JP6871462B2 - Broadcast signal receiving device and broadcasting signal receiving method - Google Patents

Description

An embodiment of the present invention relates to a broadcast signal receiving device.

Hybridcast, a service that integrates broadcasting and communication, started broadcasting in 2013 and is now being provided by multiple broadcasting stations. By adopting HTML5, which is an open platform, as an application engine, Hybridcast reduces the cost of developing broadcast signal receivers and applications that support HTML5, and performs complicated processing in applications only with broadcast signal receivers. Instead, it became possible to cooperate with the server side. This has made it easier to enhance the functions of hybrid cast, which is a broadcasting and communication cooperation service.

A major feature of HTML5 is that it has a video element, which is a function for reproducing video and audio. This eliminates the need to incorporate plug-in software (software for adding functions) that has player functions required for video and audio playback in HTML before that into the browser application, and for video and audio playback. It is now possible to write instructions directly in HTML.

As a method of distributing video and audio, instead of RTSP (Real Time Streaming Protocol), RTMP (Real Time Messaging Protocol), and MMSP (Microsoft Media Server Protocol) that use a dedicated server for video distribution, go to the web page on the web server. HTTP streaming, which distributes video by HTTP (Hypertext Transfer Protocol), has become common. Examples of HTTP streaming include Apple HLS (HTTP Live Streaming), Adobe HDS (HTTP Dynamic Streaming), Microsoft Streaming, MPEG-DASH, etc. Apple HLS and MPEG-DASH are compatible with HTML5 Media Access. It can be played by the streaming browser application.

"Media transport system standard by MMT in digital broadcasting" ARIB STD-B60 1.11 version revised on January 22, 2018, Association of Radio Industries and Businesses "Multimedia encoding method (2nd generation) standard for digital broadcasting" ARIB STD-B62 1.8 version revised on January 22, 2018, Association of Radio Industries and Businesses "Technical Data for Advanced Broadband Satellite Digital Broadcasting Operation Regulations" ARIB TR-B39 1.6 Edition Revised on January 22, 2018, Association of Radio Industries and Businesses

In the operation of services that deliver video and audio by communication in advanced BS digital broadcasting and advanced broadband CS digital broadcasting, the MPEG-DASH method and the MMT method are non-patent documents 1 and non-patent documents as methods for transmitting by communication. It is stipulated in 3.

As for the method by MPEG-DASH, it is decided to use ARIB-HTML5 as the application coding method and to operate DRM (Digital Rights Management) when the security of the video and audio contents to be transmitted is required. Therefore, if security is required when delivering video or audio content, the service provider that delivers the content must apply DRM to the video or audio content to be delivered, and the broadcast signal receiver Must support the applied DRM.

Since there are a plurality of types of DRM, the broadcast signal receiving device needs to have the content to which the type of DRM supported by the receiving device itself is applied delivered.
When the broadcast signal receiving device and the server that distributes the video and audio contents are fixed, there is no operational problem by having the contents to which the DRMs determined in advance are distributed.

On the other hand, with the data content services described in Non-Patent Document 1 and Non-Patent Document 3, the broadcast signal receiving device can newly add the application function added to the received broadcast program.
When operating the distribution of video and audio content using the application function newly added to the broadcast signal receiver by the data content service, the added application determines the type of DRM supported by the broadcast signal receiver. You need to figure it out.

However, the current broadcast signal receiver has a problem that it does not have a function of providing a supported DRM type to an application.
Therefore, an embodiment of the present invention aims to provide a broadcast signal receiving device and a broadcast signal receiving method having a function of providing a supported DRM type to an application.

The broadcast signal receiving device of one embodiment is
An analysis that analyzes a transmission control signal separated from a broadcast signal that receives a broadcast wave that broadcasts a program, and acquires control information related to application data that is an application that is added to the program and performs specific processing from the transmission control signal. Receives the application control unit that specifies the location of the application data existing in the broadcast signal based on the control information, and the application data of the location specified by the application control unit from the broadcast signal. Supports the application data reception processing unit, the application engine that manages the application consisting of the application data received by the application data reception processing unit, the content reception processing unit that acquires the content by communication, and the protection of the content for each type. Among a plurality of types of security management information, the application engine includes a security management information processing unit that applies security management information that supports the type of the content to the content acquired by the communication, and the application engine provides the security management information. Information on the type of security management information supported by the processing unit is provided to the application, and the application is a type for performing the specific processing in the information on the type of security management information provided by the application engine. Is a broadcast signal receiving device that determines the distribution destination of the content to which the security management information of the type is applied when the data is present.

FIG. 1A is a diagram showing a configuration example of an entire system including a broadcast signal transmitting device, a broadcasting signal receiving device, and a service provider according to the present embodiment. FIG. 1B is a diagram showing another configuration example of the entire system including the broadcast signal transmitting device, the broadcasting signal receiving device, and the service provider according to the present embodiment. FIG. 2 is a diagram schematically showing a configuration example of the broadcast signal transmission device shown in FIG. 1A. FIG. 3 is a diagram schematically showing a configuration example of the broadcast signal receiving device shown in FIG. 1A. FIG. 4A is a diagram showing a configuration of a data content service of a type in which application data is transmitted by a broadcast wave. FIG. 4B is a diagram showing a configuration of a data content service of a type in which application data is not transmitted by a broadcast wave. FIG. 5A is a diagram showing a state in which a broadcast signal receiving device receives distribution of video or audio content when application data is acquired by the type 2 data content service shown in FIG. 4B. FIG. 5B is a diagram showing another example of how the broadcast signal receiving device receives the distribution of video or audio content when the application data is acquired by the type 2 data content service shown in FIG. 4B. FIG. 5C is a diagram showing a state in which a broadcast signal receiving device receives distribution of video or audio content when application data is acquired by the type 1 data content service shown in FIG. 4A. FIG. 5D is a diagram showing another example of how the broadcast signal receiving device receives the distribution of video or audio content when the application data is acquired by the type 1 data content service shown in FIG. 4A. .. FIG. 5E is a diagram showing another example of how the broadcast signal receiving device receives the distribution of video or audio content when the application data is acquired by the type 2 data content service shown in FIG. 4B. FIG. 5F is a diagram showing another example of how the broadcast signal receiving device receives the distribution of video or audio content when the application data is acquired by the type 2 data content service shown in FIG. 4B. FIG. 5G is an example in which the broadcast signal receiving device 140 acquires application data by the type 2 data content service shown in FIG. 4B, and the acquired plurality of applications operate in cooperation with each other. FIG. 5H is a diagram showing another example of how the broadcast signal receiving device receives the distribution of video or audio content when the application data is acquired by the type 1 data content service shown in FIG. 4A. FIG. 5I is a diagram showing an example of how the broadcast signal receiving device receives the distribution of video or audio content when there is no processing for providing the application with the type of DRM supported by the security management information processing unit. .. FIG. 6 is an example in which the Capabilities object is extended in order to provide the application with the types of DRM supported by the security management information processing unit of the broadcast signal receiving device. FIG. 7 is a diagram showing an example of a processing flow when the function is used to provide the application with the type of DRM supported by the security management information processing unit shown in FIG. FIG. 8A is a diagram showing another example of the processing flow when the function is used to provide the application with the type of DRM supported by the security management information processing unit shown in FIG. FIG. 8B shows an example of a processing flow when the application F determines the type of DRM supported by the security management information processing unit in the order of C1 system (DRM-3) and A1 system (DRM-1). Is. FIG. 8C is a diagram showing an example of a processing flow showing an example of the specific processing.

Hereinafter, embodiments will be described with reference to the drawings.
FIG. 1A is a diagram showing a configuration example of an entire system including a broadcast signal transmitting device, a broadcasting signal receiving device, and a service provider according to the present embodiment.
Reference numeral 100 denotes a broadcast signal transmission device A (which may be referred to as a broadcast station A) that broadcasts a program by a broadcast signal. The broadcast signal transmission device A100 includes a broadcast program server 101, a broadcast signal transmission basic function 102, and an application data management unit 103.

The 101 is a broadcast program server that stores programs, program titles, program outlines, performer names, broadcast dates, and other data to be broadcast as the broadcast signal transmission device 100 in advance.
Reference numeral 102 denotes a basic function of the broadcast signal transmission device A100, which encodes (also referred to as encoding) a video signal, an audio signal, or the like of a broadcast program, and a transmission control signal or the like which is control information of the video signal or the audio signal. This is a basic broadcast signal transmission function that has the function of multiplexing and transmitting as a broadcast signal.

Further, the broadcast signal transmission device A100 can be added with a data content service that provides the application function encoded by HTML5 or the like described in Non-Patent Document 3 at the same time as the program to be broadcast. In this case, the broadcast signal transmission device 100 arranges the first designated information indicating that the application function is added to the broadcast program in the transmission control signal, and transmits the broadcast signal transmission basic function 102 as a broadcast signal. The first designated information is, for example, an application service descriptor arranged in the MPT (MMT Package Table) described in Non-Patent Document 1.

Reference numeral 103 denotes an application management unit that generates and manages application functions (application data) to be added to the broadcast program when the data content service is added to the broadcast program.
The data content service has two methods: a method of providing an application function (application data) to be added to a broadcast program by a broadcast wave, and a method of providing an application function (application data) by communication without providing the data content service by a broadcast wave. When the application function (application data) to be added to the broadcast program is provided by communication, the service provider 120 performs the application function (application data). The configuration of the data content service will be described with reference to FIGS. 4A and 4B.

There may be a plurality of broadcast signal transmission devices. The example of FIG. 1A is an example in which two broadcasting signal transmitting devices, a broadcasting signal A100 and a broadcasting signal transmitting device B100-2, exist.
The 120 is an application function (application data) encoded by HTML5 or the like added to the broadcast program in cooperation with the broadcast signal transmission device 100 when the data content service is added to the program broadcast by the broadcast signal transmission device A100. Is a service provider that provides the broadcast signal receiving device 140 via the network 180.

The service provider 120 includes an application data management unit 121 and an application server 122.
121 is an application data management unit that generates and manages application functions (application data) to be added to a broadcast program, and distributes the generated application functions (application data) to the broadcast signal receiving device 140 via the network 180. ..

Reference numeral 122 denotes an application server for storing application functions (application data) to be added to the broadcast program, which is generated by the application data management unit 121.
The service provider 120 uses the application data management unit 121 to network the application functions (application data) stored in the application server 122 in response to the request from the broadcast signal receiving device 140 that has received the first designated information. It is transmitted to the broadcast signal receiving device 140 via 180.

Further, the service provider A120 may store the video and audio contents to be distributed to the broadcast signal receiving device 140 in the application server 122. In response to a request from the broadcast signal receiving device 140, the service provider 120 transmits the video and audio contents stored in the application server 122 to the broadcasting signal receiving device 140 via the network 180 by the application data management unit 121. You may distribute it.

There may be a plurality of service providers. The example of FIG. 1A is an example in which there are two service providers, the service provider A120 and the service provider B120-2.
Reference numeral 140 denotes a broadcast signal receiving device (which may be referred to as a television receiving device) that receives a program transmitted by a broadcast signal. The broadcast signal receiving device 140 includes a broadcast signal receiving basic function 141, a communication control function 142, an application control function 143, and a terminal cooperation function 144.

Reference numeral 141 denotes a basic function as a broadcast signal receiving device, which receives a broadcast wave transmitted from the broadcast signal transmitting device A100 and encodes a video signal (also referred to as a video stream) included in the broadcast wave. Broadcast signals that separate encoded audio signals (also called audio streams), application data and transmission control signals, decode video and audio signals, receive application data, and analyze transmission control signals. This is a basic reception function.

Further, the broadcast signal reception basic function 141 is a peripheral device connected to the broadcast signal reception device 140, for example, a display (may be called a display screen) 160, a speaker 161 and an HDD bound to the broadcast signal reception device 140 (a broadcast signal reception device 140). It also manages the connection with Hrad Disk Drive) 162 and the removable media 170 and the transmission and reception of data. The display 160 has a built-in speaker 161 and displays the video signal decoded by the broadcast signal reception basic function 141 in the display area and outputs the audio signal to the speaker 161. The speaker 161 built in the display 160 may be an external speaker connected by an I / F such as USB. Further, in the example of FIG. 1, the display 160 is described as a separate body from the broadcast signal receiving device 140, but may be integrated with the broadcasting signal receiving device 140 as one function of the broadcasting signal receiving device 140.

142 is a communication control function for the broadcast signal receiving device 140 to communicate with the service provider A120 via the network 180.
Reference numeral 143 is an application control function for managing and executing an application added by the data content service. The application control function 143 also manages and executes the application function originally provided in the broadcast signal receiving device 140.

144 is a mobile terminal cooperation function in which the broadcast signal receiving device 140 cooperates with the mobile terminal 175 to provide video and audio services. The broadcast signal receiving device 140 and the mobile terminal 175 are connected by a short-range wireless system such as Bluetooth (registered trademark).

In addition, there may be a content service provider that only distributes video and audio contents.
FIG. 1B is a diagram showing another configuration example of the entire system including the broadcast signal transmitting device, the broadcasting signal receiving device, and the service provider according to the present embodiment. In addition to the broadcast signal transmitter A100, the broadcast signal transmitter B100-2, the service provider A120, the service provider B120-2, and the broadcast signal receiver 140 shown in FIG. 1A, a content service that only distributes video and audio contents. It consists of business operator X127. The broadcast signal receiving device 140 may request the content service provider X127 to distribute video and audio contents.

FIG. 2 is a diagram schematically showing an example of the configuration of the broadcast signal transmission device A100 shown in FIG. 1A. The broadcast signal transmission basic function 102 includes a video encoder 201, an audio encoder 202, a subtitle encoder 203, an application data generation unit 204, and a control signal generation unit 205 that generates a transmission control signal.

Reference numeral 201 denotes a video encoder that encodes the video of the program A read from the broadcast program server 101 as a program to be broadcast. The codec type of the video encoder 201 is MPEG-2, H.M. 264 (AVC: Advance Video Coding), H. Any of 265 (HEVC: High Efficiency Video Coding) may be used. The codec type is not limited to this.

Reference numeral 202 denotes an audio encoder that encodes the audio of the program A read from the broadcast program server 101 as a program to be broadcast.
Reference numeral 203 denotes a subtitle encoder that encodes the subtitles of the program A read from the broadcast program server 101 as a program to be broadcast.

Reference numeral 204 denotes an application function (application function) managed by the application data management unit 103 when a service for simultaneously providing an application function (application data) such as HTML5 is added to the program A read from the broadcast program server 101 as a program to be broadcast. It is an application data generation unit that generates application data so that application data) can be read out and transmitted as a broadcast wave.

Reference numeral 205 denotes a control information related to a broadcast signal constituting a program such as a video stream and an audio stream constituting the program broadcast by the broadcast signal transmitting device A100, a program name of the program to be broadcast, and the content of the program such as the broadcast time. It is a control signal generation unit that generates a transmission control signal that is control information.

The control signal generation unit 205 also generates a transmission control signal related to the application function added to the program generated by the application data generation unit 204.
Reference numeral 207 is: video data output by the video encoder 201, audio data output by the audio encoder 202, subtitle data output by the subtitle encoder 203, application data output by the application generation unit 204, and transmission control output by the control signal generation unit 205. It is a multiplexing unit that multiplexes signals. The multiplexing method in which the multiplexing unit 207 multiplexes is the MMT (Mpeg Media Transport) method described in Non-Patent Document 1.

Reference numeral 208 denotes a scrambler for scrambling the multiplexing stream input from the multiplexing unit 207. The multiplexing unit 207 transmits the scrambled multiplexing stream to the transmitter 209.
209 is a transmitter that transmits the transmitted multiplexed stream from the antenna by a broadcast wave.

FIG. 3 is a diagram schematically showing a configuration example of the broadcast signal receiving device 140 of FIG. The broadcast signal receiving device 140 includes a broadcast signal receiving basic function 141, a communication control function 142, an application control function 143, and a terminal cooperation function 144. The broadcast signal receiving device 140 is also connected to the display 160 and the speaker 161.

The broadcast signal reception basic function 141 includes a broadcast tuner 301, a descrambler 302, a demultiplexer A303, a video decoder A305, an audio decoder A306, a subtitle decoder A307, an application data reception processing unit A308, and a control signal analysis unit 309.

Reference numeral 301 denotes a broadcast tuner that demodulates a stream (broadcast signal) transmitted by a broadcast wave. The broadcast tuner 301 inputs the demodulated stream (broadcast signal) to the descrambler 302.
Reference numeral 302 denotes a descrambler that descrambles the multiplexed stream input from the broadcast tuner 301. The descrambler 304 inputs the descrambled stream to the demultiplexer A303.

Reference numeral 303 denotes a demultiplexer that separates the stream input from the descrambler 302 into a video stream, an audio stream, a subtitle stream, application data, and a transmission control signal. The demultiplexer A303 sends the video stream to the video decoder A305, the audio stream to the audio decoder A306, the subtitle stream to the subtitle decoder A307, the application data to the application data reception processing unit A308, and the transmission control signal to the control signal analysis unit 309. input.

Reference numeral 305 is a video decoder A that decodes the video data sent from the demultiplexer A303.
Reference numeral 306 is an audio decoder A that decodes the audio data sent from the demultiplexer A303.
Reference numeral 307 is a subtitle decoder A that decodes the subtitle data sent from the demultiplexer A303.

Reference numeral 308 denotes an application data reception processing unit A that performs reception processing of application data sent from the demultiplexer A303.
Reference numeral 309 is a control signal analysis unit that processes the transmission control signal sent from the demultiplexer A303. The control signal analysis unit 309 sends MH-AIT (MH-Application Information Table) or the like, which is control information related to application data extracted from the analyzed transmission control signal, to the application control unit 320.

The decoded video data and subtitles are combined by the synthesizer 310 and output to the display 160. The decoded audio data is output to the speaker 161.
The codec type of the video decoder 306 is H.I. 265, but not limited to this, MPEG-2, H.M. It may be any of 264. The codec type is not limited to this.

The communication control function 142 receives video or audio content delivered from the communication I / F 330, which is an I / F with the network 180, the service provider A120, the service provider B120-2, or the content service provider X127. Content reception processing unit 331, demultiplexer B332, security management information processing unit 333 that performs content protection processing such as DRM (Digital Rights Management) applied to the delivered video or audio content, video decoder B334, audio decoder It includes B335, a subtitle decoder B336, and an application data reception processing unit B337.

Reference numeral 330 denotes a communication I / F which is an I / F with the network 180 when the broadcast signal receiving device 140 communicates. The broadcast signal receiving device 140 transmits / receives contents and data to / from the service provider A120, the service provider B120-2, or the content service provider X127 via the communication I / F 330.

Reference numeral 331 is a content reception processing unit for the broadcast signal receiving device 140 to receive video or audio content distributed from the service provider A120, the service provider B120-2, or the content service provider X127. The transmission method when the content is distributed from the service provider A120, the service provider B120-2, or the content service provider X127 is, for example, MPEG-DASH, Apple HLS, or any method as long as it is HTTP streaming. May be good.

Reference numeral 332 is a demultiplexer B that separates the delivered content stream into a video stream, an audio stream, and a subtitle stream. The demultiplexer B332 inputs the separated video stream to the video decoder B334, the audio stream to the audio decoder B335, and the subtitle stream to the subtitle decoder B336.

The 333 processes the security management information applied to the video or audio content acquired via the network 180 so that the display 160 connected to the broadcast signal receiving device 140 can display the video, or the speaker. It is a security management information processing unit that enables audio to be output from 161. The security management information is, for example, DRM. The security management processing unit 333 may communicate with a security information server (not shown) connected via a network via a communication I / F 330, if necessary.

Since the security management information is applied to the content sent via the network 180 in this way, the broadcast signal receiving device 140 is limited to the content to which the security management information of the type supported by the security management information processing unit is applied. Can be played.

Reference numeral 334 is a video decoder B that decodes the video data sent from the demultiplexer B332.
Reference numeral 335 is an audio decoder B that decodes the audio data sent from the demultiplexer B332.
Reference numeral 336 is a subtitle decoder B that decodes the subtitle data sent from the demultiplexer B332.

Reference numeral 336 is a subtitle decoder B that decodes the subtitle data sent from the demultiplexer B332.
Reference numeral 337 is an application data reception processing unit B that performs reception processing of application data sent from the communication I / F 330.
The application control function 143 includes an application control unit 320 and an application engine 321.

Reference numeral 320 denotes an application control unit that manages and controls control information related to application data such as MH-AIT extracted by the control signal analysis unit 309 from the transmission control signal transmitted by the broadcast signal.
Reference numeral 321 is an application engine that operates together with various applications included in the broadcast signal receiving device 140 and manages the operation of each application. The application engine 321 also manages the operation of the application data added by the data content service. Further, the application engine 321 also has a function of providing the application with the types of security management information supported by the security management information processing unit 333.

There are two types of data content services as described in Non-Patent Document 3. The first type is a type in which application data is transmitted by broadcast waves. The other type is a type in which application data is not transmitted by broadcast waves. Two types of data content services will be described with reference to FIGS. 4A and 4B. Further, the flow of data processing shown in FIG. 4 will be described with reference to the function of the broadcast signal receiving device 140 shown in FIG.

FIG. 4A is a diagram showing a configuration of a data content service of a type (also referred to as a type 1 data content service) in which application data is transmitted by a broadcast wave. The data existing in the range surrounded by the dotted line 420 is the data group constituting the data content service.

The video component 401 represents a video signal transmission line, the audio component 402 represents an audio signal transmission line, and the subtitle component 403 represents a subtitle signal transmission line. Further, MMT-SI404 indicates a transmission path of a transmission control signal, and data component 1 (405) and data component 2 (406) indicate a transmission path of application data.

The video signal transmitted by the video component 401, the audio signal transmitted by the audio component 402, and the subtitle data transmitted by the subtitle component 403 are decoded by the video decoder A305, the audio decoder A306, and the subtitle decoder 307 of FIG. 3, respectively. , It is displayed as a program on the display 160 or output from the speaker 161.

Further, the transmission control signal transmitted by the MMT-SI404 is analyzed by the control signal analysis unit 309 of FIG. Among the transmission control signals analyzed by the control signal analysis unit 309, the application service descriptor, MH-AIT (MH-Application Information Table), etc., which are the control information necessary for acquiring the application data, are arranged in the MPT. It is sent to the application control unit 320 for further analysis.

Further, the application data 410 and the application data 411 transmitted by the data component 1 (405) and the data component 2 (406) are received by the application data reception processing unit 308 of FIG. The application data 410 and the application data 411 are data that realize the application function added to the broadcast program composed of the video signal and the audio signal transmitted by the video component 401 and the audio component 402. The application data 410 and application data 411 transmitted by the data component 1 (405) and the data component 2 (406) are the application service descriptor, MH-AIT, and DDMT (MH-AIT, DDMT) included in the transmission control signal transmitted by the MMT-SI404. It is identified by analyzing Data Directory Management Table) and DAMT (Data Asset Management Table).

The application service descriptor placed in the MPT holds reference information for referencing MH-AIT, DDMT, DAMT, and DCCT (Data Content Configuration Table) necessary for acquiring application data. .. The application control unit 320 of FIG. 3 accesses the MH-AIT, DDMT, and DAMT information necessary for acquiring the application data based on the information of these reference destinations, and further, these MH-AIT, DDMT, By analyzing the DAMT, it is possible to identify the location of the application data 410 and the application data 411 sent by the data component 1 or the data component 2 in the broadcast wave.

The application data 410 and the application data 411 whose existence location is specified are received by the application data reception processing unit A308. The application composed of the received application data 410 and application data 411 is sent to the application engine 321 and operates together with the application engine 321 to exert a function as an application.

The application acquired by the type 1 data content service is not only acquired from the data component which is a broadcast wave, but also the application data 412 existing on the network 180 and the application data 412 existing on the network 180 based on the information described in the MH-AIT. It is also possible to specify the location of the application data 413 and acquire the application data by communication via the network 180. Further, the application acquired by the data content service can acquire a part from the data component and the other part via the network 180.

FIG. 4B is a diagram showing a configuration of a data content service of a type (also referred to as a type 2 data content service) in which application data is not transmitted by a broadcast wave. The data existing in the range surrounded by the dotted line 430 is a data group constituting the data content service.

The application service descriptor arranged in the MPT holds the reference destination information for referring to the MH-AIT required for acquiring the application data. The application control unit 320 of FIG. 3 accesses the MH-AIT information necessary for acquiring the application data based on the reference information, and further analyzes the MH-AIT to obtain the application data 412. Alternatively, the location of where the application data 413 exists via the network 180 is specified.

The application data 412 or the application data 413 whose existence location is specified is received by the application data reception processing unit B337. The application composed of the received application data 412 and application data 413 is sent to the application engine 321 and operates together with the application engine 321 to exert a function as an application.

In order to perform the data content service in this way, it is necessary that the application service descriptor is placed in the MPT sent as MMT-SI404, and by analyzing this application service descriptor, , It is possible to identify the location of the application sent as a data content service.

The types of data content services, type 1 and type 2, are indicated by the application service descriptor DT_message_flag.
When the service provider A120, the service provider B120-2, or the content service provider X127 distributes video or audio content to the broadcast signal receiving device 140, the content needs to be subject to security management information. .. The security management information is, for example, DRM. Hereinafter, DRM will be described as an example of security management information.

As described above, when a new application function is added to the broadcast signal receiving device 140 by the data content service, the added application function can operate based on the information of the DRM type supported by the broadcasting signal receiving device 140. Is desirable.

Therefore, the broadcast signal receiving device 140 of the present embodiment has a function of presenting the supported DRM types to the application.
Below, the types of DRM supported by the application functions added by the data content service, the types of DRM supported by the broadcast signal receiving device 140, and the DRM applied to the video or audio content delivered to the broadcasting signal receiving device 140. From the viewpoint of the type, the entire processing flow of content distribution will be described in the broadcast signal transmission device A100 and the like for transmitting the broadcast signal, the service provider A120 and the like for delivering the content, and the broadcast signal receiving device 140 and the like for receiving the broadcast signal. ..

It is assumed that the broadcast signal receiving device 140 supports three types of DRM, DRM-1, DRM-2, and DRM-3, and the broadcast signal receiving device 140-2 supports DRM as a type of DRM. It is assumed that -0 is supported. Further, the service provider A120 shall be able to distribute video or audio content to which DRM-1 is applied as the type of DRM, and the service provider B120-2 shall be able to distribute video or audio to which DRM-4 is applied as the type of DRM. Content can be distributed. Further, the content service provider X127 can distribute video or audio content to which DRM-2 is applied as a type of DRM.

FIG. 5A is a diagram showing an example of how the broadcast signal receiving device 140 receives distribution of video or audio content when application data is acquired by the type 2 data content service shown in FIG. 4B.
Note that DRM-1, DRM-2, and DRM-3 described in the broadcast signal receiving device 140 of FIG. 5A represent the types of DRM supported by the security management information processing unit 333 shown in FIG. The DRM-1 described in the service provider A120 represents the type of DRM applied to the content distributed by the service provider A120. The DRM-4 described in the service provider B120-2 represents the type of DRM applied to the content distributed by the service provider B120-2. The DRM-2 described in the content service provider X127 represents the type of DRM applied to the content distributed by the content service provider X127. In the application A (DRM-1), when the application A exists in the types of DRM supported by the security management information processing unit 333 acquired from the application engine 321, the application A performs specific processing. It represents that. The same contents are described in FIGS. 5B to 5H.

The broadcast signal receiving device 140 receives MMT-SI such as an application service descriptor and MH-AIT, which are application control information sent from the broadcast signal transmitting device A100 as a data content service (S501). As a result of analyzing the received control information, the broadcast signal receiving device 140 acquires the application data of the application A (DRM-1) from the service provider A120 by communication via the network 180 (S502-2).
The broadcast signal receiving device 140 operates the application A (DRM-1) acquired in S502-2 together with the application engine 321 of FIG. In the process of operation, the application A (DRM-1) obtains information on the DRM types (DRM-1, DRM-2, DRM-3) supported by the security management information processing unit 333 of FIG. 3 from the application engine 321. get. The application A (DRM-1) determines whether or not the type of DRM for performing the specific process exists in the acquired information, and if so, performs the specific process.

Specifically, in application A (DRM-1), does DRM-1, which is a type of DRM for performing specific processing, exist among the types of DRM supported by the acquired security management information processing unit 333? Is judged. Since DRM-1 exists among the types of DRM supported by the security management information processing unit 333, the application A (DRM-1) is a content to which, for example, a DRM of the type DRM-1 is applied as a specific process. Access the service provider A120 that distributes the content and acquire the content (S503-2).

FIG. 5B is a diagram showing another example of how the broadcast signal receiving device 140 receives distribution of video or audio content when application data is acquired by the type 2 data content service shown in FIG. 4B. .. The difference from FIG. 5A is that there are a plurality of applications to be added, and the added application acquires the content from the content service provider X127, which is different from the service provider A of the application provider.

The broadcast signal receiving device 140 receives an application service descriptor and MMT-SI such as MH-AIT, which are application control information sent from the broadcast signal transmitting device A100 as a data content service (S511). As a result of analyzing the received control information, the broadcast signal receiving device 140 acquires the application data of the application B-1 (DRM-2) from the service provider A120 by communication via the network 180 (S512-21). The application data of the application B-2 (DRM-4) is acquired from the service provider B120-2 by communication via the network 180 (S512-22).

The broadcast signal receiving device 140 operates the application B-1 (DRM-2) acquired in S512-21 and the application B-2 (DRM-4) acquired in S512-22 together with the application engine 321 of FIG. In the process of operating the application B-1 (DRM-2) and the application B-2 (DRM-4), the types of DRM supported by the security management information processing unit 333 of FIG. 3 (DRM-1, DRM-2, The information of DRM-3) is acquired from the application engine 321. Application B-1 (DRM-2) and application B-2 (DRM-4) determine whether or not the type of DRM for performing the specific processing exists in the acquired information, and exist. If so, perform specific processing.

Specifically, application B-1 (DRM-2) includes DRM-2, which is a type of DRM for performing specific processing, among the types of DRM supported by the acquired security management information processing unit 333. Determine if it is. Since DRM-2 exists among the types of DRM supported by the security management information processing unit 333, the application B-1 (DRM-2) applies, for example, a DRM of the type DRM-2 as a specific process. Access the content service provider X127 that distributes the content, and acquire the content (S513-4).

Similarly, in application B-2 (DRM-2), is DRM-4, which is a type of DRM for performing specific processing, existing among the types of DRM supported by the acquired security management information processing unit 333? Is judged. Since DRM-4 does not exist among the types of DRM supported by the security management information processing unit 333, the application B-2 (DRM-4) does not perform the specific process.

The application added to the broadcast signal receiving device 140 by the data content service in this way can determine the operation based on the information of the DRM type supported by the security management information processing unit 333, for example, the service business. It is possible to receive the distribution of video or audio content from the person A120, or to receive the distribution of the content from the content service provider X127 different from the service provider A120 that has acquired the application data.

Further, the broadcast signal receiving device 140 can acquire a plurality of applications as a data content service by analyzing the MMT-SI received from the broadcast signal transmitting device A100. In this case, the type of DRM determined when each application performs a specific process may be different. Even in such a case, each application can determine the operation based on the information of the DRM type supported by the security management information processing unit 333, so that the capabilities of the added application can be effectively utilized. This can lead to the improvement of the optimum function of the broadcast signal receiving device 140 as a whole including the added application.

FIG. 5C is a diagram showing an example of how the broadcast signal receiving device 140 receives distribution of video or audio content when application data is acquired by the type 1 data content service shown in FIG. 4A.
The broadcast signal receiving device 140 receives MMT-SI such as an application service descriptor, MH-AIT, DDMT, and DAMT, which are application control information sent from the broadcast signal transmitting device A100 as a data content service (S521). .. As a result of analyzing the received control information, the broadcast signal receiving device 140 acquires the data of the application C (DRM-1) from the broadcasting signal transmitting device A100 by the broadcast wave (S522-1).
The broadcast signal receiving device 140 operates the application C (DRM-1) acquired in S522-1 together with the application engine 321 of FIG. In the process of operation, the application C (DRM-1) obtains information on the DRM types (DRM-1, DRM-2, DRM-3) supported by the security management information processing unit 333 of FIG. 3 from the application engine 321. get. The application C (DRM-1) determines whether or not the type of DRM for performing the specific process exists in the acquired information, and if so, performs the specific process.

Specifically, in application C (DRM-1), does DRM-1, which is a type of DRM for performing specific processing, exist among the types of DRM supported by the acquired security management information processing unit 333? Is judged. Since DRM-1 exists among the types of DRM supported by the security management information processing unit 333, the application C (DRM-1) is a content to which, for example, a DRM of the type DRM-1 is applied as a specific process. Access the service provider A120 that distributes the content and acquire the content (S523-2).

There may be multiple applications sent by broadcast waves. Further, in this case, even if the types of DRM determined when each application performs the specific processing are different as in application B-1 (DRM-2) and application B-2 (DRM-4) shown in FIG. 5B. Good.

FIG. 5D is a diagram showing another example of how the broadcast signal receiving device receives the distribution of video or audio content when the application data is acquired by the type 1 data content service shown in FIG. 4A. .. The difference from FIG. 5C is that in the plurality of broadcast signal receiving devices 140 and the broadcasting signal receiving device 140-2, there are broadcasting signal receiving devices having different types of DRMs supported by the security management information processing unit. It is assumed that the security management information processing unit of the broadcast signal receiving device 140-2 supports DRM-0 type DRM.

Both the broadcast signal receiving device 140 and the broadcasting signal receiving device 140-2 include application service descriptors, MH-AIT, DDMT, DAMT, etc., which are application control information sent from the broadcast signal transmitting device A100 as a data content service. Receives MMT-SI (S531). As a result of analyzing the received control information, the broadcast signal receiving device 140 and the broadcasting signal receiving device 140-2 acquire the data of the application D (DRM-1) from the broadcasting signal transmitting device A100 by the broadcast wave (S532-1). )
The broadcast signal receiving device 140 operates the application D (DRM-1) acquired in S532-1 together with the application engine 321 of FIG. In the process of operation, the application D (DRM-1) obtains information on the DRM types (DRM-1, DRM-2, DRM-3) supported by the security management information processing unit 333 of FIG. 3 from the application engine 321. get. The application D (DRM-1) determines whether or not the type of DRM for performing the specific process exists in the acquired information, and if so, performs the specific process.

Specifically, in application D (DRM-1), does DRM-1, which is a type of DRM for performing specific processing, exist among the types of DRM supported by the acquired security management information processing unit 333? Is judged. Since DRM-1 exists among the types of DRM supported by the security management information processing unit 333, the application D (DRM-1) is a content to which, for example, a DRM of the type DRM-1 is applied as a specific process. Access the service provider A120 that distributes the content and acquire the content (S533-2).

Similarly, the broadcast signal receiving device 140-2 operates the application D (DRM-1) acquired in S532-1 together with the application engine 321 of FIG. The application D (DRM-1) acquires information on the type of DRM (DRM-0) supported by the security management information processing unit 333 of FIG. 3 in the process of operation. The application D determines whether or not the type of DRM for performing the specific process exists in the acquired information, and if it exists, performs the specific process. Specifically, in application D (DRM-1), does DRM-1, which is a type of DRM for performing specific processing, exist among the types of DRM supported by the acquired security management information processing unit 333? Is judged. Since DRM-1 does not exist among the types of DRM supported by the security management information processing unit 333, the application D (DRM-1) does not perform the specific process.

As described above, the type of DRM supported by the security management information processing unit of the broadcast signal receiving device may differ for each broadcasting signal receiving device such as the broadcasting signal receiving device 140 and the broadcasting signal receiving device 140-2.
On the other hand, when application data is added to the broadcast signal receiving device 140 by a broadcast wave, which broadcast signal receiving device 140 is supported regardless of the type of DRM supported by the security management information processing unit of the broadcasting signal receiving device 140. But it will be the same application. Therefore, the process of providing the application with the type of DRM supported by the security management information processing unit 333 of the broadcast signal receiving device 140 is a very effective process for fully utilizing the capabilities of the application.

FIG. 5E is a diagram showing another example of how the broadcast signal receiving device 140 receives distribution of video or audio content when application data is acquired by the type 2 data content service shown in FIG. 4B. ..
The difference from FIG. 5A is that the security management information processing unit 333 shown in FIG. 3 does not support the type of DRM that the added application can perform specific processing.

The broadcast signal receiving device 140 receives the application service descriptor and MMT-SI such as MH-AIT, which are application control information sent from the broadcast signal transmitting device A100 as a data content service (S541). As a result of analyzing the received control information, the broadcast signal receiving device 140 acquires the application data of the application E (DRM-4) from the service provider A120 by communication via the network 180 (S542-2).
The broadcast signal receiving device 140 operates the application E (DRM-4) acquired in S542-2 together with the application engine 321 of FIG. In the process of operation, the application E (DRM-4) obtains information on the DRM types (DRM-1, DRM-2, DRM-3) supported by the security management information processing unit 333 of FIG. 3 from the application engine 321. get. The application E (DRM-4) determines whether or not the type of DRM for performing the specific process exists in the acquired information, and if it exists, performs the specific process.

Specifically, in application E (DRM-4), does DRM-4, which is a type of DRM for performing specific processing, exist among the types of DRM supported by the acquired security management information processing unit 333? Is judged. Since DRM-4 does not exist among the types of DRM supported by the security management information processing unit 333, the application E (DRM-4) does not perform the specific process. This makes it impossible for application E (DRM-4) to receive content distribution. Even if application E (DRM-4) notifies the application engine 321 that the type of DRM for performing specific processing does not exist among the types of DRM supported by the security management information processing unit 333. Good.

FIG. 3 receives a determination result from application E (DRM-4) that the type of DRM for performing specific processing does not exist among the types of DRM supported by the security management information processing unit 333. The application engine 321 may notify the display 160 of an instruction to give a notification that the display cannot be displayed, for example, as shown in 160-1. By doing so, the viewer of the broadcast signal receiving device 140 can recognize that the added application E cannot receive the distribution of the video or audio content.

FIG. 5F is a diagram showing another example of how the broadcast signal receiving device 140 receives distribution of video or audio content when application data is acquired by the type 2 data content service shown in FIG. 4B. ..
The difference from FIG. 5A is that the added application has a plurality of types of DRM for performing specific processing. Application F (DRM-1, DRM-3) assumes that the types of DRM for performing processing are DRM-1 and DRM-3.

The broadcast signal receiving device 140 receives the application service descriptor and MMT-SI such as MH-AIT, which are application control information sent from the broadcast signal transmitting device A100 as a data content service (S551). As a result of analyzing the received control information, the broadcast signal receiving device 140 acquires the application data of the application F (DRM-1, DRM-3) from the service provider A120 by communication via the network 180 (S552-2). )
The broadcast signal receiving device 140 operates the application F (DRM-1, DRM-3) acquired in S552-2 together with the application engine 321 of FIG. The application F (DRM-1, DRM-3) provides information on the DRM types (DRM-1, DRM-2, DRM-3) supported by the security management information processing unit 333 of FIG. 3 in the process of operation. Obtained from application engine 321. The application F (DRM-1, DRM-3) determines whether or not the type of DRM for performing the specific process exists in the acquired information, and if so, performs the specific process.

Specifically, the application F (DRM-1, DRM-3) includes DRM-1, which is a type of DRM for performing specific processing, among the types of DRM supported by the acquired security management information processing unit 333. It is determined whether DRM-3 is present. Since DRM-1 and DRM-3 are among the types of DRM supported by the security management information processing unit 333, the application F (DRM-1, DRM-3) can be specified by, for example, DRM-1. Processing may be performed based on the type of. Specifically, the application F (DRM-1, DRM-3) may access, for example, the service provider A120 that distributes the content to which the DRM of the DRM-1 type is applied, and acquire the content (S553-). 2). Alternatively, application F (DRM-1, DRM-3) may perform processing based on the type of DRM-3. Specifically, even if the application F (DRM-1, DRM-3) accesses, for example, a service provider C (not shown) that distributes the content to which the DRM of the DRM-3 type is applied, and acquires the content. Good.

In this way, the broadcast signal receiving device 140 provides the application with information on the type of DRM supported by the security management information processing unit 333, thereby performing specific processing such as application F (DRM-1, DRM-3). An application that has a type of DRM for the purpose can freely decide what priority should be given to the acquired information for processing, so that the degree of freedom of processing as an application is increased and the application can be processed. You can fully demonstrate your abilities.

The example of FIG. 5F is an example in which an application having a plurality of DRM types for performing specific processing is sent from the service provider A120, but may be sent from the broadcast signal transmission device A100.
As for the application sent as a data content service, a plurality of applications may be linked with each other. For example, a certain application G-1 determines whether or not a type of DRM for performing a specific process exists, and if so, the application G-2 or, depending on the type of DRM that exists. Application G-3 may be called to perform processing of a specific operation.

FIG. 5G is an example in which the broadcast signal receiving device 140 acquires application data by the type 2 data content service shown in FIG. 4B, and the acquired plurality of applications operate in cooperation with each other.
The broadcast signal receiving device 140 receives the application service descriptor and MMT-SI such as MH-AIT, which are application control information sent from the broadcast signal transmitting device A100 as a data content service (S561). As a result of analyzing the received control information, the broadcast signal receiving device 140 applies the three application data of the application G-1, the application G-2 (DRM-1), and the application G-3 (DRM-2) to the network 180. Obtained from the service provider A120 via communication (S562-21) (S562-22) (S562-23).

The broadcast signal receiving device 140 operates the application G-1 acquired in S562-21 together with the application engine 321 of FIG. The application G-1 acquires information on the DRM types (DRM-1, DRM-2, DRM-3) supported by the security management information processing unit 333 of FIG. 3 from the application engine 321 in the process of operation. The application G-1 determines whether or not the type of DRM for performing the specific processing exists in the acquired information, and if it exists, calls the application that performs the corresponding specific processing.

Specifically, the application G-1 includes DRM-1 and DRM-2, which are DRM types for performing specific processing, among the DRM types supported by the acquired security management information processing unit 333. Judge whether or not. Since DRM-1 and DRM-2 are among the types of DRM supported by the security management information processing unit 333, the application G-1 performs, for example, a process based on the type of DRM-1 as a specific process. You may go. Specifically, the application G-1 calls the application G-2 (DRM-1) and operates the application G-1 together with the application engine 321 of FIG. 3 in order to perform a specific process based on the type of the DRM-1. The application G-2 (DRM-2) may access, for example, the service provider A120 that distributes the content to which the DRM of the DRM-1 type is applied, and acquire the content (S563-2). Alternatively, application G-1 may perform specific processing based on the type of DRM-2. In this case, the application G-1 may call the application G-2 (DRM-2) and operate it together with the application engine 321 of FIG. 3 in order to perform the specific processing based on the type of the DRM-2.

FIG. 5H is a diagram showing another example of how the broadcast signal receiving device 140 receives distribution of video or audio content when application data is acquired by the type 1 data content service shown in FIG. 4A. .. The difference from FIG. 5C is that the application corresponding to each control information is acquired based on the control information of the applications sent from the plurality of broadcast signal receiving devices.

The broadcast signal receiving device 140 receives MMT-SI such as an application service descriptor, MH-AIT, DDMT, and DAMT, which is application control information sent from the broadcast signal transmitting device A100 as a data content service (S571). Also, the application service descriptor, MH-AIT, DDMT, DAMT, and other MMT-SI, which are application control information sent from the broadcast signal transmission device B100-2 as a data content service, are received (S576). As a result of analyzing the received control information, the broadcast signal receiving device 140 transmits the application data of the application H-1 (DRM-1) corresponding to the MMT-SI acquired in S571 from the broadcast signal transmitting device A100 by the broadcast wave. The application data of the application H-2 (DRM-4) corresponding to the acquired (S572-1) and the MMT-SI acquired in S576 is acquired from the broadcast signal transmitter B100-2 by the broadcast wave (S577-1). ).

The broadcast signal receiving device 140 operates the application H-1 (DRM-1) acquired in S572-1 and the application H-2 (DRM-2) acquired in S577-1 together with the application engine 321 of FIG. In the process of operating the application H-1 (DRM-1) and the application H-2 (DRM-2), the types of DRM supported by the security management information processing unit 333 of FIG. 3 (DRM-1, DRM-2, Acquire the information of DRM-3). The application H-1 (DRM-1) and the application H-2 (DRM-2) determine whether or not the type of DRM for performing the specific processing exists in the acquired information, and exist. If so, perform specific processing.

Specifically, in the application H-1 (DRM-1), among the types of DRM supported by the acquired security management information processing unit 333, DRM-1 which is a type of DRM for performing specific processing exists. Determine if it is. Since DRM-1 exists among the types of DRM supported by the security management information processing unit 333, the application H-1 (DRM-1) applies, for example, a DRM of the type DRM-1 as a specific process. Access the service provider A120 that distributes the content, and acquire the content (S573-2).

Similarly, in the application H-2 (DRM-2), is DRM-2, which is a type of DRM for performing specific processing, existing among the types of DRM supported by the acquired security management information processing unit 333? Is judged. Since DRM-2 exists among the types of DRM supported by the security management information processing unit 333, the application H-2 (DRM-2) applies, for example, a DRM of the type DRM-2 as a specific process. Access the content service provider X127 that distributes the content, and acquire the content (S578-4).

In the example of the sequence of FIG. 5H, for example, it is assumed that the broadcast signal receiving device 140 receives a plurality of programs by using a plurality of tuners. In this way, the process of providing the application with the type of DRM supported by the security management information processing unit 333 of the broadcast signal receiving device 140 is applied to each application even if there are a plurality of applications operating together with the application engine 321. It is possible to provide the application with the type of DRM it supports.

FIG. 5I shows an example of how the broadcast signal receiving device 140 receives the distribution of video or audio content when there is no processing for providing the application with the type of DRM supported by the security management information processing unit 333. Is. In this case, the application I is installed in the broadcast signal receiving device 140 in advance, for example.

The application I accesses a predetermined service provider that distributes the content to which the DRM of the DRM type supported by the security management information processing unit 333 is applied, and acquires the video or audio content. In the example of FIG. 5I, the application I previously installed in the broadcast signal receiving device 140 accesses the predetermined service provider A120 to acquire the content to which the DRM of the DRM-1 type is applied (S583-). 2) This is an example.

The broadcast signal receiving device of this embodiment has a terminal cooperation function 144. In the example of FIG. 5E, the DRM-4 required to receive the content distribution from the service provider B120-2 does not exist among the types of DRM supported by the security management information processing unit 333, so the application E (DRM) is shown. -4) cannot receive the content distribution from the service provider B120-2. However, if the broadcast signal receiving device 140 of the present embodiment does not support the type of DRM required to receive the distribution of the content, the mobile terminal supporting the type of DRM required to receive the distribution of the content. By linking with the terminal link function, the delivered content can be transmitted to the linked mobile terminal to make it playable. In this way, the broadcast signal receiving device 140 can reproduce the distributed content by using the support range of the DRM type of the connected mobile terminal by using the terminal cooperation function.

The function of providing the application with the types of DRM supported by the security management information processing unit 333 of the broadcast signal receiving device 140 may be configured by extending the Capabilities object specified in, for example, Non-Patent Document 2 and Non-Patent Document 3. Good.
FIG. 6 is an example in which the Capabilities object is extended in order to configure a function of providing the application with the types of DRM supported by the security management information processing unit 333 of the broadcast signal receiving device 140.

For example, by adding Content Protection to parm1 of query = Video Element, a function to provide the types of security management information supported by the broadcast signal receiving device 140 is added. pram2 represents the type of security management information, and param3 represents the version of the security management information shown in pram2. In this way, by arbitrarily adding a combination of param2, which is a type of security management information, and pram3, which is a param2 version, it is possible to expand the function of providing security management information supported by the broadcast signal receiving device 140. is there.

FIG. 7 is a diagram showing an example of a processing flow when the function of providing the type of DRM supported by the security management information processing unit 333 shown in FIG. 6 to the application is used. The processing flow when the application E shown in FIG. 5E acquires the type of DRM supported by the security management information processing unit 333 is shown.

The application E starts the support type acquisition process E in order to acquire the DRM type supported by the security management information processing unit 333 (S700). The application E determines whether the security management information processing unit 333 supports the D1 system (S701). Specifically, the application E sets Video Element in the hasCapability query of the Capabilities object, Content Protection in parm1, D1 in parm2, and D2 in parm3, calls them, and determines by looking at the return value.

If the result of the determination is supported (S701 is Yes, the return value is true), the application E recognizes that the broadcast signal receiving device 140 supports the D1 system (DRM-4) (S702). The application E executes the specific process E (S703). The specific process E may be, for example, a process of accessing the service provider B120-2 that distributes the content to which the DRM of the DRM-4 type is applied and acquiring the content.

If the result of the determination is not supported (S701 is No, the return value is false), the application E recognizes that the broadcast signal receiving device 140 does not support the D1 system (DRM-4) (S705). In application E, the type of DRM for performing specific processing does not exist in the types of DRM supported by the security management information processing unit 333, so "the receiving device does not support the service of application E". The application engine 321 may be instructed (S706) to display the fact on the display screen 160.

In the broadcast signal receiving device 140 shown in FIG. 5E, since the application E determines No in the determination process of S701, the processes of S705 and S706 are performed as the subsequent processes, and the support type acquisition process E is terminated (S704).
FIG. 8A is a diagram showing another example of the processing flow when the function is used to provide the application with the type of DRM supported by the security management information processing unit 333 shown in FIG. The processing flow when the application F shown in FIG. 5F acquires the type of DRM supported by the security management information processing unit 333 is shown.

The application F starts the support type acquisition process F-1 in order to acquire the DRM type supported by the security management information processing unit 333 (S800). The application F determines whether the security management information processing unit 333 supports the A1 system. Specifically, the application F sets Video Element in the hasCapability query of the Capabilities object, Content Protection in parm1, A1 in parm2, and A2 in parm3, calls them, and determines by looking at the return value.

If the result of the determination is supported (S801 is Yes, the return value is true), the application F recognizes that the broadcast signal receiving device 140 supports the A1 system (DRM-1) (S802). The application F executes the specific process F-1 (S803). The specific process F-1 may be, for example, a process of accessing the service provider A120-1 that distributes the content to which the DRM of the DRM-1 type is applied and acquiring the content.

If the result of the determination is not supported (No in S801, the return value is false), the application F further determines whether the security management information processing unit 333 supports the C1 system (S805). Specifically, the application F sets Video Element in the hasCapability query of the Capabilities object, Content Protection in parm1, and C1 in parm2, calls them, and determines by looking at the return value.

If the result of the determination is supported (S805 is Yes, the return value is true), the application F recognizes that the broadcast signal receiving device 140 supports the C1 system (DRM-3) (S806). The application F executes the specific process F-2 (S807). The specific process F-2 may be, for example, a process of accessing a service provider C (not shown) that distributes content to which DRM of the type DRM-3 is applied and acquiring the content.

If the result of the determination is not supported (S805 is No, the return value is false), the application F states that the broadcast signal receiver 140 does not support the A1 system (DRM-1) and the C1 system (DRM-3). Recognize (S808). In application F, the type of DRM for performing specific processing does not exist in the types of DRM supported by the security management information processing unit 333, so "the receiving device does not support the service of application F". The application engine 321 may be instructed (S809) to display the fact on the display screen 160.

In the broadcast signal receiving device 140 shown in FIG. 5F, since the application F determines Yes in the determination process of S801, the processes of S802 and S803 are performed as the subsequent processes, and the support type acquisition process F is terminated (S804). ..
An example of the processing of FIG. 8A is a case where the application F determines the type of DRM supported by the security management information processing unit 333 in the order of A1 system (DRM-1) and C1 system (DRM-3). The order of determination can be arbitrarily changed by the application F.

FIG. 8B shows an example of a processing flow when the application F determines the type of DRM supported by the security management information processing unit 333 in the order of the C1 system (DRM-3) and the A1 system (DRM-1). It is a figure. The only difference from FIG. 8A is that the order of determining the types of DRM supported by the security management information processing unit 333 is changed.

In this way, the order of determining the types of DRM supported by the security management information processing unit 333 can be freely changed by the application creator, so that the degree of freedom of processing as an application is increased and the ability of the application is enhanced. It can be fully demonstrated.

FIG. 8C is a diagram showing an example of a processing flow showing an example of the specific processing. It is a figure which showed the processing flow of the specific processing F-1 of the application F shown in FIG. 8A. The application F starts the specific process F-1 by the process of S803 of FIG. 8A (S840).
The application F determines whether the display screen 160 of the broadcast signal receiving device 140 has the ability to reproduce content having a resolution of 8K, 4K, or 2K.

The application F first determines whether or not the content having a resolution of 8K can be reproduced on the display screen 160 of the broadcast signal receiving device 140 (S841). To determine whether content with a resolution of 8K can be played on the display screen 160 of the broadcast signal receiver 140, for example, Video Element is used for the hasCapability query of the Capabilities object, MPEG-DASH is used for parm1, and 8K is used for parm2. It may be determined by setting it, calling it, and looking at its return value.

When the result of the determination is reproducible (Yes in S841, the return value is true), the application F recognizes that the broadcast signal receiving device 140 can reproduce the content having a resolution of 8K, and the broadcasting signal receiving device 140 reproduces the content. The service provider A120 is requested to deliver the content having a possible resolution of 8K (S846).

If the result of the determination is not playable (No in S841, the return value is false), the application F determines whether or not the content having a resolution of 4K can be played on the display screen 160 of the broadcast signal receiving device 140 (S843). ). To determine whether content with 4K resolution can be played on the display screen 160 of the broadcast signal receiver 140, for example, use Video Element for the hasCapability query of the Capabilities object, MPEG-DASH for parm1, and 4K for parm2. It may be determined by setting, calling, and looking at the return value.

When the determination can be played back (Yes in S843, the return value is true), the application F recognizes that the display screen 160 of the broadcast signal receiving device 140 can play the content having a resolution of 4K, and the broadcast signal. The service provider A120 is requested to deliver the content having a resolution of 4K that can be reproduced by the receiving device 140 (S846).

If it is not possible to indicate the result of the determination (No in S843, the return value is false), the application application F recognizes that the broadcast signal receiving device 140 can reproduce the content having a resolution of 2K, and the broadcasting signal receiving device 140 recognizes that the content has a resolution of 2K. The service provider A120 is requested to distribute the content having a reproducible 2K resolution (S846).

As a result, the application F can acquire the content having a resolution that can be displayed on the broadcast signal receiving device 140 among the contents to which the DRM type supported by the security management information processing unit 333 is applied.
Although some embodiments of the present invention have been described, these embodiments are presented as examples and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other embodiments, and various omissions, replacements, and changes can be made without departing from the gist of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are also included in the scope of the invention described in the claims and the equivalent scope thereof. Furthermore, in each of the constituent elements of the claim, even if the constituent elements are divided and expressed, a plurality of the constituent elements are expressed together, or a combination thereof is expressed, it is within the scope of the present invention. Further, a plurality of embodiments may be combined, and examples composed of these combinations are also within the scope of the invention.

In addition, the drawings may be represented schematically as compared with actual embodiments in order to clarify the description, but the drawings are merely examples and do not limit the interpretation of the present invention. Further, in the present specification and each figure, components exhibiting the same or similar functions as those described above with respect to the above-mentioned figures may be designated by the same reference numerals, and duplicate detailed description may be omitted as appropriate. .. Further, the apparatus of the present invention is applied even when the claim is expressed as a control logic, when it is expressed as a program including an instruction for executing a computer, and when it is expressed as a computer-readable recording medium in which the instruction is described. is there. Further, the names and terms used are not limited, and other expressions are included in the present invention as long as they have substantially the same contents and the same purpose.

100 ... Broadcast signal transmission device A, 101 ... Broadcast program server, 102 ... Broadcast signal transmission basic function, 103 ... Application data management unit, 120 ... Service provider A, 140 ... Broadcast signal receiver, 141 ... Broadcast signal reception basic function, 142 ... Communication control function, 143 ... Application control function, 144 ... Terminal cooperation function, 321 ... Application engine, 333 ... Security Management Information Processing Department.

Claims (3)

Analysis of analyzing a transmission control signal separated from a broadcast signal that receives a broadcast wave that broadcasts a program, and acquiring control information about application data that is an application that is added to the program and performs specific processing from the transmission control signal. Department and
An application control unit that identifies the location of application data existing in the broadcast signal based on the control information.
An application data reception processing unit that receives application data at a location specified by the application control unit from the broadcast signal, and an application data reception processing unit.
An application engine that manages an application consisting of application data received by the application data reception processing unit, and an application engine.
Content reception processing unit that acquires content by communication, and
Of the plurality of types of security management information that support the protection of the content according to the type, the security management information processing unit that applies the security management information that supports the type of the content to the content acquired by the communication, and the security management information processing unit.
Equipped with
The application engine provides the application with information on the type of security management information supported by the security management information processing unit.
In the application, when the type for performing the specific process exists in the information of the type of security management information provided by the application engine, the content to which the security management information of the type is applied. A broadcast signal receiver that determines the delivery destination. A transmission control signal separated from a broadcast signal that receives a broadcast wave that broadcasts a program is analyzed, and control information related to application data that is an application that performs specific processing added to the program is acquired from the transmission control signal.
Based on the control information, the location of the application data existing in the broadcast signal is specified, and the location is determined.
The application data of the specified location is received from the broadcast signal, and the application data is received.
Manages the application consisting of the received application data,
Acquire content by communication,
A broadcast signal receiving method that applies security management information that supports the type of content to the content acquired by the communication among a plurality of types of security management information that supports the protection of the content according to the type.
Provide information to the application of the type of security management information it supports and
The application distributes the content to which the security management information of the type is applied when the type for performing the specific process exists among the types of the security management information provided. Broadcast signal reception method that determines the delivery destination. In a broadcast signal transmission / reception method for transmitting / receiving a broadcast signal including a program, application data that is an application that is added to the program and performs specific processing, and a transmission control signal including control information related to the application data as a broadcast wave.
On the transmitting side, the location of the application data included in the broadcast signal is set in the control information.
On the receiving side
The transmission control signal is separated from the broadcast signal acquired by receiving the broadcast wave, the transmission control signal is analyzed, and the control information is acquired.
Based on the control information, the location of the application data included in the broadcast signal is specified, and the location is determined.
The application data of the location specified from the broadcast signal is received, and the application data is received.
Manages the application consisting of the received application data,
Acquire content by communication,
Of the plurality of types of security management information that support the protection of the content for each type, the security management information that supports the type of the content shall be applied to the content acquired by the communication.
Provide information to the application of the type of security management information it supports and
When the type of the security management information provided includes the type for performing the specific process, the application determines the delivery destination of the content to which the security management information of the type is applied. , Broadcast signal transmission / reception method.

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