction program 23 corresponding to the broadcast program 24 is read from the storage device 12 and developed in a processing device (not shown) of the receiver 10. That is, the content reproduction program 23 necessary for multi-channel broadcasting of the broadcast program 24 is automatically executed in synchronization with the broadcast program 24.
[0028]
The monitor 15 displays an EPG screen and a Web screen in addition to the broadcast program 24 and the content 21. As the monitor 15, a cathode ray tube, a plasma display, a CRT, a liquid crystal display, or the like can be used.
[0029]
Next, the content 21 will be described. The content 21 is produced in association with a certain broadcast program 24. For example, in the case of a drama, three different scenarios are created as separate contents. If it is a sports program, the three camera images are set as different contents. The content 21 includes data such as video data, audio data, and text data.
[0030]
Next, the metadata 22 will be described. The metadata 22 is data indicating link information between the broadcast program 24 and the content 21. The metadata 22 includes information for identifying the broadcast program 24, information for identifying the content 21 produced in relation to the broadcast program 24, information indicating a link between the two, reproduction timing information of the content 21, and the like. Yes. The metadata 22 is created in pairs with the broadcast program 24, and one metadata 22 is created for one broadcast program 24.
[0031]
The metadata 22 will be described with reference to FIG. FIG. 3 is an example of the metadata 22. In the example of FIG. 3, the program name of the broadcast program 24, the program content, and the link information of the content 21 are shown. The contents 21A and 21B are contents produced corresponding to the broadcast program 24. In this example, the content 21A is 20-minute video data (Acam.mpg) recorded by the A camera. Although not shown, the metadata 22 also describes timing information for reproducing the contents 21A and 21B. This timing information may be programmed in advance in the content reproduction program 23.
[0032]
Such metadata 22 is created using a description language such as XML (extensible Markup Language) or BML (Broadcast Markup Language). If created in such a description language, it can be sent to the receiver 10 using the broadcast wave 1 or the bidirectional communication line 2. Further, the receiver 10 can handle it without depending on the OS or hardware. The metadata 22 may be transmitted together with the broadcast of the broadcast program 24. When sending via the Internet or the like, the metadata 22 is stored in a predetermined Web server and downloaded to the receiver 10. If the scheduled delivery date and time of the metadata 22, the delivery channel, or the location information of the Web server is posted on the EPG, the viewer can easily obtain the metadata 22.
[0033]
Next, the content reproduction program 23 will be described. The content reproduction program 23 is an application program that reproduces the content 21 based on the metadata 22. When the broadcast program 24 is received, the content playback program 23 is automatically executed and activated by the synchronous playback control means 14. In the content reproduction program 23, dynamic changes on the time axis of the partially existing content 21 are programmed in advance. That is, when the content reproduction program 23 is executed, a selection button for the content 21 that can be reproduced and displayed at each time is displayed on the monitor 15. When the viewer selectively switches this selection button, the playback display channel of the content 21 is switched.
[0034]
If such a content reproduction program 23 is created using a language such as Java, for example, the receiver 10 can handle it without depending on the OS and hardware. The content reproduction program 23 can be sent to the receiver 10 using the broadcast wave 1 or the bidirectional communication line 2. In the case of sending using the broadcast wave 1, a vertical blanking period or a subcarrier is used for analog broadcasting, and a data channel is used for digital broadcasting. Further, when sending using the bidirectional communication line 2 such as the Internet, the content reproduction program 23 is stored in a predetermined Web server and downloaded to the receiver 10. Here, if the scheduled delivery date and time of the content reproduction program 23, the delivery channel, or the location information of the Web server is posted on the EPG, the viewer can easily obtain the content reproduction program 23.
[0035]
Next, the operation of the present invention will be described with reference to FIG. FIG. 8 is a flowchart showing a viewing procedure of multi-channel broadcasting. FIG. 8 shows an example in which the content 21 and the content reproduction program 23 are sent using the Internet, and the metadata 22 is sent using the broadcast wave 1 together with the broadcast program 24.
[0036]
In FIG. 8, the broadcast station 5 sends out an EPG using the vertical blanking period or data channel of the broadcast wave 1 (S101). In the EPG, program information related to a program scheduled to be broadcast is posted. In the case of a broadcast program 24 that supports multi-channel broadcasting, the profile and location information of the content 21 used for the broadcast program 24 are also posted.
[0037]
The viewer operates the remote controller attached to the receiver 10 to display the EPG on the monitor 15 (S102). An example of the EPG screen is shown in FIG. FIG. 4 (1) shows the program table, and FIG. 4 (2) shows the details of the program information. In FIG. 4A, an icon 41 indicates that the broadcast program 24 is a program that supports multi-channel broadcasting. When the icon 41 is selected, a detailed screen of program information shown in FIG. 4 (2) is displayed. On the detail screen of FIG. 4B, a program summary 42 of the broadcast program 24, content information 43, a viewing reservation button 44a, and a recording reservation button 44b are displayed. Here, it is assumed that a viewing reservation and a recording reservation are made. In the content information 43, location information of the content 21 used for multi-channel broadcasting of the broadcast program 24 is displayed. Here, it is assumed that the content 21 is stored in the Web server of the broadcasting station 5, and the URL address of the Web server is posted.
[0038]
By simply selecting the viewing reservation button 44a or the recording reservation button 44b, the viewer automatically reserves or downloads data such as the necessary content 21. For example, in FIG. 4B, when the viewer clicks the URL address of the Web server by operating the remote controller, the viewer is automatically connected to the Web server via a telephone line (S103). When accessing the Web server, descriptions of various broadcast program 24 menus, content 21 menus, content playback program 23, metadata 22 and the like are posted. In addition, a download button for providing these data to the viewer is provided. When the content 21 and the content reproduction program 23 necessary for reproducing the content 21 are designated and the download button is pressed, the designated data is transmitted from the Web server (S104).
[0039]
In the receiver 10, the content 21 and the content reproduction program 23 are downloaded by the data receiving means 11 and stored in the storage device 12 (S105). At this time, the attribute information of the downloaded data is checked, and if it is the same as the data already stored in the storage device 12, the storage may be omitted. This is to avoid duplicate storage with the content 21 and content reproduction program 23 stored in the past in the case of a rebroadcast program.
[0040]
When the content 21 or the content reproduction program 23 is sent using the broadcast wave 1, the scheduled broadcast date / time, channel number, recording reservation button, etc. of these data are displayed on the EPG screen. When the recording reservation button is pressed, the data receiving means 11 receives data sent at a predetermined scheduled broadcast date and time, and stores the received data in the storage device 12.
[0041]
In FIG. 8 again, the broadcast program 24 is broadcast from the broadcast station 5 when the scheduled broadcast date and time of the broadcast program 24 is reached. At this time, the metadata 22 is sent together with the broadcast program 24 (S106). The metadata 22 may be sent in advance like the content 21 or the content reproduction program 23, but here it is assumed to be sent together with the broadcast program 24.
[0042]
In the receiver 10, since the broadcast program 24 is reserved for viewing and recording in S 102, the broadcast program receiving means 13 automatically receives this broadcast program 24 and displays it on the monitor 15. The broadcast program 24 is recorded in the storage device 12, and the metadata 22 is also stored in the storage device 12 (S107).
[0043]
When the broadcast program 24 is received, the content reproduction program 23 stored in S105 is automatically activated by the synchronous reproduction control means 14. The content reproduction program 23 refers to the link information between the broadcast program 24 and the content 21 included in the metadata 22 and the reproduction timing information of the content 21, and reproduces the stored content 21 (S108).
[0044]
On the monitor 15, video data of the broadcast program 24 is displayed on the main channel, and video data of the content 21 stored in advance is displayed on the subchannel. The viewer can enjoy multi-channel broadcasting by switching the channel on which the content 21 is reproduced and displayed (S109).
[0045]
The switching of the content 21 will be described with reference to FIG. FIG. 5 is a schematic screen for channel selection. The monitor screen shown in FIG. 5 has two display parts 51 and 52. The display unit 51 displays the video data of the main channel. The display unit 52 displays the video data of the subchannel. The channel switching selection buttons 51 a to 51 d are buttons for selecting video data to be displayed on the display units 51 and 52. When the buttons 51a to 51d are selected by operating the remote controller, video data is displayed on the two display sections 51 and 52. When the B camera 51c is selected, the display unit 52 is switched to the video data of the B camera. In the video data of the B camera, for example, a player's profile video is displayed. Audio selection buttons 52a and 52b are added to the video of the B camera. Voice selection button 52a When you press, the player's introduction narration is output from the speaker. Voice selection button 52b Press to output information about the players. In this way, the viewer can select multi-channel broadcasting in a favorite style by selecting camera video and audio.
[0046]
Here, the channel switching selection buttons 51 a to 51 d and the audio selection buttons 52 a and 52 b displayed on the monitor 15 automatically change with the progress of the broadcast program 24. FIG. 6 shows the dynamic change of channel switching options. In FIG. 6, a broadcast program 24 is a live program edited by the broadcast station 5, commonly called “complete package”. The content 21 is composed of three video data of A camera, B camera, and C camera. The video data of the A camera can be viewed in the time from the start time to the end time of the broadcast program 24. The video data of the B camera can be viewed at times t1, t2, t3 and t4. The video data of the C camera can be viewed at times t2 and t4. Since the content reproduction program 23 is programmed in advance with dynamic changes on the time axis of the partially existing content 21, channel switching selection buttons 51a to 51 corresponding to the content 21 that can be reproduced and displayed at each time. 51d is displayed on the monitor 15. That is, three channel switching selection buttons are displayed at time t1, and four channel switching selection buttons are displayed at time t4.
[0047]
In FIG. 8 again, when the broadcast program 24 ends, recording information such as the program name and recording time of the broadcast program 24 recorded in the recorded program list is registered (S110). FIG. 7 shows an example of the recorded program list. This recorded program list can be displayed on the monitor 15 by remote control operation. The newly recorded program name is added to the recorded program list. Icon 71 indicates multi-channel broadcasting. When the recorded broadcast program 24 is reproduced, the content reproduction program 23 stored in the storage device 12 is activated by the synchronous reproduction control means 14. Then, the content reproduction program 23 reproduces the content 21 based on the metadata 22 so that multi-channel broadcasting can be enjoyed.
[0048]
The embodiment of the storage type multi-channel broadcasting system of the present invention and the receiver used therefor has been described above. However, the present invention is not limited to the above-described embodiment and can be widely modified and implemented. It is. For example, the start time and end time of the content 21 may be matched in advance with the start time and end time of the broadcast program 24. In this way, the synchronous playback control process can be simplified.
[0049]
【The invention's effect】
As described above, the present invention has the following effects.
(1) Storage type multi-channel broadcasting according to claim 1 apparatus Transmits the content, metadata, and content reproduction program planned and produced in advance by the broadcasting station side to the receiver, so that the receiver side can perform multi-channel broadcasting as intended by the broadcasting station side.
(2 Claim 3 The receiver includes a storage device for storing content and metadata sent from the broadcast station side, and synchronous playback control means for synchronously playing back the broadcast program and content. A receiver corresponding to a broadcasting system that performs broadcasting can be configured.
( 3 Claim 4 Receivers have means to record broadcast programs, so even if you can't watch the broadcast program at the scheduled broadcast date and time, you can enjoy multi-channel broadcasting anytime you want using the recorded broadcast program A receiver can be configured.
( 4 Claim 5 The synchronized playback control program receives content, metadata, and content playback program used for multi-channel broadcasting, accumulates these data in a storage device, and executes and activates the content playback program in synchronization with the broadcast program. If installed on the receiver, multi-channel broadcasting can be easily executed without installing dedicated hardware on the receiver side.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram of a multi-channel broadcasting system.
FIG. 2 is a block diagram illustrating a functional configuration of a receiver.
FIG. 3 is an example of metadata.
FIG. 4 is an example of an EPG screen, where (1) is a program guide and (2) is details of program information.
FIG. 5 is a schematic screen for channel selection.
FIG. 6 is an explanatory diagram showing dynamic changes in channel switching options.
FIG. 7 is an example of a recorded program list.
FIG. 8 is a flowchart showing a viewing procedure of multi-channel broadcasting.
[Explanation of symbols]
1 broadcast wave
2 Two-way communication line
5 broadcast stations
10 Receiver
11 Data receiving means
12 Storage device
13 Broadcast program receiving means
14 Synchronous playback control means
15 Monitor
21 content
22 metadata
23 Content playback program
24 broadcast programs

Claims (5)

A broadcast station that transmits content to be provided for a broadcast program that supports multi-channel, metadata including link information between the broadcast program and the content, and a content reproduction program that reproduces the content based on the metadata;
A storage type multi-channel broadcasting device comprising: a receiver that performs multi-channel broadcasting by synchronously reproducing the broadcast program and the content;
The broadcast station posted the URL address of the Web server of the broadcast station where the content, the metadata, and the content reproduction program are stored as the location information of the content, the metadata, and the content reproduction program . Sending an electronic program guide to the receiver;
The receiver
Based on the URL address of the web server of the broadcasting station as the location information posted in the electronic program guide, the content, the metadata, and the content reproduction at the time of reservation for viewing or recording of the broadcast program Data receiving means for receiving the program from the Web server of the broadcasting station ;
Broadcast program receiving means for receiving the broadcast program from the broadcast station;
A storage device for storing the content received by the data receiving means, the metadata, and the content reproduction program;
Synchronous reproduction control means for executing and starting the content reproduction program in synchronization with the broadcast program;
A storage-type multi-channel broadcasting device comprising: Transmitting content to be provided for a broadcast program compatible with multi-channel, metadata including link information between the broadcast program and the content, and a content reproduction program for reproducing the content based on the metadata, and the content A broadcasting station that transmits an electronic program guide in which a URL address of a Web server storing the content, the metadata, and the content reproduction program is posted as location information of the metadata and the content reproduction program . Based on the URL address of the web server of the broadcasting station as the location information posted in the electronic program guide, a multi- address is sent using a broadcast wave or a two-way communication line when making a reservation for viewing or recording a broadcast program. A content to be provided for the broadcast program corresponding to a channel; metadata including link information between the broadcast program and the content; and a content reproduction program for reproducing the content based on the metadata. Data receiving means for receiving data and the content reproduction program from the web server of the broadcasting station ;
Broadcast program receiving means for receiving the broadcast program from a broadcast station;
A storage device for storing the content received by the data receiving means, the metadata, and the content reproduction program;
Synchronous reproduction control means for executing and activating the content reproduction program in synchronization with the broadcast program.   The receiver according to claim 3, further comprising broadcast program recording means for recording the broadcast program. Receiver for multi-channel broadcasting,
Based on the URL address of the broadcast station's Web server as the location information posted in the electronic program guide, the content to be provided to the broadcast program corresponding to the multi-channel when the broadcast program is reserved for viewing or recording, and the broadcast program And metadata including link information with the content, and a content reproduction program for reproducing the content based on the metadata , the content, the metadata, and the content reproduction program of the broadcast station storing the content reproduction program. Means for receiving from a web server ;
Broadcast program receiving means for receiving the broadcast program from a broadcast station;
Means for storing the content received by the data receiving means, the metadata, and the content reproduction program in a storage device;
Synchronous reproduction control means for executing and starting the content reproduction program in synchronization with the broadcast program;
Synchronous playback control program characterized in that it functions as

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