JP7316402B2 - VIDEO CONTENT PROCESSING DEVICE AND CONTENT PROCESSING METHOD IN VIDEO CONTENT PROCESSING DEVICE - Google Patents

Description

TECHNICAL FIELD Embodiments of the present invention relate to a video content processing apparatus and a processing method thereof.

Standardization of advanced BS digital broadcasting/advanced broadband CS digital broadcasting toward full-scale operation of advanced BS digital broadcasting/advanced broadband CS digital broadcasting (new 4K8K satellite broadcasting) has been established by the Association of Radio Industries and Businesses (ARIB). Industries and Businesses).

"Media transport standard for digital broadcasting using MMT" ARIB STD-B60 Version 1.13 Revised on October 11, 2018, Association of Radio Industries and Businesses "Advanced Broadband Digital Satellite Broadcasting Operational Rules" ARIB TR-B39 Version 1.9 Revised on October 11, 2018, Association of Radio Industries and Businesses "Digital Transmission Content Protection2[DTCP2] Specification Volume1" Rev 1.0.2-20180912, Digital Transmission Licensing Administrator

It is necessary to realize a content protection system that is applied to a broadcast signal receiving device that receives content by advanced BS digital broadcasting/advanced broadband CS digital broadcasting, when outputting received content via an IP interface provided in the broadcasting signal receiving device. is requested.

According to one embodiment, in a video content processing device that receives broadcast signals multiplexed in the MMT-TLV format,
receiving means for receiving content transmitted by the broadcast signal;
an output means having an IP interface;
a control means for outputting the content via the output means in accordance with a DTCP2 content protection format including copy management information (CMI);
The control means is
Having means for analyzing video_transfer_characteristics arranged in the SI signal included in the broadcast signal multiplexed in the MMT-TLV system accompanying the content received by the receiving means,
Further, the control means converts the value of EI among the content usage identifiers included in the format of the content protection scheme according to the analysis result value of the video_transfer_characteristics of the video component descriptor arranged in the SI signal. set to 0 or 1,
Further, when the digital copy control information of the content copy control descriptor included in the SI signal is "copy prohibited", the temporary storage control bit of the content is checked, and the temporary storage control bit is set to temporarily store the content. If so, there is provided a video content processing apparatus having means for outputting said protected content via temporary storage.

FIG. 1 is a diagram schematically showing a broadcast signal receiving apparatus and its peripheral devices according to this embodiment. FIG. 2 is a diagram schematically showing a configuration example of a broadcast signal transmitting apparatus that transmits broadcast waves to the broadcast signal receiving apparatus according to this embodiment. FIG. 3 is a diagram schematically showing a broadcast signal receiver according to this embodiment. FIG. 4 is a diagram showing an example of a combination of an output destination of the broadcast signal receiving apparatus according to the present embodiment and a content protection method when content is output via the output destination. FIG. 5A shows that in the broadcast signal receiving device according to the present embodiment, in order to output the received content via the high-speed digital I / F, set to each content usage identifier such as CCI, EPN, etc. included in Descriptor 1 of CMI It is a figure which shows an example of a setting value. FIG. 5B shows that in the broadcast signal receiving device according to the present embodiment, in order to output the received content via the high-speed digital I / F, it is set to each content usage identifier such as CC and APS included in Descriptor 1 of CMI It is a figure which shows an example of a setting value. FIG. 6 is a list showing RM (Retention_mode) bit assignments and the meaning of each bit assignment. FIG. 7 is a list showing bit assignments of RetentionState and RetentionTime of each bit assignment. FIG. 8 is a list showing EPN bit assignments and the meaning of each bit assignment. FIG. 9 is a list showing CCI bit assignments and the meaning of each bit assignment. FIG. 10 is a list showing AET bit assignments and the meaning of each bit assignment. FIG. 11 is a list showing DOT bit assignments and the meaning of each bit assignment. FIG. 12 is a list showing AST bit assignments and the meaning of each bit assignment. FIG. 13 is a list showing ICT bit assignments and the meaning of each bit assignment. FIG. 14 is a list showing APS bit assignments and the meaning of each bit assignment. FIG. 15 is a list showing SDO bit assignments and the meaning of each bit assignment. FIG. 16 is a list showing HDR bit assignments and the meaning of each bit assignment. FIG. 17 is a list showing L2-only bit assignments 1701 and meanings 1702 of each bit assignment. FIG. 18 is a list showing EI bit assignments 1801 and meanings 1802 of each bit assignment. FIG. 19 is a list showing CC bit assignments 1901 and meanings 1902 of each bit assignment. FIG. 20A is a diagram showing the format of a content copy control descriptor. FIG. 20B is a list showing bit assignments of digital copy control information and the meaning of each bit assignment. FIG. 21A is a diagram showing the format of the content usage control descriptor. FIG. 21B is a list showing bit assignments of temporary storage control bits and the allowable temporary storage time for each bit assignment. FIG. 22A is a diagram showing the format of a video component descriptor. FIG. 22B is a list showing bit assignments of video signal resolutions and the meaning of each bit assignment. FIG. 22C is a list showing bit assignments of video signal transmission characteristics and the meaning of each bit assignment. FIG. 23 shows content usage identifiers of APS, ICT, DOT, and AST contained in Descriptor 1 of CMI in order to output received content via a high-speed digital I/F in the broadcast signal receiving apparatus according to this embodiment. FIG. 10 is a diagram showing another example of setting values to be set to . FIG. 24 is a diagram showing an example of a processing flow for setting values for each content usage identifier of Descriptor 1 in order to output the received content via the high-speed digital I/F 330 in the broadcast signal receiving device according to this embodiment. is. FIG. 25 schematically shows an example of a delivery route to another broadcast signal receiving device as a delivery destination when content is delivered via the high-speed digital I/F in the broadcast signal receiving device according to this embodiment. It is a diagram. FIG. 26A is a diagram schematically showing another example of a transmission route to a recorder, which is a transmission destination, when content is transmitted via the high-speed digital I/F in the broadcast signal receiving apparatus according to this embodiment. . FIG. 26B is a diagram schematically showing another example of a transmission route to a recorder, which is a transmission destination, when content is transmitted via the high-speed digital I/F in the broadcast signal receiving apparatus according to this embodiment. . FIG. 27 shows that in the broadcast signal receiving apparatus according to the present embodiment, in order to output the received content via the high-speed digital I / F, it is set to each content usage identifier such as CCI, EPN, etc. included in Descriptor 1 of CMI FIG. 10 is a diagram showing another example of setting values;

FIG. 1 is a diagram showing a configuration example of an entire system including a broadcast signal receiving device (means) 140 according to an embodiment of the present invention.
The system includes a broadcast signal transmitter (means) 100, a broadcast signal receiver (means) 140, a communication satellite 150, another broadcast signal receiver 140-2, and a recorder 131. FIG. The broadcast signal receiving device (means) 140 exchanges data content services with, for example, a data content server connected via a network 120 such as a wired LAN or wireless LAN, or DLNA (registered trademark) (Digital Living Network Alliance). ) compliant broadcast signal receiving device 140-2 or recorder 131 to exchange video and audio contents.

A broadcast signal transmitting apparatus (means) 100 for broadcasting a broadcast program comprises a broadcast program server 101 and a first basic function 102 . Broadcast signal transmitting apparatus 100 is also called a broadcasting station. Also, the broadcast signal transmitting apparatus 100 may be a ground station that collects programs of each broadcaster and uplinks them to the communication satellite 150 .

The broadcast program server 101 is an area in which data of programs to be broadcast by the broadcasting station 100, program names, broadcast dates, descriptions of contents, and the like are stored in advance. The broadcast program server 101 may be a server that stores data such as programs sent from each broadcaster.
A first basic function 102 is a basic function of the broadcasting station 100, and encodes video data, audio data, etc. of a program to be broadcast, and converts an SI (Signaling Information) signal, which is control information. It has a function of multiplexing and transmitting as a broadcast signal.

The SI signal contains control information called a content copy control descriptor, a content usage control descriptor, and a video component descriptor, which will be described later.
It is assumed that the multiplexing method of the broadcast signal transmitted from the broadcast signal transmitting apparatus 100 complies with the MMT/TLV method described in Non-Patent Document 1.

Broadcast signal receiving device (means) 140 includes second basic function 141 and control means 142 . The broadcast signal receiver 140 can also be connected to a display device 160, a HDD (Hard Disk Drive) 162, a removable disk 165, etc. via an I/F for connecting to peripheral devices. The broadcast signal receiver 140 is also called a digital television receiver. The broadcast signal receiving device 140 is also called a video content processing device.

The second basic function 141 is a basic function of the television receiver 140. It receives a broadcast signal sent from the broadcasting station 100, and converts the encoded video signal (video stream) included in the broadcast signal. ), an encoded audio signal (also called an audio stream), and an SI signal, decodes the video signal and audio signal, and analyzes the SI signal.

The control means 142 is control means for controlling the overall operation of the television receiver 140 . The control means 142 also controls peripheral devices connected to the television receiver 140, such as a display device 160, a speaker 161, an HDD (Hard Disk Drive) 162 bound to the television receiver 140, a removable disk 165, and the like. It also manages connections and data transmission/reception.

In addition, the control unit 142 protects the content to be output according to the output destination such as digital audio output, digital video audio output, and high-speed digital I/F, which will be described later. An example of the content protection method for each output destination performed by the control means 142 will be described with reference to FIG.
The display device 160 is means for displaying images included in the broadcast signal received by the second basic function 141 . The display device 160 may incorporate a speaker 161 that outputs the audio signal included in the broadcast signal received by the second basic function 141 .

In addition to the speaker 161 built in the display device 160, the device that outputs the audio signal is an external device connected to the television receiver via an I/F such as USB (Universal Serial Bus) or HDMI (registered trademark). It may be a speaker.

In the example shown in FIG. 1 , the display device 160 is described as being separate from the broadcast signal receiving device 140 , but may be integrated with the broadcast signal receiving device 140 as one function of the broadcast signal receiving device 140 .
FIG. 2 is a diagram schematically showing a configuration example of the broadcast signal transmitting apparatus 100 that transmits broadcast waves to the broadcast signal receiving apparatus 140 to which the embodiment of the present invention is applied. In order to transmit the broadcast program stored in the broadcast station server 101 as a broadcast signal, the broadcast signal transmitting apparatus 100 encodes the video data, audio data, etc. of the program and transmits the broadcast signal.

The audio encoder 211 has a function of encoding program audio data stored in the broadcasting station server 101 . When the audio encoder 211 reads a program to be broadcast from the broadcasting station server 101, it encodes the audio data of the read program.
The video encoder 212 has a function of encoding video data of programs stored in the broadcasting station server 101 . When the video encoder 212 reads a program to be broadcast from the broadcasting station server 101, it encodes the video data of the read program.

The control information generating means 213 has a function of generating a TLV packet and an SI signal, which is MMT control information. As described in Non-Patent Document 1, the control information of TLV packets is control information (also called TLV-SI) related to multiplexing of IP packets, and information for channel selection and correspondence information between IP addresses and services. offer. The MMT control information is control information (also called MMT-SI) related to the configuration of MMT packages and broadcasting services. A content copy control descriptor, a content usage control descriptor, and a video component descriptor, which will be described later, are one of MMT-SI.

The control information generating means 213 generates a TLV packet containing control information accompanying the program encoded by the audio encoder 211 and the video encoder 212, and a signal of MMT control information.
The scrambler 215 has a function to scramble the encoded audio stream output from the audio encoder 211 and the encoded video stream output from the video encoder 212 in cooperation with the CAS module 216 .

The CAS module 216 is a module that generates a key used when the scrambler 215 scrambles.
A multiplexer (multiplexing process) 217 receives the audio stream generated by encoding the audio data by the audio encoder 211, the video stream generated by encoding the video data by the video encoder 212, and the control information generated by the control information generating means 213. (SI signal) by the MMT/TLV method. A multiplexer (multiplexing process) 217 generates a TLV stream by multiplexing an audio stream, a video stream, TLV packets, and MMT control information (SI signal).

The transmitting means 218 has a function of transmitting the TLV stream as broadcast waves. The transmission means 218 performs transmission line coding processing such as modulation such as 16APSK and error correction coding on the TLV stream generated by the multiplexer (multiplexing processing) 217, and transmits the result as a broadcast wave.

FIG. 3 is a diagram schematically showing a configuration example of the broadcast signal receiving device 140 according to the embodiment of the present invention.
The broadcast signal receiver 140 includes a second basic function 141 which is a reception function for receiving broadcast signals, and control means 142 .
The second basic function 141 includes tuner 301 , demodulator 302 , descrambler 303 , demultiplexer (TLV/MMT separation processing) 304 , audio decoder 305 , video decoder 306 , CAS module 308 and presentation processing 309 .

Tuner 301 detects a required broadcast signal and inputs the detected broadcast signal to demodulator 302 .
The demodulator 302 demodulates the multiplexed TLV stream and inputs the demodulated TLV stream to the demultiplexer 304 (TLV/MMT separation processing).

A demultiplexer (TLV/MMT separation processing) 304 separates the input TLV stream into a video stream, an audio stream, and control information (SI signal). The scrambled audio stream and video stream are descrambled using the key generated by the CAS module 308 using the EMM/EMC included in the control information separated by the demultiplexer 304 (TLV/MMT separation processing). It is descrambled by 303. The control information (SI signal) is analyzed and processed by the control means 142 .

The descrambler 303 inputs the descrambled audio stream to the audio decoder 305 and the video stream to the video decoder 306 .
The audio decoder 305 decodes the input audio stream and generates an audio signal to be output to the speaker 316, for example.

The video decoder 306 decodes the input video stream and generates a video signal to be displayed on the display device 317, for example.
The decoded video signal is output via a text and graphic image presentation process 309 .
Note that the audio stream and video stream descrambled by the descrambler 303 may be input to an audio decoder or a video decoder each time they are descrambled, decoded, and output to the speaker 316 or display device 317. After being temporarily accumulated (temporarily accumulated) in a storage device (means) managed by the means 142 (for example, the HDD 162 in FIG. 1), it is input to the audio decoder and the video decoder and decoded, and the speaker 316 and the display device 317 Alternatively, it may be stored (also referred to as recording or copying) in a storage device (means) managed by the control means 142 (for example, the HDD 162 or removable disk 165 in FIG. 1), and then input to an audio decoder or a video decoder. may be decoded and output to the speaker 316 or the display device 317 .

The presentation processing 309 synthesizes characters and graphic images with the video signal generated by decoding the video stream by the video decoder 306 to generate a video to be displayed on the display device 317 .
Audio output 311 is an I/F for outputting an audio signal to speaker 316 provided in broadcast signal receiving apparatus 140 . Note that the control means 142 may set the audio output 311 as a normal output destination of the audio signal output from the audio decoder 305 .

A video output 312 is an I/F for outputting a video signal to a display device 317 included in the broadcast signal receiving device 140 . Note that the control means 142 may set the video output 312 as a normal output destination of the video signal output from the video decoder 306 .
Digital audio output 313 is an I/F for outputting an audio signal to an audio device (not shown) that is an externally connected device of broadcast signal receiver 140 . The I/F of the digital audio output 313 is, for example, an HDMI I/F. An externally connected device such as an audio device may be a device that supports multi-channel audio.

Digital video/audio output 314 is an I/F for outputting audio and video signals to AV equipment (not shown) that is an externally connected device of broadcast signal receiver 140 . The I/F of the digital video/audio output 314 is, for example, an HDMI I/F. Externally connected devices such as AV devices may be devices that support multi-channel audio.

The output destination of the decoded audio signal may be, for example, a speaker 316 provided in the broadcast signal receiving apparatus 140 via the I/F of the audio output 311, or a digital audio output 313 such as HDMI or a digital It may be an externally connected device connected via the I/F of the video/audio output 314 .

Similarly, the output destination of the decoded video signal may be, for example, the display device 317 provided in the broadcast signal receiving device 140 via the I/F of the video output 312, or a digital video audio signal such as HDMI. Other externally connected equipment connected via the I/F of the output 314 may be used.

The high-speed digital I/F 330 is an IP interface, and exchanges data content services with, for example, a data content server connected via a network 120 such as a wired LAN or a wireless LAN, and is DLNA (Digital Living Network Alliance) compliant. It is an I/F for exchanging video and audio contents with other connected devices such as the broadcast signal receiving device 140-2 and the recorder 131.

The control means 142 determines from which output destination of the audio output 311, the video output 312, the digital audio output 313, the digital video audio output 314, and the high-speed digital I/F 330 the audio signal and the video signal of the received content are to be output. For example, the function setting screen displayed on the display device 317 may be controlled so as to be set by user selection.

Similarly, when outputting the received content via the high-speed digital I/F 330, the control means 142 outputs via the storage device (means) (temporary storage) or via the storage device (means) (temporary storage). Control may be performed so that the user can select whether to output without storing the data on the function setting screen displayed on the display device 317 .

Similarly, when outputting the received content via the high-speed digital I/F 330, the control means 142 accumulates (also referred to as recording or copying) in a storage device (means) before outputting it, or Control may be performed so that the user can select on a function setting screen displayed on the display device 317 whether to output without accumulating (also referred to as recording or copying) the data. Thereby, the user of the broadcast signal receiving apparatus 140 can select and set to store or temporarily store the received content.

The I/O 320 is a peripheral device capable of temporarily storing or recording (also referred to as copying or storing) received content by controlling a recording medium such as a disc that can be removed from the broadcast signal receiving apparatus 140. It is an I/F for connecting with. The peripheral device may have a playback function.

The broadcast signal receiver 140 has output destinations of an audio output 311, a video output 312, a digital audio output 313, a digital video audio output 314, a high-speed digital I/F 330, and an I/O 320, as shown in FIG. This is an example, and it may have output destinations other than this, or may have only a part of the output destinations shown in FIG. Among the second basic functions, the tuner 301, demodulator 302, descrambler 302, demultiplexer 304 and CAS module are also called receiving means.

Each functional block included in these second basic functions 141 is connected to the CPU 325 via the system bus 326 and is controlled by the processing of the CPU 325 which operates based on the data stored in the ROM 323 and NVRAM 321. be.
The CPU 325 is connected to each functional block included in the second basic function 141 via a system bus 326 , and is also connected to a RAM (main memory) 324 , ROM 323 and NVRAM 321 via the system bus 326 . Also, the CPU 325 controls the entire broadcast signal receiving apparatus 140 including the second basic function 141 .

The storage device (means) described above may be, for example, the RAM 324 or other recording means (not shown) controlled by the processing of the CPU 325 .
Also, in the function setting screen displayed on the display device 317, when the output destination selected and set by the user and the received content are output via the high-speed digital I/F 330, they are stored via a storage device (means) (temporary storage). Alternatively, the information as to whether or not to accumulate (also referred to as recording or copying) may be stored in the NVRAM 321 by the CPU 325, for example.

NVRAM 321 , ROM 323 , RAM 324 , CPU 325 and system bus 326 are collectively called control means 142 .
FIG. 4 is a diagram showing an example of a combination of an output destination of the broadcast signal receiving apparatus 140 according to the present embodiment and a content protection method when content is output via the output destination.

For example, the control means 142 outputs the content specified to restrict copying by the content copy control descriptor or to be protected by the content use control descriptor via the digital video/audio output 314. In the case of outputting the content as described in Non-Patent Document 1 and Non-Patent Document 2, the content can be protected and output according to the specification of HDCP (High-bandwidth Digital Content Protection System).

In addition, the control means 142, for example, the content specified to restrict copying by the content copy control descriptor, or the content specified to be protected by the content use control descriptor, via the digital audio output 313. In the case of outputting the content as described in Non-Patent Document 1 and Non-Patent Document 2, the content can be protected and output according to the specifications of SCMS (Serial Copy Management System).

Also, the control means 142 connects to the I/O 320 the content specified to restrict copying by the content copy control descriptor or to be protected by the content use control descriptor. For example, when recording (also referred to as storage or copying) on the removable disk 165 shown in FIG.

Furthermore, the broadcast signal receiving apparatus 140 of the present embodiment protects content specified to be restricted from copying by the content copy control descriptor or to be protected by the content usage control descriptor by IP. Since the content is output via the high-speed digital I/F 330, which is an interface, the content can be protected according to the DTCP2 (Digital Transmission Content Protection-2) specification before being output. The destination of output via the high-speed digital I/F 330 is, for example, another broadcast signal receiving device 140-2 or the recorder 131. FIG.

DTCP2 (Digital Transmission Content Protection-2), which is a content protection method applied when outputting content sent by a broadcast signal via the high-speed digital I/F 330 in the broadcast signal receiving apparatus 140 of the present embodiment, will be described below. processing will be described.

As described in Non-Patent Document 3, CMI (Content Management Information) of DTCP2 includes control information related to usage rules such as copy control and the number of copies for content sent from the broadcast signal receiving apparatus 140 .
A CMI is composed of a plurality of descriptors, and each descriptor is composed of a plurality of pieces of control information called content usage identifiers. When content protection is applied to video and audio content, it is necessary to set a value for each content usage identifier included in Descriptor1.

Therefore, the broadcast signal receiving apparatus 140 of this embodiment sets a value for outputting the content sent by the broadcast signal via the high-speed digital I/F 330 to each content usage identifier of Descriptor 1 included in the CMI of DTCP2. It has the function to
5A and 5B show settings for each content usage identifier of Descriptor 1 included in CMI in order to output the received content via the high-speed digital I/F 330 in the broadcast signal receiving device 140 according to the present embodiment. It is a figure which shows an example of a value.

FIG. 5A shows the content copy control included in the SI signal sent along with the content in order to output the received content via the high-speed digital I/F 330 in the broadcast signal receiving device 140 according to this embodiment. Descriptor 1 according to the bit assignment of the digital copy control information (digital_recording_control_data) of the descriptor and the bit assignment of the output protection bit (encryption_mode), the temporary storage control bit (retention_mode), and the temporary storage allowable time (retention_state) of the content usage control descriptor. 3 is a diagram showing an example of set values set to each content usage identifier of CCI (Copy Control Information), EPN (Encryption Plus Non-assertion), and Retention_mode/Retention_State included in the . The format of the content copy control descriptor will be explained using FIGS. 20A and 20B, and the format of the content usage control descriptor will be explained using FIGS. 21A and 21B.

When the control means 142 outputs the content sent by the broadcast wave via the high-speed digital I/F 330, the control means 142 converts the digital copy control information (digital_recording_control_data ) and the output protection bit (encryption_mode), temporary storage control bit (retention_mode), and temporary storage allowable time (retention_state) placed in the content usage control descriptor, CCI, EPN, Retention_mode/Retention_State included in Descriptor1 Determine the setting value to be set for the content usage identifier.

When the value of the digital copy control information is 00 and the value of the output protection bit is 1, the control means 142 does not perform content protection by DTCP2 regardless of the value of the temporary storage control bit and the value of the temporary storage allowable time. , outputs the content via the high-speed digital I/F 330 (in the case of 51 in FIG. 5A).

Similarly, when the value of the digital copy control information is 00 and the value of the output protection bit is 0, the control means 142 controls CCI, The EPN and Retention_mode/Retention_State are set to the combination values indicated by 52 in FIG. 5A.

Similarly, when the value of the digital copy control information is 10, the control means 142 controls CCI, EPN, A combination value indicated by 53 or a combination value indicated by 54 in FIG. 5A is set in Retention_mode/Retention_State. Here, the case of setting the combination of values indicated by 53 in FIG. 5A is the case of outputting via the high-speed digital I/F 330 without going through the storage device (means), and the case of setting the combination of values indicated by 54. is a case of outputting via a high-speed digital I/F 330 via a storage device (means).

Similarly, when the value of the digital copy control information is 11, the control means 142 controls CCI, EPN, The value of the combination indicated by 56 in FIG. 5A or the value of the combination indicated by 57 in FIG. 5A is set in Retention_mode/Retention_State. Here, the control means 142 sets the values of the combination indicated by 56 in FIG. When outputting via the high-speed digital I/F 330, the values of the combination indicated by 57 in FIG. 5A are set.

Similarly, when the content copy control descriptor is not included in the SI information attached to the content, the control means 142 outputs the content via the high-speed digital I/F 330 without performing content protection by DTCP2 (Fig. 5A for 58).
Furthermore, when outputting the content sent by the broadcast wave via the high-speed digital I/F 330, the control means 142 controls CC (Copy Count), APS (Analog Protection System), ICT (Image_Constrain_Token), DOT, and DOT contained in Descriptor1. (Digital_Only_Token), AST (Analog_Sunset_Token), HDR (Hight_Dynamic_Range_Token), L2-Only (L2_protection-Only_Token), EI (Enhanced_Image_Token), SDO (Standard_Digital_Output_Token), and AET (Audio Enhancement Token). .

FIG. 5B shows CC, APS, ICT, DOT, AST, HDR, and L2 included in Descriptor 1 in order to output the received content via the high-speed digital I/F 330 in the broadcast signal receiving apparatus 140 according to this embodiment. - It is a figure which shows an example of the setting value set to each content utilization identifier of Only, EI, SDO, and AET.

The control means 142 sets 0000 to CC.
The control means 142 also sets 00 to APS.
The control means 142 also sets 1 to ICT.
The control means 142 also sets 1 to DOT.
The control means 142 also sets 1 to AST.

The control means 142 also sets 0 to HDR.
The control means 142 also sets 0 to L2-Only.
If the luminance range of the content to be output via the high-speed digital I/F 330 is SDR (Standard Dynamic Range), the color gamut is the conventional color gamut, and the number of pixels does not exceed 2K1K, the control unit 142 sets 0 to EI. , otherwise set EI to 1. Alternatively, the control unit 142 may set EI to 0 when the number of pixels does not exceed 2K1K regardless of the color gamut and luminance range, and set EI to 1 otherwise.

If the luminance range of the content to be output via the high-speed digital I/F 330 is SDR (Standard Dynamic Range), the color gamut is the conventional color gamut, and the number of pixels does not exceed 2K1K, the control unit 142 sets SDO to 1. , otherwise set SDO to 0. Alternatively, the control means 142 may set SDO to 1 when the number of pixels does not exceed 2K1K regardless of the color gamut and luminance range, and set SDO to 0 otherwise.

Note that the control means 142 may set the value of SDO according to the set value of EI. The control means 142 may set, for example, a value obtained by inverting the value set in EI to the value of SDO. Alternatively, the control means 142 may set the EI value according to the set SDO value. The control unit 142 may set EI to a value obtained by inverting the value set to SDO, for example.

The control means 142 attaches to the content whether the brightness range of the content to be output via the high-speed digital I/F 330 is SDR (Standard Dynamic Range), the color gamut is the conventional color gamut, and the number of pixels does not exceed 2K1K. A value to be set to EI may be determined by judging from the video signal transfer characteristics (video_transfer_characteristics) of the video component descriptor included in the transmitted SI signal. In this case, the control means 142 sets 0 to EI when the video signal transfer characteristic is 1, and sets 1 to EI otherwise. Alternatively, the control means 142 may set EI to 0 when the video signal transfer characteristic is 1 or 2, and set EI to 1 otherwise.

In addition, the control means 142 attaches to the content whether or not the brightness range of the content to be output via the high-speed digital I/F 330 is SDR (Standard Dynamic Range), the color gamut is the conventional color gamut, and the number of pixels does not exceed 2K1K. A value to be set in SDO may be determined by determining based on the video signal transfer characteristics (video_transfer_characteristics) of the video component descriptor included in the SI signal sent through the SI signal. In this case, the control means 142 sets SDO to 1 when the video signal transfer characteristic is 1, and sets SDO to 0 otherwise. Alternatively, the control means 142 may set SDO to 1 when the video signal transfer characteristic is 1 or 2, and set SDO to 0 otherwise.

Also, the control means 142 determines whether or not the number of pixels of the content to be output via the high-speed digital I/F 330 exceeds 2K1K. A value to be set to EI may be determined by making a determination based on the resolution (video_resolution). In this case, the control means 142 sets EI to 1 when the video signal resolution is 6 or 7, and sets EI to 0 otherwise.

Also, the control means 142 determines whether or not the number of pixels of the content to be output via the high-speed digital I/F 330 exceeds 2K1K. The resolution (video_resolution) may be used to determine the value to be set to SDO. In this case, the control means 142 sets SDO to 0 if the video signal resolution is 6 or 7, and sets SDO to 1 otherwise.

The control means 142 also sets 1 to AET.
FIGS. 6 to 19 are lists showing bit assignments of content usage identifiers included in Descriptor 1 described in FIGS. 5A and 5B and meanings corresponding to the bit assignments, as described in Non-Patent Document 3. .

FIG. 6 is a list showing RM (Retention_mode) bit assignments 601 and meanings 602 of each bit assignment. The content written to the right of each bit assignment in RM is the meaning of the corresponding bit assignment. For example, if the RM bit assignment 601 is 0, and the value set in the CCI is 11, it means that the mode of content protection by DTCP2 is RetentionMode. means that it is not RetentionMode. Also, when the RM bit assignment 601 is 1, it means that the mode of content protection by DTCP2 is not Retention Mode.

Similarly, FIG. 7 is a list showing RetentionState bit assignment 701 and RetentionTime 702 of each bit assignment. The content described to the right of each bit assignment of RetentionState is the RetentionTime of the corresponding bit assignment.

Similarly, FIG. 8 is a list showing EPN bit assignments 801 and meanings 802 of each bit assignment.
Similarly, FIG. 9 is a list showing CCI bit assignments 901 and meanings 902 of each bit assignment.
Similarly, FIG. 10 is a list showing AET bit assignments 1001 and meanings 1002 of each bit assignment.

Similarly, FIG. 11 is a list showing DOT bit assignments 1101 and meanings 1102 of each bit assignment.
Similarly, FIG. 12 is a list showing AST bit assignments 1201 and meanings 1202 of each bit assignment.
Similarly, FIG. 13 is a list showing ICT bit assignments 1301 and meanings 1302 of each bit assignment.

Similarly, FIG. 14 is a list showing APS bit assignments 1401 and meanings 1402 of each bit assignment.
Similarly, FIG. 15 is a list showing SDO bit assignments 1501 and meanings 1502 of each bit assignment.
Similarly, FIG. 16 is a list showing HDR bit assignments 1601 and meanings 1602 of each bit assignment.

Similarly, FIG. 17 is a list showing L2-only bit assignments 1701 and meanings 1702 of each bit assignment.
Similarly, FIG. 18 is a list showing EI bit assignments 1801 and meanings 1802 of each bit assignment.
Similarly, FIG. 19 is a list showing CC bit assignments 1901 and meanings 1902 of each bit assignment.

20A to 22C show, as described in Non-Patent Document 1, the format of the content copy control descriptor and the format of the content usage control descriptor described in FIG. 5A and the format of the video component descriptor described in FIG. 5B. It is a figure which shows.

FIG. 20A is a diagram showing the format of a content copy control descriptor.
FIG. 20B is a list showing bit assignments 2011 of digital copy control information (digital_recording_control_data) and meanings 2012 of each bit assignment.

2001 in FIG. 20A is the digital copy control information (digital_recording_control_data). The meaning of digital copy control information (digital_recording_control_data) 2001 is defined according to bit assignments from 00 to 11 as shown in FIG. 20B. For example, a bit assignment of 00 in the digital copy control information means that copying is possible without restrictions.

FIG. 21A is a diagram showing the format of the content usage control descriptor.
FIG. 21B is a list showing bit assignments 2111 for temporary storage permissible time (retention_state) and temporary storage permissible time 2112 for each bit assignment.
In FIG. 21A, 2101 is a temporary storage control bit (retention_mode), 2102 is a temporary storage allowable time (retention_state), and 2103 is an output protection bit (encryption_mode).

When the value of the temporary storage control bit (retention_mode) 2101 is 0, even if the value of digital_recording_control_data of the content copy control descriptor attached to the received content is 11 (copy prohibited), broadcast signal receiving apparatus 140 does not temporarily store the content. If it is 1, it means that the broadcast signal receiving apparatus 140 cannot temporarily store the received content.

Permissible temporary storage time (retention_state) 2102 defines the permissible temporary storage time according to bit assignments from 000 to 111 as shown in FIG. 21B. For example, a bit assignment of 111 for the permissible temporary accumulation time means that the permissible temporary accumulation time is 1 hour and 30 minutes.

A value of 0 in the output protection bit (encryption_mode) 2103 means that content protection processing must be performed when content is output via the high-speed digital I/F 330. This means that content protection processing need not be performed when content is output via the digital I/F 330 .

FIG. 22A is a diagram showing the format of a video component descriptor.
2201 in FIG. 22A is the video signal resolution (video_resolution), and 2202 is the video signal transfer characteristics (video_transfer_characteristics).

FIG. 22B is a list showing bit assignments 2211 of video signal resolution (video_resolution) and meanings 2212 of each bit assignment.
FIG. 22C is a list showing bit assignments 2213 of video signal transfer characteristics (video_transfer_characteristics) and meanings 2214 of each bit assignment.

Further, when the broadcast signal receiving apparatus 140 according to the present embodiment outputs the content sent by the broadcast wave via the high-speed digital I/F 330, the CMI Descriptor 1 is set to a value other than the set value shown in FIG. 5B. good too.
FIG. 23 shows that in the broadcast signal receiving device 140 according to the present embodiment, in order to output the received content via the high-speed digital I/F 330, the DOT and AST content usage identifiers included in the CMI Descriptor 1 are set. FIG. 10 is a diagram showing another example of setting values; Unlike the case of FIG. 5B, in the example of FIG. 23, 0 is set in DOT and 0 is set in AST. Other setting values set for each content usage identifier are the same as in FIGS. 5A and 5B.

FIG. 24 shows an example of a processing flow for setting a value to each content usage identifier of Descriptor1 in order to output the received content via the high-speed digital I/F 330 in the broadcast signal receiving device 140 according to this embodiment. It is a diagram.
For example, when the output destination of the received content set in the NVRAM 321 is the high-speed digital I/F 330, when receiving the content, the control means 142 protects the received content by DTCP2. A setting process for setting a value for each content usage identifier of Descriptor1 is started (S2400).

The control means 142 confirms whether or not the content copy control descriptor is included in the SI signal accompanying the received content (S2401).
As a result of checking, if the content copy control descriptor is not included (No in S2401), the processing is terminated without setting each content usage identifier of Descriptor1 (S2419, in case of 58 in FIG. 5A) (S2430). In this case, the control unit 142 outputs the received content through the high-speed digital I/F 330 without content protection.

As a result of checking, if the content copy control descriptor is included (Yes in S2401), the control means 142 checks the value of the digital copy control information in the content copy control descriptor (S2402).
As a result of confirmation (S2402), if the value of the digital copy control information is 00 (when S2403 is 00), the control means 142 confirms the value of the output protection bit (S2404).

As a result of confirmation (S2404), if the value of the output protection bit is 1 (S2405 is 1), the control means 142 does not set each content usage identifier of Descriptor1 (S2406, in the case of 51 in FIG. ) ends the process (S2430). In this case, the control unit 142 outputs the received content through the high-speed digital I/F 330 without content protection.

As a result of checking (S2404), if the value of the output protection bit is 0 (when S2405 is 0), the control means 142 sets the value of the 52 combinations shown in FIG. 5A to each content usage identifier of Descriptor1 (S2407 ). Furthermore, the control means 142 confirms the value of the video signal transfer characteristic of the video component descriptor (S2421). The control means 142 sets the combination value of 59-1 shown in FIG. 5B, including the EI value determined using the video signal transmission characteristics confirmed in S2421, to each content usage identifier of Descriptor1 (S2422). , the process ends (S2430).

As a result of checking in S2402, if the value of the digital copy control information is 10 (when S2403 is 10), the control means 142 stores the received content before outputting it via the high-speed digital I/F 330. It is checked whether the output is set (S2408). The control unit 142 can confirm whether or not the output is set after accumulation by referring to the information stored in the NVRAM 321, for example.

As a result of checking (S2408), if the setting is to output without storing (No in S2409), the control unit 142 sets the values of the 53 combinations shown in FIG. 5A to each content usage identifier of Descriptor1. (S2410). Furthermore, the control means 142 confirms the value of the video signal transfer characteristic of the video component descriptor (S2421). The control means 142 sets the combination value of 59-1 shown in FIG. 5B, including the EI value determined using the video signal transmission characteristics confirmed in S2421, to each content usage identifier of Descriptor1 (S2422). , the process ends (S2430).

As a result of confirmation (S2408), if the setting is to store and then output (Yes in S2409), the control means 142 sets the values of the 54 combinations shown in FIG. S2411). Furthermore, the control means 142 confirms the value of the video signal transfer characteristic of the video component descriptor (S2421). The control means 142 sets the combination value of 59-1 shown in FIG. 5B, including the EI value determined using the video signal transmission characteristics confirmed in S2421, to each content usage identifier of Descriptor1 (S2422). , the process ends (S2430).

As a result of confirmation in S2402, if the value of the digital copy control information is 11 (when S2403 is 11), control means 142 confirms the value of the temporary storage bit (S2413).
As a result of confirmation (S2413), when the value of the temporary storage bit is 1 (when S2414 is 1), the control means 142 sets the value of the 56 combinations shown in FIG. 5A to each content usage identifier of Descriptor1 (S2417 ). Furthermore, the control means 142 confirms the value of the video signal transfer characteristic of the video component descriptor (S2421). The control means 142 sets the combination value of 59-1 shown in FIG. 5B including the EI value determined using the video signal transfer characteristics confirmed in S2421 to each content usage identifier of Descriptor1 (S2422). , the process ends (S2430).

As a result of confirmation (S2413), when the value of the temporary storage bit is 0 (when S2414 is 0), control means 142 performs temporary storage when outputting the received content via high-speed digital I/F 330. Then, it is confirmed whether the setting is to output after (S2415).

As a result of the confirmation (S2415), if the setting is made to perform temporary storage and output (Yes in S2416), the control means 142 sets the values of the 57 combinations shown in FIG. 5A to each content usage identifier of Descriptor1. (S2418). Furthermore, the control means 142 confirms the value of the video signal transfer characteristic of the video component descriptor (S2421). The control means 142 sets the combination value of 59-1 shown in FIG. 5B, including the EI value determined using the video signal transmission characteristics confirmed in S2421, to each content usage identifier of Descriptor1 (S2422). , the process ends (S2430).

As a result of confirmation (S2415), if the output is set without temporary storage (No in S2416), the control unit 142 sets the values of the 56 combinations shown in FIG. 5A to each content usage identifier of Descriptor1. (S2417). Furthermore, the control means 142 confirms the value of the video signal transfer characteristic of the video component descriptor (S2421). The control means 142 sets the combination value of 59-1 shown in FIG. 5B including the EI value determined using the video signal transfer characteristics confirmed in S2421 to each content usage identifier of Descriptor1 (S2422). , the process ends (S2430).

As a result of checking in S2402, if the value of the digital copy control information is 01 (when S2403 is 01), the control means 142 determines that it is prohibited to output the received content via the high-speed digital I/F 330. The determination is made (S2412, in the case of 55 in FIG. 5A) and the process is terminated (S2430).

5A and 59-1 shown in FIG. 5B, or 53 combinations shown in FIG. 5A and 53 shown in FIG. The value of the combination of 59-1, the value of the combination of 54 shown in FIG. 5A and the value of the combination of 59-1 shown in FIG. 5B, the value of the combination of 56 shown in FIG. 5A and the combination of 59-1 shown in FIG. value, 57 combination values shown in FIG. 5A and 59-1 combination values shown in FIG. Output via /F330.

FIG. 25 is a diagram schematically showing an example of a transmission route to a destination connection device when content is transmitted via the high-speed digital I/F 330 in the broadcast signal receiving apparatus 140 according to this embodiment. The connected device is assumed to be the recorder 131 (connected to the display 132) connected via the network 120, for example.

A case where the digital copy control information (digital_recording_control_data) of the content copy control descriptor attached to the content received by the broadcast signal receiver 140 is 11 (copy prohibited) will be described as an example.
When the digital copy control information (digital_recording_control_data) of the content copy control descriptor attached to the received content is 11 (copy prohibited), the control means 142 controls the display connected to the recorder 131 connected via the network 120. At 132, the values of CCI, EPN, Retention_mode, and Retention_State of Descriptor1 can be set to allow viewing only of received content.

In this case, the control means 142 determines whether the received content is output after being temporarily stored in the storage device (means) 2520, or is output without being temporarily stored in the storage device (means) 2520. Different values are set for Retention_mode and Retention_State.

When the received content is output without being temporarily stored in the storage device (means) 2520, the control means 142 sets the value of the combination indicated by 56 in FIG. As a result, the content received by the broadcast signal receiving apparatus 140 is protected according to the DTCP2 format in which the CCI, EPN, Retention_mode, and Retention_State are set with the combination of values indicated by 56 in FIG. 2501.

Other broadcast signal receiving devices 140-2 that have received the content with content protection can only view or temporarily store (time shift) the received content by referring to the values of CCI, EPN, Retention_mode, and Retention_State. Control so that it cannot be copied with

When temporarily accumulating the received content in the accumulation device (means) 2520 and outputting it, the control means 142 sets CCI, EPN, Retention_mode, and Retention_State of Descriptor 1 to values of combinations indicated by 57 in FIG. As a result, the content received by the broadcast signal receiving apparatus 140 is protected according to the DTCP2 format in which the CCI, EPN, Retention_mode, and Retention_State are set with the combination of values indicated by 57 in FIG. 2502.

The recorder 131 that has received the content with content protection can only view the received content on the connected display 132 by referring to the values of CCI, EPN, Retention_mode, and Retention_State, and temporarily store (time shift) the content. ) and copying is impossible.

FIG. 26A is a diagram schematically showing another example of a transmission route to the recorder 131, which is the transmission destination, when content is transmitted via the high-speed digital I/F 330 in the broadcast signal receiving apparatus 140 according to this embodiment. is. Assume that the connected device is the recorder 131 (connected to the display 132) connected via the network 120 as in FIG.

An example will be described in which the digital copy control information (digital_recording_control_data) of the content copy control descriptor attached to the content received by the broadcast signal receiver 140 is 00 (copyable without restrictions).
When the digital copy control information of the content copy control descriptor attached to the received content is 00 (copiable without restrictions), the control means 142 controls the recorder 131 connected via the network 120 to receive the content. The values of CCI, EPN, Retention_mode, and Retention_State of Descriptor1 can be set so that the content can be copied without restrictions.

In this case, the control means 142 performs different output processing depending on the value of the output protection bit (encryption_mode) of the content usage control descriptor.
When the output protection bit is 0 (content protection is required), the control means 142 sets CCI, EPN, Retention_mode, and Retention_State of Descriptor 1 to values of combinations indicated by 52 in FIG. 5A. As a result, the content received by the broadcast signal receiving apparatus 140 is protected according to the DTCP2 format in which the CCI, EPN, Retention_mode, and Retention_State are set with the combination of values indicated by 52 in FIG. 2601.

Note that when the digital copy control information of the content copy control descriptor attached to the received content is 00 (copies are possible without restrictions), even if the content is sent without being accumulated in the storage device 2520 as in route 2601, route 2602 Even when data is stored (also referred to as recording or copying) in the storage device 2520 and then transmitted, the values set in CCI, EPN, Retention_mode, and Retention_State do not change.

When the output protection bit is 1 (no content protection required), the control means 142 outputs the received content via the high-speed digital I/F 330 without content protection. The recorder 131 that has received content-protected content refers to the values of CCI and EPN, thereby controlling the content so that it can be copied without restrictions.

FIG. 26B is a diagram schematically showing an example of different transmission routes to the recorder 131, which is the transmission destination, when content is transmitted via the high-speed digital I/F 330 in the broadcast signal receiving apparatus 140 according to the present embodiment. be. Assume that the connected device is the recorder 131 (connected to the display 132) connected via the network 120 as in FIG.

A case where the digital copy control information of the content copy control descriptor attached to the content received by the broadcast signal receiving apparatus 140 is 10 (only one generation can be copied) will be described as an example.
When the digital copy control information of the content copy control descriptor attached to the received content is 10 (only one generation can be copied), the control means 142 controls the recorder 131 connected via the network 120 to copy the received content. The values of CCI, EPN, Retention_mode, and Retention_State of Descriptor1 can be set so that only one generation can be copied.

In this case, the control means 142 stores (also referred to as recording or copying) the received content in the storage device (means) 2520 before outputting it, or does not store (also referred to as recording or copying) the content in the storage device (means) 2520 . The values to be set to CCI, EPN, Retention_mode, and Retention_State of Descriptor 1 differ depending on whether to output.

When outputting the received content to the storage device (means) 2520 without copying it, the control means 142 sets CCI, EPN, Retention_mode, and Retention_State of Descriptor 1 to values of combinations indicated by 53 in FIG. 5A. As a result, the content received by the broadcast signal receiving apparatus 140 is protected according to the DTCP2 format in which the CCI, EPN, Retention_mode, and Retention_State are set with the combination of values indicated by 53 in FIG. 2611.

The recorder 131 that has received content-protected content refers to the CCI and EPN values to control the received content so that it can be copied only once.
When storing (also referred to as recording or copying) the received content in the storage device (means) 2520 and then outputting it, the control unit 142 sets the CCI, EPN, Retention_mode, and Retention_State of Descriptor 1 to the combination shown in 54 in FIG. 5A. set the value. As a result, the content received by the broadcast signal receiving apparatus 140 is protected according to the DTCP2 format in which the CCI, EPN, Retention_mode, and Retention_State are set with the combination of values indicated by 54 in FIG. 2612.

The recorder 131 that has received the content with content protection cannot copy the received content by referring to the values of CCI, EPN, Retention_mode, and Retention_State. Control so that storage is possible and copying is impossible.

As described above, the broadcast signal receiving apparatus 140 according to the present embodiment, in order to transmit the content sent by the broadcast signal to the connection device connected to the network 120 via the high-speed digital I/F 330, the content Using the content copy control descriptor and the content usage control descriptor included in the SI information attached to the DTCP2 format, it is possible to set the setting value for sending the content via the high-speed digital I/F 330. is. By controlling in this manner, the broadcast signal receiving apparatus 140 takes over the content protection information included in the SI information attached to the content sent by the broadcast signal, protects the content, and transmits the content to the connected device. becomes possible.

Furthermore, when outputting the received content, the broadcast signal receiving device 140 according to the present embodiment protects the content according to whether or not the content is output via copying to the storage device, and outputs the content to the connected device. Sending is also possible.
Furthermore, the broadcast signal receiving apparatus 140 according to the present embodiment sends the content sent by the broadcast signal to the connection device connected to the network 120 via the high-speed digital I/F 330, so that the content is accompanied by It is also possible to protect the content by using the value of the video signal resolution (video_resolution) and the value of the video signal transfer characteristics (video_transfer_characteristics) of the video component descriptor included in the SI information, and send the content to the connected device. By applying content protection in this way, the connection device that receives the content sent from the broadcast signal receiving apparatus 140 can control the protection of the received content so as to be suitable for the information on the content protection that has been applied. It becomes possible. For example, the connected device can control whether or not to output the received content to another external device.

As described above, the broadcast signal receiving apparatus according to the present embodiment can appropriately implement a content protection method according to the contents of the SI information when outputting the content received by the broadcast signal via the IP interface. Become.
Although the broadcast signal receiver 140 of this embodiment has been described as a broadcast signal receiver that receives broadcast signals multiplexed by the MMT-TLV system, it is not limited to this.

The broadcast signal receiver 140 may be a broadcast signal receiver that receives broadcast signals multiplexed according to MPEG-2, for example.
Hereinafter, when the broadcast signal receiving apparatus 140 receives a broadcast signal multiplexed in MPEG-2 format, and when outputting the received content via an IP interface, the setting to be set to each content usage identifier of Descriptor 1 of CMI Examples of values are described.

When the broadcast signal receiving apparatus 140 receives a broadcast signal multiplexed according to the MPEG-2 system, PSI (Program Specific Information) and SI (Service Information), which are control information accompanying contents broadcast by the broadcast signal, include , a digital copy control descriptor as a descriptor corresponding to the content copy control descriptor, a content usage descriptor as a descriptor corresponding to the content usage control descriptor, and a video decode control description as a descriptor corresponding to the video component descriptor. child is included.

FIG. 27 shows CC included in Descriptor 1 of CMI in order to output received content via high-speed digital I/F 330 in broadcast signal receiving device 140 that receives broadcast signals multiplexed in MPEG-2 format. 5A is a diagram showing an example of setting values to be set for each content usage identifier such as APS. When the copy control format information (copy_control_type) of the digital copy control descriptor is 01, the control means 142 performs the same operation as in the list of FIG. 5A. Similarly, the value of copy control type information (copy_control_type) and the value of digital copy control information (digital_recording_control_data) of the digital copy control descriptor, the value of the output protection bit (encryption_mode) of the content availability descriptor, and the temporary storage control bit (retention_mode) and the temporary storage permissible time (retention_state) value, CCI, EPN, and Retention_mode/Retention_State included in Descriptor 1 are combined values of 52, 53, 54, 56, and 57 shown in FIG. set.

Similarly, when the copy control type information (copy_control_type) is other than 01, the control means 142 determines that output of the received content via the high-speed digital I/F 330 is prohibited, and terminates the process. (case 55-2 in FIG. 27).

Similarly, when the content copy control descriptor is not included in the SI information attached to the content, the control means 142 terminates the processing without setting each content usage identifier of Descriptor1 (case 58 in FIG. 27). ). In this case, the control unit 142 outputs the received content through the high-speed digital I/F 330 without content protection.

Furthermore, when outputting the content sent by the broadcast wave via the high-speed digital I/F 330, the control means 142 controls CC (Copy Count), APS (Analog Protection System), ICT (Image_Constrain_Token), DOT, and DOT contained in Descriptor1. (Digital_Only_Token), AST (Analog_Sunset_Token), HDR (Hight_Dynamic_Range_Token), L2-Only (L2_protection-Only_Token), EI (Enhanced_Image_Token), SDO (Standard_Digital_Output_Token), and AET (Audio Enhancement Token). .

The value that the control means 142 sets for each content usage identifier may be the same value as the example shown in FIG. 5B, for example.
However, for APS, the control means 142 may set the value of the analog output copy control information (APS_Control_Data) of the content use descriptor as it is. Also, the control means 142 determines the value to be set corresponding to the bit assignment of the video encode format (video_encode_format) and/or the transfer characteristics (transfer_characteristics) of the video decode control descriptor included in the PSI for the setting of the EI value. Alternatively, 0 may be set regardless of the SI information. Also, the control means 142 sets the SDO in correspondence with the bit assignment of the video encode format (video_encode_format) and/or the transfer characteristics (transfer_characteristics) of the video decode control descriptor included in the PSI. A value may be determined, or 1 may be set regardless of the SI information.

As described above, the broadcast signal receiving apparatus 140 of this embodiment uses DTCP2 when outputting the received content via the IP interface even when receiving broadcast signals multiplexed according to the MPEG-2 system. It is possible to protect the content by using it and output it.

While several embodiments of the invention have been described, these embodiments have been presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and modifications can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the scope of the invention described in the claims and equivalents thereof. Furthermore, in each constituent element of the claims, even if the constituent element is divided and expressed, a plurality of constituent elements are expressed together, or a combination of these is expressed, it is within the scope of the present invention. In addition, when the claims are expressed as control logic, when expressed as a program including instructions to be executed by a computer, and when expressed as a computer-readable recording medium in which the instructions are written, the apparatus of the present invention is applied. be. Also, 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 signal transmitter 150 Communication satellite 140 Broadcast signal receiver 120 Network 131 Recorder 132 Display 140-2 Others 160: Display device, 162: HDD, 165: Removable disk.

Claims (8)

In a video content processing device that receives broadcast signals multiplexed in the MMT-TLV system,
receiving means for receiving content transmitted by the broadcast signal;
an output means having an IP interface;
a control means for outputting the content via the output means in accordance with a DTCP2 content protection format including copy management information (CMI);
The control means is
Having means for analyzing video_transfer_characteristics arranged in the SI signal included in the broadcast signal multiplexed in the MMT-TLV system accompanying the content received by the receiving means,
Further, the control means converts the value of EI among the content usage identifiers included in the format of the content protection scheme according to the analysis result value of the video_transfer_characteristics of the video component descriptor arranged in the SI signal. set to 0 or 1,
Further, when the digital copy control information of the content copy control descriptor included in the SI signal is "copy prohibited", the temporary storage control bit of the content is checked, and the temporary storage control bit is set to temporarily store the content. if so, having means for outputting the protected content via temporary storage;
Video content processing device. 2. The video content processing apparatus according to claim 1, wherein, when the value of said video_transfer_characteristics is 1 or 1 or 2, said control means sets the value of EI among the content usage identifiers included in said format to 0. . If the value of the video_transfer_characteristics is other than 1 or 1
2. The video content processing apparatus according to claim 1, wherein the value of EI among the content usage identifiers included in said format is set to 1 in cases other than 2. 4. The video content processing apparatus according to claim 2, wherein said control means has storage means, and outputs said content via said output means while receiving said content received by said receiving means. 4. The video content processing apparatus according to claim 2, wherein said control means stores said content received by said receiving means in storage means and then outputs the content via said output means. In a video content processing device that receives broadcast signals multiplexed in the MMT-TLV system,
receiving content sent by the broadcast signal;
Analyze the video_transfer_characteristics arranged in the SI signal included in the broadcast signal multiplexed in the MMT-TLV system accompanying the received content,
When outputting the content via an output means having an IP interface, when outputting the content according to the DTCP2 content protection format including copy management information (CMI),
Content usage identifier included in the format of the content protection scheme according to the analysis result value of video_transfer_characteristics of the video component descriptor arranged in the SI signal included in the broadcast signal accompanying the content. Set the value of EI to 0 or 1,
Further, when the digital copy control information of the content copy control descriptor included in the SI signal is "copy prohibited", the temporary storage control bit of the content is checked, and the temporary storage control bit is set to temporarily store the content. If so, outputting said protected content via temporary storage. If the value of said video_transfer_characteristics is 1 or 1 or 2
7. The content processing method according to claim 6, wherein the value of EI among the content usage identifiers included in said format is set to 0 in the case of . 7. The content processing method according to claim 6, wherein when the value of said video_transfer_characteristics is other than 1 or other than 1 or 2, the control means sets the value of EI among the content usage identifiers included in said format to 1. .

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