JP6972280B2 - Broadcast signal transmitter / receiver - Google Patents

Description

An embodiment of the present invention relates to a broadcast signal transmission / reception device.

Multimedia services in advanced BS digital broadcasting and advanced wideband CS digital broadcasting are a general term for subtitle services, character super services, and data content services, and the provisions of Non-Patent Document 1 and Non-Patent Document 2 and the operation of Non-Patent Document 3 It is done according to the regulations.

The data content service, which is one of the multimedia services, is a service that provides an application function by HTML or the like, which is asynchronous with the broadcast program, and is a case where the application data constituting the application function is transmitted by using a broadcast wave. It is divided into two types: a type that includes and a type that does not include the case of transmitting using broadcast waves.

For types including the case of transmitting application data using broadcast waves, the transmission method is specified in Non-Patent Document 1 as the application transmission method, and the operation method is specified in Non-Patent Document 3 as the operation of the data transmission method. ing.

In the application transmission method specified in Non-Patent Document 1, the data constituting the application is encapsulated in an asynchronous MPU (Media Processing Unit) for each file and transmitted, and the control information of the data constituting the application is transmitted. , MH-AIT (MPEG-H Application Information Table), data transmission messages are used for transmission.

"Media Transport Method Standard by MMT in Digital Broadcasting" ARIB STD-B60 1.10 Edition Revised on July 27, 2017, Association of Radio Industries and Businesses "Multimedia Encoding Method (2nd Generation) Standard for Digital Broadcasting" ARIB STD-B62 1.7th Edition Revised on July 27, 2017, Association of Radio Industries and Businesses "Technical Data for Advanced Broadband Satellite Digital Broadcasting Operation Regulations" ARIB TR-B39 1.5 Edition Revised on October 17, 2017, Association of Radio Industries and Businesses

When the broadcast signal receiver activates the data content service, for example, the path described in the URL_base_byte of the MH-transmission protocol descriptor included in the MH-AIT and the initial_path_byte of the MH-simple application location descriptor included in the MH-AIT. Based on the information, receive the files required to start the service. In addition, unreceived files that are appropriately referenced by the application while the application is running are received by referring to the path information included in the data transmission message.

However, the rules regarding the path information included in the MH-AIT and the data transmission message are not restricted except that the end of the character string of the path information ends with "/". For this reason, when processing the data content service, there is a problem that the analysis of the path for receiving the necessary file may be complicated, and in some cases, the analysis of the path cannot be performed correctly. rice field.

Therefore, an object of the present embodiment is to provide a broadcast signal transmission / reception device that easily processes the reception of a necessary application data file by setting a limit on the path information when performing a data content service.

In an embodiment of the present invention, a transmission device that broadcasts a broadcast program and application data that realizes an application function added to the broadcast program by a broadcast signal, and the broadcast program and the application data included in the received broadcast signal. In a broadcast signal transmitter / receiver consisting of a receiver that displays and on the display
The transmitter is
The application data generation unit that generates the application data file, and
A control signal generation unit that generates control information including a base_directory_path for acquiring a file when the file generated by the application data generation unit is transmitted by the broadcast signal, a directory_node_path continuing to the base_directory_path, and a file name.
A multiplexing unit that generates a multiplexed stream by multiplexing video data and audio data constituting the broadcast program, the application data generated by the application data generation unit, and the control information generated by the control signal generation unit. ,
A transmitter that transmits the multiplexed stream and
Have,
When the application data generation unit generates the files, any two base_directory_paths are prefix-matched and one path is the other with respect to the path in the directory configuration in which the plurality of files are arranged when the plurality of files are generated. Determine the path to prohibit settings that make up part of the path,
Any two directory_node_paths having the same base_directory_path have a means of determining the path so that it is prefix-matched and prohibits settings such that one path constitutes part of the other path.
The control signal generation unit has means for arranging the determined base_directory_path, the directory_node_path, and the file name in the control information.
The receiving device is
A separation unit that separates the received multiplexed stream into the video data, the audio data, the application data, and the control information.
A file processing unit that obtains the file of the application data based on the base_directory_path, the directory_node_path, and the file name extracted from the control information separated by the separation unit.
A broadcast signal transmission / reception device having the above is provided.

FIG. 1 is a diagram showing a configuration example of an entire system including a broadcast signal transmitting device (also referred to as a broadcasting station), a broadcasting signal receiving device (also referred to as a television receiving device), and a service provider device according to the present embodiment. FIG. 2 is a diagram schematically showing the configuration of the first basic function of the broadcasting station of FIG. 1. FIG. 3 is a diagram schematically showing the configuration of a television receiver. FIG. 4 is a diagram showing an outline of transmission of a broadcast signal of a broadcasting station when performing a data content service. FIG. 5A shows a processing flow in which the broadcast signal transmitting device 100 determines the directory configuration of the files constituting the application data when transmitting the application data, and sets a value in the DDMT based on the determined directory configuration. Is. FIG. 5B shows a processing flow for activating the data content service when the broadcast signal receiving device receives the broadcast program and the data content service is added. FIG. 6 shows an example in which base_directory_path, directory_node_path, and file_name are set when two DDMTs, DDMT1 and DDMT2, are transmitted in a certain session. FIG. 7 is an example in which the combination of base_directory_path, directory_node_path, and file_name of DDMT is d1 / d2 / d3 / f1.

Hereinafter, embodiments will be described with reference to the drawings.

FIG. 1 is a diagram showing a configuration example of an entire system including a broadcast signal transmitting device (also referred to as a broadcasting station) 100, a broadcasting signal receiving device (also referred to as a television receiving device) 140, and a service provider device 120 according to the present embodiment. Is.

The broadcast signal transmission device 100 includes a broadcast program server 101, a first application management / distribution unit 102, a first application server 103, and a first basic function 104.

The first basic function 104 is a basic function of the broadcasting station 100, and has a function of encoding (also referred to as encoding) a video signal, an audio signal, or the like of a broadcast program, multiplexing the video signal, and transmitting the signal as a broadcast signal. ..

The broadcast program server 101 is an area for storing programs, program titles, program IDs, program outlines, performer names, broadcast dates and times, and other data to be broadcast as the broadcast station 100 in advance.

Further, the broadcasting station 100 can add a data content service that simultaneously provides an application function such as HTML by a broadcast wave to a program to be broadcast. In this case, the broadcasting station 100 can arrange the first designated information indicating that the application function is added to the program to be broadcast in the transmission control signal and transmit it as a broadcasting signal by the first basic function 104. .. The first designated information is, for example, an application service descriptor arranged in an MPT (MMT Package Table) described in Non-Patent Document 1.

The first application management / distribution unit 102 manages the data stored in the first application server 103, which is necessary for adding the application function to the broadcast program. The first application management / distribution unit 102 also distributes the managed application function to the broadcast signal receiving device 140.

The first application server 103 is an area for storing data for adding an application function to a broadcast program in advance.

The service provider device 120 can add a service that simultaneously provides an application function such as HTML to a program broadcast by the broadcasting station 100 via the network 180 in cooperation with the broadcasting station 100.

The service provider device 120 includes a second application management / distribution unit 121 and a second application server 122.

The second application management / distribution unit 121 manages the contents and applications stored in the second application server 122 and distributes them to the television receiving device 140.

The second application server 122 is an area for storing contents and applications provided to the television receiving device 140.

The service provider device 120 manages and distributes applications and contents stored in the second application server 122 in response to a request from the television receiving device 140 that has received the first designated information. The unit 121 transmits the information to the television receiving device 140 via a network 180 such as the Internet.

The television receiving device 140 includes a digital broadcast receiving function (second basic function 141), a communication control unit 142, and an application control unit (also referred to as a file processing unit) 143. Further, the television receiving device 140 can acquire an application from the service provider device 120 via the network 180 and operate it.

The second basic function 141 is a basic function as a television receiver, which receives a broadcast wave sent from a broadcast station 100 and contains a coded video signal (also referred to as a video stream) included in the broadcast wave. (Call), coded audio signal (also called audio stream), application data and transmission control signal are separated, video signal and audio signal are decoded, application data is received, transmission control signal is analyzed. Has a function to do.

The second basic function 141 includes peripheral devices connected to the television receiver 140, such as a display 160, a speaker 161 and an HDD (Hrad Disk Drive) 162 bound to the television receiver 140, and removable media. It also manages the connection with 170 and the transmission and reception of data.

The communication control unit 142 controls the transmission / reception of data when the television receiving device 140 communicates with the service provider device 120 via the network 180.

The application control unit 143 manages and controls control information such as MH-AIT and data transmission messages sent from the broadcasting station 100 by the application transmission method. The application control unit 143 also accesses the cache data unit 309 and acquires a file necessary for performing the data content service from the cached data.

The display 160 has a built-in speaker 161 and displays the video signal decoded by the second 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.

In the example of FIG. 1, the display 160 is described as a separate body from the television receiving device 140, but may be integrated with the television receiving device 140 as one function of the television receiving device 140.

FIG. 2 is a diagram schematically showing the configuration of the first basic function 104 of the broadcasting station 100 of FIG. 1. The first basic function 104 includes a video encoder 201, an audio encoder 202, a subtitle encoder 203, an application data generation unit 204, and a transmission control signal generation unit 205 for generating a transmission control signal.

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

The voice encoder 202 encodes the voice of the program A read from the broadcast program server 101 as a program to be broadcast from now on.

The subtitle encoder 203 encodes the subtitle of the program A read from the broadcast program server 101 as a program to be broadcast from now on.

The application data generation unit 204 generates application data constituting this application function when a service for simultaneously providing an application function such as HTML is added to the program A read from the broadcast program server 101 as a program to be broadcast from now on. The application data is composed of a plurality of files, and the application data generation unit 204 determines the directory structure of each file in order to transmit these files by a broadcast signal.

The transmission control signal generation unit 205 includes control information regarding the configuration of a broadcast wave composed of a video stream, an audio stream, a transmission control signal, and the like included in the broadcast wave broadcast by the broadcast station 100, and the program name and broadcast of the program to be broadcast. Generates control information about the broadcast program including time and the like. The transmission control signal generation unit 205 also generates control information regarding the application data generated by the application data generation unit 204. The control information of the application data generated by the transmission control signal generation unit 205 will be described with reference to FIG.

The scrambler 206 scrambles the output of the video encoder 201, the output of the audio encoder 202, the output of the subtitle encoder 203, and the output of the application data generation unit 204, respectively, as necessary.

The output of the transmission control signal generation unit 205 and the video, audio, subtitles, and application data scrambled as needed by the scrambler 206 are multiplexed by the multiplexing unit 207 and transmitted to the transmitter 208 as a multiplexing stream. , It is transmitted from the antenna by the broadcast wave by the transmitter 208. As the multiplexing method when the multiplexing unit 207 multiplexes, the method of MMT (Mpeg Media Transport) shall be used.

FIG. 3 is a diagram schematically showing the configuration of the television receiving device 140. The television receiving device 140 includes a second basic function 141, which is a function of receiving broadcast waves, a communication control unit 142, and an application control unit 143. The television receiver 140 is also connected to the display 160. The display 160 has a built-in speaker 161.

The second basic function 141 includes a broadcast tuner 301, a demultiplexer 302, a descrambler 304, a video decoder 306, an audio decoder 307, a subtitle decoder 308, a cache data unit 309, and a transmission control signal analysis unit 310.

The broadcast tuner 301 demodulates the stream (broadcast signal) sent by the broadcast wave. The demodulated stream (broadcast signal) is input to the demultiplexer 302. The demultiplexer 302 separates the input multiplexed stream into a video stream, an audio stream, a subtitle stream, application data, and a transmission control signal, and the video stream, the audio stream, the subtitle stream, and the application data are transferred to the descrambler 304. It is input and the transmission control signal is input to the transmission control signal analysis unit 310.

The descrambler 304 descrambles each stream as necessary, and converts the video stream into the video decoder 306, the audio stream into the audio decoder 307, the subtitle stream into the subtitle decoder 308, and the application data into the cache data unit 309. Enter each.

The video stream is decoded by the video decoder 306, the audio stream is decoded by the audio decoder 307, and the subtitle stream is decoded by the subtitle decoder 308.

The transmission control signal analysis unit 310 analyzes various control information included in the transmission control signal. The transmission control signal analysis unit 310 also sends MH-AIT, data transmission message, etc., which are control information related to application data, among the analyzed transmission control signals, to the application control unit 143 for further analysis.

The application control unit 143 manages and controls control information such as MH-AIT and data transmission messages, which are control information related to application data sent from the transmission control signal analysis unit 310.

Further, the application control unit 143 controls the screen display of data broadcasting by controlling the browser 311 using the cached data stored in the cache data unit 309. Further, the browser 311 generates the screen superimposed data of the subtitles from the output data of the subtitle decoder 308.

The decoded video signal, subtitles, and display contents of the data broadcast are combined by the synthesizer 326 and output to the display 160.

Further, the audio data decoded by the audio decoder 307 is output to the speaker 161 built in the display 160.

The codec type of the video decoder 306 is H.I. 265, but not limited to this, MPEG-2, H.M. Any of 264 may be used. The codec type is not limited to this.

The communication control unit 142 has a network I / F 341 that is an I / F with the communication network 180 and a remote controller I / F 342 that is an I / F with the remote controller (remote controller) 352.

The communication control unit 142 can be connected to the service provider device 120 via the network 180 via the network I / F 341. The communication control unit 142 can acquire the applications and contents managed by the service provider device 120 via the network 180. The acquired application or content is sent from the communication control unit 142 to the browser 311 and used for display or the like.

FIG. 4 is a diagram showing an outline of transmission of a broadcast signal of a broadcasting station when performing a data content service.

When a data content service is added to a program B composed of a video component 401, an audio component 402, and a subtitle component 403, the transmission control signal generation unit 205 of the broadcasting station 100 generates an MPT 410 in which an application service descriptor is arranged and a transmission control signal. Send as.

Further, the transmission control signal generation unit 205 of the broadcasting station 100 generates and transmits the MH-AIT 420 in which the entry file of the application of the data content service added to the broadcasting program B is set.

Further, the transmission control signal generation unit 205 generates and transmits control information necessary for transmitting application data for performing a data content service.

The control information required for transmitting this application data includes DDMT (Data Directory Management Table) 421 having path information and MPU to which application data is sent in the directory structure of the files constituting the application data. Includes DAMT (Data Asset Management Table) 422 and DCCT (Data Content Configuration Table) 423 with information on PU (Presentation Unit) units of application data.

Further, the application data generation unit 204 of the broadcasting station 100 cooperates with the transmission control signal generation unit 205 to encapsulate the application data read from the application management / distribution unit 102 in the asynchronous MPU 430 and 431 and transmit the data.

Application data consists of multiple files. The application data generation unit 204 determines the directory structure of each file in order to transmit the application data by the broadcast signal. The path information in the directory structure of the files constituting the application data is transmitted to the television receiving device 140 by the DDMT421 shown above. Some application data may also refer to other application data. In this case, the URL (Uniform Resource Locator) of other application data to be further referred to is described in the application data.

In this way, the path information for accessing the file in the data content service is described in the entry file information set in the MH-AIT420 and the URL set in the application data, and is described in the television receiver 140. However, the path information in the directory structure of these files is set in the DDMT 421 and transmitted to the television receiver 140 as described above.

When the television receiving device 140 activates the data broadcasting by the received MH-AIT420 or recognizes the contents of the URL from the received application data, the television receiving device 140 receives a necessary file based on the information set in the DDMT 421, and receives the necessary file. Access the received file and run the data content service.

An entry file is set in the MH-AIT 420, and application data to be accessed by the television receiver 140 based on the entry file is transmitted via a communication control unit 142 in addition to being transmitted as a broadcast signal. It may be the application data 440 connected by the network 180, for example, managed by the service provider device 120. In this case, the URL on the Internet is specified as the information of the entry file.

Non-Patent Document 3 stipulates that the URL for referring to the application data transmitted by broadcasting is in the following format. <base_url><base_directory_path><directory_node_path><file_name><base_directory_path>: Base directory path described in DDMT <directory_node_path>: Directory node path described in DDMT <file_name>: File name described in DDMT Here , <base_directory_path> and <directory_node_path> specify that the end of the character string ends with "/", but it is not prohibited to put "/" in the middle of the character string. Therefore, the directory hierarchy in which the files are placed is not necessarily two layers, but can be a deeper directory hierarchy.

Therefore, the broadcast signal transmission device 100 of the present embodiment further imposes the following restrictions on the path in the directory structure of the files constituting the application data. (Restriction 1) In any two paths of base_directory_path, it is prohibited to set a prefix match and one path constitutes a part of the other path. (Restriction 2) When the base_directory_path is the same, it is prohibited to set the prefix match and one path constitutes the part of the other path in any two paths of the continuing directory_node_path.

This limit may be, for example, a limit for each data transmission session. As described in Non-Patent Document 3, the data transmission session is a period in which the application data structure and the directory structure constituting the data content service are the same.

In FIG. 5A, when the broadcast signal transmission device 100 transmits application data, the directory configuration of the files constituting the application data is determined based on the above restrictions 1 and 2, and the directory configuration is based on the determined directory configuration. The processing flow for setting a value in DDMT421 is shown.

The application data generation unit 204 reads the application data to be transmitted to the television receiving device 140 from the application management / distribution unit 102 (S501). The application data is composed of a plurality of files, and the application data generation unit 204 determines a directory structure for transmitting the plurality of files of the read application data by a broadcast signal (S502). When determining the directory constituting the application data, the application data generation unit 204 determines the directory structure based on the restrictions 1 and 2, and generates an index_item for sending the list of file_name as a part of the application data. ..

When the application data generation unit 204 determines the directory configuration (S502), the transmission control signal generation unit 205 sets the base_directory_path, directory_node_path, and file_name of the DDMT421 based on the determined directory configuration information (S503) and performs processing. Finish (S504). However, file_name is not set in the directory node referenced in the MPU node descriptor in DAMT422.

Further, the transmission control signal generation unit 205 sets the entry file information of the application of the data content service in the MH-AIT 420. In this case, the transmission control signal generation unit 205 sets the contents of the base_directory_path set in the DDMT421 to the URL_base of the MH-transmission protocol descriptor included in the MH-AIT420, and the contents of the directory_node_path and file_name set in the DDMT421 to the MH-AIT420. Set in the initial_path of the MH-simple application location descriptor included in.

FIG. 5B shows a processing flow for activating the data content service when the broadcast signal receiving device 140 receives the broadcast program and the data content service is added.

When the transmission control signal analysis unit 310 of the broadcast signal receiving device 140 receives the MPT 410 as the transmission control signal as described above, the data content service activation process is started (S510).

The transmission control signal analysis unit 310 confirms whether the application service descriptor is arranged in the received MPT 410 (S511).

When the transmission control signal analysis unit 310 recognizes that the application service descriptor is arranged in the MPT 410 as a result of confirmation (Yes in S512), the data content service is added to the received broadcast wave program. Judge.

After confirming that the application service descriptor is arranged in the MPT 410, the transmission control signal analysis unit 310 waits for the MH-AIT 420 to be subsequently sent as the transmission control signal.

When the transmission control signal analysis unit 310 receives the MH-AIT420 (S513), the URL_base and MH- of the MH-transmission protocol descriptor, which is the entry file information of the initial startup application in which the application_control_code of the MH-AIT420 is set to AUTOSTART. The initial_path of the simple application location descriptor is fetched (S514) and notified to the application control unit 143. As described above, the URL_base of the MH-transmission protocol descriptor contains the base_directory_path set in DDMT421, and the initial_path of the MH-simple application location descriptor contains the directory_node_path and file_name set in DDMT421. It is set.

The transmission control signal analysis unit 310 confirms whether the initial startup application is sent by the broadcast wave (S515), and if it is sent by the broadcast wave (Yes of S516), the DDMT421 and DAMT422 are sent. wait.

When the transmission control signal analysis unit 310 receives the DDMT421 and DAMT422 (S517), the transmission control signal analysis unit 310 searches the DDMT421 for the entry file information, and identifies the MPU corresponding to the entry file information with reference to the DAMT422. Further, the location information of the asset corresponding to the component_tag is fetched by referring to the MH-stream identification descriptor included in the MPT 410, set in the demultiplexer 302 together with the MPU_sequence_number, and waits for the application data to be received.

When the transmission control signal analysis unit 310 receives the application data (S518), the transmission control signal analysis unit 310 notifies the application control unit 143.

Upon receiving this notification, the application control unit 143 notifies the browser 311 of the information of the entry file and starts the data content service (S519).

The browser 311 generates the content to be displayed on the display unit 160 from the application data read from the cache data unit 309, displays the generated content on the display unit 160 (S520), and ends the process (S521).

The application control unit 143 starts the data content service based on the URL_base of the MH-transmission protocol descriptor and the initial_path of the MH-simple application location descriptor, which are the entry file information in the process of S519.

At this time, the application control unit 143 can uniquely identify the base_directory_path described in the DDMT421 from the URL_base of the MH-transmission protocol descriptor, but the directory_node_path described in the DDMT421 from the initial_path of the MH-simple application location descriptor, Matching with the information of file_name can be efficiently performed when the directory_node_path and file_name of DDMT421 are set based on the limitation 2 described above.

Further, the application control unit 143 may recognize a URL to be further referred to as a result of analyzing the application data read from the cache data unit 309. The application control unit 143 accesses the application data temporarily stored in the cache data unit 309 based on the recognized URL information, and executes the data content service of the corresponding file. Alternatively, the application control unit 143 may access the application data connected by the network 180 via the communication control unit 142, for example, managed by the service provider device 120, based on the recognized URL information. .. Here, the file specified by the URL may be received from the broadcast signal and newly stored in the cache data unit 309.

When the application data to be temporarily stored in the cache data unit 309 is determined based on the entry file information, or as a result of analyzing the application data, the information of the character string of the URL to be referred to is recognized and stored in the cache data unit 309. When deciding the application data to be newly temporarily saved, the application control unit 143 matches the entry file information or the recognized URL character string information with the base_directory_path, directory_node_path, and file_name information described in DDMT421. Then, by further collating with DAMT422, the MPU to be received is specified. In the directory node referred to by the MPU node descriptor in DAMT422, the MPU to be received is specified by matching with the information of base_directory_path and directory_node_path of DDMT421 and collating with DAMT422.

This matching work can be efficiently performed when the base_directory_path and directory_node_path of the DDMT421 are set based on the limitation 1 and the limitation 2 described above.

FIG. 6 shows an example in which base_directory_path and directory_node_path are set based on restriction 1 and restriction 2 when two DDMT421s, DDMT1 (601) and DDMT2 (602), are transmitted in a session. .. The base_directory_path satisfies restriction 1 in DDMT1 (601) and DDMT2 (602). Further, in DDMT1 (601), the directory_node_path satisfies the restriction 2.

FIG. 7 shows the case where the base_directory_path and directory_node_path of DDMT421 are not set based on the restrictions 1 and 2, and the URL = when both directory nodes are referred to by the MPU node descriptor in DAMT422. It shows an example that it is difficult to identify the MPU when newly caching the file represented by http: // localhost / d1 / d2 / d3 / f1. base_directory_path does not meet restriction 1 in DDMT1 (701) and DDMT2 (702). Further, in DDMT1 (701), the directory_node_path does not satisfy the restriction 2.

Since the application control unit 143 does not know the boundary between the base_directory_path and the directory_node_path and the file_name, which of the combinations of the base_directory_path and the directory_node_path set in the DDMT421 shown in FIG. 7 should be collated with the DAMT422 and received. , It is not possible to make a judgment only by referring to the information of DDMT421.

Therefore, the application control unit 143 further refers to DAMT422, acquires the MPU corresponding to one of the node_tags, confirms the index_item in this, and only when the file name of the expected value is included, the MPU is obtained. It is possible to receive the MPU and determine that the file can be cached. If index_item does not contain the expected file name, it will try to receive the MPU of another node.

When the application control unit 143 searches for a path in the directory structure set in DDMT421 that matches the character string of the entry file information or the character string of the URL to be referred to, the number of directory layers becomes large (many). As the number of combinations of DDMT421 information to be searched increases, it may take time to acquire the desired file in the correct directory node, or the directory node set in DDMT421 may match. There is a possibility that the process of sequentially acquiring the MPUs corresponding to the above may fail and the desired file may not be acquired.

On the other hand, in the broadcast signal receiving device 140 of the present embodiment, as shown in FIG. 6, the information set in the DDMT 421 is set based on the limitation 1 and the limitation 2, so that the information of the DDMT 421 is referred to. Only by itself, it is possible to uniquely determine which directory node of the DDMT422 the entry file information or the character string of the URL to be referred to matches.

As described above, in the broadcast signal receiving device 140 of the present embodiment, since the information of the base_directory_path and the directory_node_path set in the DDMT421 is set based on the limitation 1 and the limitation 2, the data can be obtained only by referring to the information of the DDMT421. It becomes possible to specify the directory node containing the desired file of the content service, and it becomes possible to efficiently acquire the desired file.

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, or a plurality of the constituent elements are expressed together, or even if they are expressed in combination, it is within the scope of the present invention. Further, a plurality of embodiments may be combined, and an example composed of these combinations is also within the scope of the invention.

Further, the drawings may be represented schematically as compared with actual embodiments in order to clarify the explanation, but the drawings are merely examples and do not limit the interpretation of the present invention. Further, in the present specification and each figure, the same reference reference numerals may be given to the components exhibiting the same or similar functions as those described above with respect to the above-mentioned figures, and the overlapping 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. be. 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 content and the same meaning.

100 ... Broadcast station, 101 ... Broadcast program server, 102 ... First application management / distribution unit, 103 ... First application server, 104 ... First basic function, 141. Second basic function, 142 ... communication control unit, 143 ... application control unit, 204 ... application data generation unit, 205 ... transmission control signal generation unit, 310 ... transmission control signal Analysis department.

Claims (1)

A transmission device that broadcasts a broadcast program and application data that realizes an application function added to the broadcast program by a broadcast signal, and the broadcast program and the application data included in the received broadcast signal are displayed on a display. In a broadcast signal transmitter / receiver composed of a receiver
The transmitter is
The application data generation unit that generates the application data file, and
A control signal generation unit that generates control information including a base_directory_path for acquiring a file when the file generated by the application data generation unit is transmitted by the broadcast signal, a directory_node_path continuing to the base_directory_path, and a file name.
A multiplexing unit that generates a multiplexed stream by multiplexing video data and audio data constituting the broadcast program, the application data generated by the application data generation unit, and the control information generated by the control signal generation unit. ,
A transmitter that transmits the multiplexed stream and
Have,
When the application data generation unit generates the files, any two base_directory_paths are prefix-matched and one path is the other with respect to the path in the directory configuration in which the plurality of files are arranged when the plurality of files are generated. Determine the path to prohibit settings that make up part of the path,
Any two directory_node_paths having the same base_directory_path have a means of determining the path so that it is prefix-matched and prohibits settings such that one path constitutes part of the other path.
The control signal generation unit has means for arranging the determined base_directory_path, the directory_node_path, and the file name in the control information.
The receiving device is
A separation unit that separates the received multiplexed stream into the video data, the audio data, the application data, and the control information.
A file processing unit that obtains the file of the application data based on the base_directory_path, the directory_node_path, and the file name extracted from the control information separated by the separation unit.
Broadcast signal transmitter / receiver.

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