JP4099051B2 - Digital broadcast receiving apparatus, method, and program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a digital broadcast receiving apparatus that receives a digital broadcast that conforms to the MPEG-2 (Moving Picture Experts Group phase 2) system standard.
[0002]
[Prior art]
As a conventional digital broadcast receiving apparatus, the one described in Patent Document 1 is known.
FIG. 15 is a configuration diagram of a digital broadcast receiving apparatus described in Patent Document 1. In the figure, a digital broadcast receiver 10 includes tuner units 12a and 12b to which received signals from antennas 11a and 11b are input, demodulators 13a and 13b that separately demodulate intermediate frequency signals from the tuner units 12a and 12b, and demodulation. Demultiplexers 14a and 14b to which the output demodulated signals of the devices 13a and 13b are separately input, buffer memories 15a and 15b to which the data from the demultiplexers 14a and 14b are separately input, CPU 16, RAM 17, ROM 18, non-volatile The memory 19, the operation input unit 20, and the program information decoder 21 are connected to each other via a bus 22. The operation input unit 20 is configured to be remotely operated by the wireless remote controller 23, and wirelessly receives digital broadcast signals using the two satellites S2 and S1 as relay stations.
[0003]
First, the CPU 16 sets the frequency, the demodulation method, and the like of the tuner unit 12b and the demodulator 13b in order to receive the reference packet multiplexed data from a predetermined satellite. Thus, the signals received by the antennas 11a and 11b are amplified and converted to an intermediate frequency by the tuner unit 12b, and then supplied to the demodulator 13b to demodulate the reference packet multiplexed data.
[0004]
The reference packet multiplexed data is supplied to the demultiplexer 14b, and each packet of NIT (network information table) and PAT (program association table) included therein is separated and temporarily stored in the buffer memory 15b. Is done.
Here, NIT describes the frequency, orbital position, modulation method, etc. of the transmission path in order to indicate which transmission path each broadcast program is transmitted, and its packet identification information is a fixed value. The fixed value is preset in the demultiplexer 14b.
[0005]
The PAT designates packet identification information of a TS packet that transmits a PMT (program map table) relating to each broadcast program. The packet identification information is a fixed value, and the fixed value is previously set in the demultiplexer 14b. Is set to The PMT designates packet identification information of TS packets that transmit each encoded signal constituting a broadcast program. In order to extract data constituting the actual contents of the program, it is essential to refer to the contents of the PMT. The packet identification information of PMT is indirectly specified by PAT.
[0006]
The CPU 16 sequentially reads and decodes the NIT and PAT packets temporarily stored in the buffer memory 15b, and sets PMT packet identification information corresponding to each program in the demultiplexer 14b based on the decoded PAT. .
Based on the PMT packet identification information corresponding to each program set by the CPU 16, the demultiplexer 14b separates the PMT packet corresponding to each program and temporarily stores it in the buffer memory 15b. The CPU 16 sequentially reads and decodes the PMT packet corresponding to each program temporarily stored in the buffer memory 15b.
[0007]
With such a procedure, the digital broadcast receiving apparatus 10 acquires packet identification information of a packet including data such as video and audio constituting the program for each program. When the designation of one program is received by the operation input unit 20 by the wireless remote controller 23 or the like, packet identification information of a packet including data constituting the program is read from the buffer memory 15b, and the packet of the packet identification information is read. Are demultiplexed by the demultiplexer 14a, and the program information decoder 21 decodes video, audio, and the like.
[0008]
[Patent Document 1]
JP-A-10-271464
[0009]
[Problems to be solved by the invention]
Conventionally, in order to refer to the PMT for extracting the data constituting the actual content of the broadcast program, the PAT is first received, and then the PMT packet identifier related to the target broadcast program is specified by referring to the PAT. And a procedure of receiving the PMT by the specified packet identifier is necessary.
[0010]
In order to shorten the time required to execute this procedure, a method of storing all broadcast packets in a memory and reading out and using necessary packets from the memory is also conceivable, but not only PAT and PMT, Since a huge amount of data constituting a program is included, a large-capacity memory is required. Mounting a large-capacity memory in a receiving device is an obstacle in terms of downsizing portable devices.
[0011]
Therefore, in view of the above, the present invention reduces the time required to acquire the actual content data of the target broadcast program using the PAT and PMT while suppressing the increase in the memory capacity to some extent, thereby achieving a balance of practicality. Another object is to provide a digital broadcast receiving apparatus.
[0012]
[Means for Solving the Problems]
In order to solve the above problem, the digital broadcast receiving apparatus of the present invention is a packet of a transport stream (TS) packet in which a component constituting the actual contents of each of one or more broadcast programs and a component of one broadcast program are accommodated. TS packet group containing a program map table (PMT) 1 or more indicating an identifier and a program association table (PAT) indicating a packet identifier of a TS packet containing a PMT corresponding to each broadcast program in the TS Is a broadcast receiving apparatus that performs playback control of a component of a designated one broadcast program, and is pre-determined as a PMT identifier among storage means for storing a PMT and TS packets received. TS packet containing PMT by the specified table identifier Acquired by distinguishing from other TS packets, extracting means for extracting PMT from the acquired TS packets and storing it in the storage means, and corresponding to the broadcast program according to the designation when receiving TS packets including PAT As long as the packet identifier of the TS packet including the PMT to be identified is identified from the received PAT, and the PMT of the identified packet identifier is already stored in the storage means, the packet indicated by the stored PMT Reproduction control means for obtaining a TS packet including the component of the broadcast program related to the designation using the identifier and performing reproduction control of the component.
[0013]
In addition, when the TS packet including the PMT includes a PMT corresponding to one broadcast program across a plurality of TS packets, the extraction unit has already acquired the TS packets among the plurality of TS packets. A packet identifier is obtained from the TS packet, and the remaining TS packets of the plurality of TS packets are obtained using the packet identifier.
[0014]
If the PMT corresponding to the designated broadcast program is not stored in the storage unit, the playback control unit waits for a TS packet including the PMT to be received, and receives the received TS packet. The TS packet including the component of the broadcast program related to the designation is acquired using the packet identifier indicated by the PMT included in the PMT, and playback control of the component is performed.
[0015]
The digital broadcast receiving method of the present invention is a program map table (showing packet identifiers of components constituting the actual contents of one or more broadcast programs and transport stream (TS) packets containing one broadcast program component). PMT) 1 or more, and a program association table (PAT) indicating a packet identifier of a TS packet containing a PMT corresponding to each broadcast program in the TS, is received and specified. A broadcast reception method for controlling reproduction of a component of a single broadcast program, wherein among TS packets to be received, a TS packet including the PMT is replaced with another TS packet by a table identifier predetermined as a PMT identifier. TS packet acquired and distinguished from An extraction step of extracting Luo PMT,
A storage step of storing the PMT extracted in the extraction step in a memory; and when a TS packet including a PAT is received, a packet identifier of a TS packet including the PMT corresponding to the broadcast program according to the designation is received by the received PAT More specifically, as long as the PMT of the specified packet identifier is already stored in the memory, the TS packet including the broadcast program component according to the designation using the packet identifier indicated by the stored PMT And a reproduction control step for performing reproduction control of the component.
[0016]
In addition, in the acquisition of the TS packet including the PMT, the extraction step includes that the PMT corresponding to one broadcast program is included in the plurality of TS packets and has already been acquired from the plurality of TS packets. A packet identifier is obtained from the TS packet, and the remaining TS packets of the plurality of TS packets are obtained using the packet identifier.
[0017]
The digital broadcast receiving program of the present invention is a program map table (showing packet identifiers of components constituting the actual contents of one or more broadcast programs and transport stream (TS) packets containing one broadcast program component). PMT) 1 or more, and a program association table (PAT) indicating a packet identifier of a TS packet containing a PMT corresponding to each broadcast program in the TS, is received and specified. A computer-executable digital broadcast receiving program for controlling reproduction of a component of a single broadcast program, the program using a table identifier predetermined as a PMT identifier among TS packets received by the computer , PMT A TS packet including a PAT, an extraction step for extracting a PMT from the acquired TS packet, a storage step for storing the PMT extracted in the extraction step in a memory, and a TS packet including the PAT. When received, the packet identifier of the TS packet including the PMT corresponding to the designated broadcast program is specified from the received PAT, and as long as the PMT of the specified packet identifier is already stored in the memory , A TS packet including the component of the broadcast program according to the designation is acquired using the packet identifier indicated by the stored PMT, and a reproduction control step for performing reproduction control of the component is executed.
[0018]
In addition, in the acquisition of the TS packet including the PMT, the extraction step includes that the PMT corresponding to one broadcast program is included in the plurality of TS packets and has already been acquired from the plurality of TS packets. A packet identifier is obtained from the TS packet, and the remaining TS packets of the plurality of TS packets are obtained using the packet identifier.
[0019]
The digital broadcast receiving apparatus of the present invention is a program map table (showing packet identifiers of components constituting the actual contents of one or more broadcast programs and transport stream (TS) packets containing one broadcast program component). PMT) 1 or more, and a program association table (PAT) indicating a packet identifier of a TS packet containing a PMT corresponding to each broadcast program in the TS, is received and specified. A broadcast receiving apparatus for controlling reproduction of a component of a broadcast program, which is predetermined as an identifier of a component constituting a predetermined broadcast program among storage means for storing stream data and received TS packets. By the table identifier When the TS packet including the PAT and the PMT is received, the TS packet including the PAT and the PMT is extracted and the component is extracted from the acquired TS packet and stored in the storage unit. As long as the packet identifier of the TS packet including the component of the broadcast program according to the designation is specified by the received PAT and PMT, and the component of the specified packet identifier is already stored in the storage means, Playback control means for controlling playback of stored components.
[0020]
The digital broadcast receiving method of the present invention is a program map table (showing packet identifiers of components constituting the actual contents of one or more broadcast programs and transport stream (TS) packets containing one broadcast program component). PMT) 1 or more, and a program association table (PAT) indicating a packet identifier of a TS packet containing a PMT corresponding to each broadcast program in the TS, is received and specified. A broadcast receiving method for controlling playback of broadcast program components,
Among the received TS packets, the TS packet including the component is obtained separately from other TS packets by using a table identifier predetermined as an identifier of a component constituting a predetermined broadcast program, and the obtained TS packet An extraction step of extracting the component from the storage step and storing it in the storage step; a storage step of storing the extracted stream data in a memory; and a TS program including a PAT and a PMT when receiving the TS packet As long as the packet identifier of the TS packet including the component is specified by the received PAT and PMT and the component of the specified packet identifier is already stored in the storing step, the stored component is reproduced. Control Cormorants and a playback control step.
[0021]
The digital broadcast receiving program of the present invention is a program map table (showing packet identifiers of components constituting the actual contents of one or more broadcast programs and transport stream (TS) packets containing one broadcast program component). PMT) 1 or more, and a program association table (PAT) indicating a packet identifier of a TS packet containing a PMT corresponding to each broadcast program in the TS, is received and specified. A broadcast reception program for controlling reproduction of the components of the broadcast program, the program using a table identifier predetermined as an identifier of a component constituting a predetermined broadcast program among the TS packets received by the computer , The component A TS packet that includes a TS packet including a receiver, and an extraction step for extracting the component from the acquired TS packet and storing it in the storage step; and a storage step for storing the extracted stream data in a memory. When the TS packet including the PAT and PMT is received, the packet identifier of the TS packet including the component of the broadcast program according to the designation is specified by the received PAT and PMT, and the component of the specified packet identifier As long as the memory is already stored in the storing step, a playback control step for performing playback control of the stored component is executed.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
(Embodiment 1)
FIG. 1 shows a configuration of a digital broadcast receiving apparatus according to the first embodiment.
In the figure, a digital broadcast receiving apparatus 100 includes an antenna 101, a tuner 102, a demodulation unit 110, a first packet identification information separation unit 111, an ES output unit 112, a second packet identification information separation unit 113, a table identification information separation unit 121, The storage unit 122, the program sequence information decoding unit 123, a frequency setting unit 131, and a control unit 132 are included.
[0023]
The frequency setting unit 131 sets the frequency specified by the control unit 132 in the tuner 102.
The tuner 102 receives a signal in which a plurality of audio signals and data signals input from the antenna 101 are multiplexed.
The demodulator 110 demodulates the signal output from the tuner 102 and outputs it in the form of a transport stream (hereinafter referred to as TS).
[0024]
The first packet identification information separation unit 111 extracts a packet having a packet identifier specified by the control unit 132 and outputs the packet to the ES output unit 112. This packet includes an elementary stream of a broadcast program selected by the user.
The ES output unit 112 converts the TS signal output from the first packet identification information separation unit 111 into an elementary stream (hereinafter referred to as ES) format, and outputs an audio signal, a video signal, and a data signal.
[0025]
The second packet identification information separation unit 113 extracts a packet including a packet identifier specified by the control unit 132 and outputs the packet to the storage unit 122. This packet is a TS packet signal or program arrangement information.
The storage unit 122 stores the TS packet signal or program arrangement information separated by the table identification information separation unit 121 and the TS packet signal or program arrangement information separated by the second packet identification information separation unit 113.
[0026]
The program sequence information decoding unit 123 decodes the program sequence information stored in the storage unit 122 and outputs it to the control unit 132.
The control unit 132 sets a frequency for the frequency setting unit 131, sets a packet identifier in each of the first packet identification information separation unit 111 and the second packet identification information separation unit 113, and a table identifier for the table identification information separation unit 121. Set up.
[0027]
Hereinafter, the operation of the digital broadcast receiving apparatus 100 will be described.
FIG. 2 shows a process for specifying the payload included in the TS packet.
When the TS packet shown in FIG. 3 is received, 100 acquires the payload unit start indicator 312 included in the byte next to the synchronization byte 310 (step S42). Here, the payload unit start indicator indicates that the start point of the payload of the TS packet is the start point or pointer of the PES packet when “1”.
[0028]
100 determines the value of the payload unit start indicator 312. If it is “0”, the process ends, and if it is “1”, the process proceeds to step S43 (step S42).
100 acquires the packet identification information 314 and the adaptation field control 316 (steps S43 and S44).
[0029]
Here, the packet identification information (PID) is for identifying the type of payload data such as PAT, CAT, NIT, program arrangement information, PMT, and the like. However, PID of PMT is indirectly specified by PAT.
The adaptation field control indicates the configuration of the adaptation field / payload portion. FIG. 4 shows the assignment.
[0030]
Subsequently, 100 determines the value of the adaptation field control 316 (step S42). If the result of the determination is “11”, the adaptation field / payload portion is composed of an adaptation field and a payload as shown in FIG. In that case, 100 acquires the adaptation field length 321 (step S46), jumps by the adaptation field length (step S47), and specifies the position of the payload.
[0031]
On the other hand, if the result of determination is “01”, the adaptation field / payload portion is composed only of the payload as shown in FIG.
100 performs payload processing for the payload whose position is specified (step S48).
FIG. 5 shows payload processing.
[0032]
100 acquires the first byte of the payload (S51), and determines whether or not the value of the first byte is “0” (step S52).
If the first byte of the payload is not “0”, the first byte of the payload is determined as the pointer field 610 shown in FIG. 6, the section position is specified by jumping by the value indicated by the pointer field, and the process proceeds to section processing ( Step S62)
On the other hand, if the first byte of the payload is “0” in step S52, the second byte of the payload is acquired (step S53).
[0033]
100 determines whether or not the second byte of the payload is “0” (step S54). If the determination result is “0”, the process proceeds to step S55, and if it is not “0”, the process proceeds to the section process of step S62.
In step S55, 100 determines whether or not the packet identification information 314 acquired in step S43 is “0” (step S55).
If the result of determination in step S55 is “0”, the payload data is PAT, and 100 executes PAT processing (step S64).
[0034]
On the other hand, if the result of the determination in step S55 is not “0”, the payload data is a packetized elementary stream (hereinafter referred to as PES), and 100 proceeds to the process of step S56.
100 acquires the third byte of the payload (step S56).
Then, 100 determines whether or not the third byte of the payload is “1” (0x01) (step S57).
[0035]
If the result of determination is not “1”, the payload is neither PES nor program sequence information, so an error is set and the process ends (step S65). On the other hand, when the value of the third byte of the payload is “1”, the processing ends normally.
FIG. 7 shows section processing.
The table identification information separation unit 121 acquires the table identification information 612 that is the first byte of the program arrangement information (step S71), and compares the value with the table identification information setting value set by the control unit 132 (step S72). .
[0036]
As a result of the comparison, if the table identification information 612 is not the same as the table information setting value, the process is terminated. If the table identification information 612 is the same, the program arrangement information is stored in the storage unit 122 (step S73).
Here, if the control unit 132 sets “2” which is the table identification information of the PMT shown in FIG. 8 as the table identification information setting value to be set in the table identification information separation unit 121, the storage unit 12 stores the PMT. Is memorized. When the PMT does not fit in one TS packet, the control unit 132 sets the PMT packet identification information obtained by the table identification information separation unit 121 in the second packet identification information separation unit 113. Then, the second packet identification information separation unit 113 extracts the TS packet of the set packet identification information, that is, the PMT TS packet, and outputs it to the storage unit 122. Therefore, the storage unit 122 extends over a plurality of TS packets. The stored PMT can be stored.
[0037]
In the conventional method, since the packet identification information is not defined in the PMT, the packet identification information of the PMT is not known unless the PAT is received once. However, if this method is used, the table identification information of the PMT is set. Then, the PMT can be acquired and stored, so that signals transmitted in the order of PMT and PAT can also be acquired and processed in this order. When the PMT is acquired and the PMT packet identifier of the target broadcast program can be specified from the PAT, if the PMT is already acquired and stored, the stored PMT is used. Can do. According to the conventional technique, it takes time to specify the packet identifier of the PMT according to the contents of the PAT and then broadcast and receive the PMT of the packet identifier. Since the PMT has already been stored in the part, such time is no longer required, so that the time required for the broadcast program to be played after the target broadcast program is designated is greatly reduced. . The storage unit only acquires and stores the PMT. As described in the prior art, this requires a particularly small memory capacity as compared with a method of acquiring and storing all types of TS packets for time reduction.
[0038]
As described above, it is possible to reduce the time required to acquire the actual content data of the target broadcast program using the PAT and PMT while suppressing the increase in the memory capacity to some extent. Such a technique for shortening the time and reducing the increase in memory is particularly useful for portability and miniaturization of the digital broadcast receiving apparatus.
(Embodiment 2)
FIG. 9 shows a configuration of a digital broadcast receiving apparatus according to the second embodiment.
[0039]
In the figure, a digital broadcast receiving apparatus 200 includes an antenna 101, a tuner 102, a demodulation unit 110, a first packet identification information separation unit 111, an ES output unit 112, a second packet identification information separation unit 113, a storage unit 122, and program arrangement information. The decoding unit 123 includes a PES header information detection unit 221, a stream identification information detection unit 242, a frequency setting unit 131, and a control unit 232. In this configuration, the components having the same reference numerals as those in FIG. 1 are the same, and thus the description thereof will be omitted.
[0040]
The PES header information detection unit 221 detects a PES header signal included in the payload from the TS format signal, and outputs the PES to the stream identification information detection unit 242.
The stream identification information detection unit 242 acquires stream identification information included in the PES header signal.
[0041]
The control unit 232 sets the frequency in the frequency setting unit 131, sets the packet identification information in the first packet identification information separation unit 111 and the second packet identification information separation unit 113, and the like.
FIG. 10 illustrates payload processing according to the second embodiment.
When the digital broadcast receiving apparatus 200 performs the process of FIG. 2 and the payload process is called in step S48, the digital broadcast receiving apparatus 200 executes the process of FIG.
[0042]
200 acquires the first byte of the payload (step S81) and determines the value (step S82).
As a result of the determination, if the first byte of the payload is not “0”, it is determined that the payload is not PES, and the processing is terminated.
If the first byte of the payload is “0”, the second byte of the payload is acquired (step S83), and its value is determined (step S84).
[0043]
If the second byte of the payload is not “0”, it is determined that the payload is not PES, and the process is terminated.
If the second byte of the payload is “0”, the third byte of the payload is acquired (step S85), and its value is determined (step S86).
If the third byte of the payload is not “1”, it is determined that the payload is not PES, and the process is terminated.
[0044]
If the third byte of the payload is “1”, it is determined that the PES packet start code prefix 510 shown in FIG. 11 has been detected, and the process proceeds to step S87. Subsequently, 200 acquires the stream identification information 511 in the fourth byte of the payload (step S87), and compares this value with the stream identification information setting value set in the stream identification information detection unit 242 (step S87). S88).
[0045]
FIG. 12 shows the relationship between the stream identification information and the content of the encoded data.
Here, when it is desired to output an audio stream as an ES output, the stream identification information “110xxx × xxxx” (x may be 0 or 1) indicating the audio stream from FIG. If this is the same as the received stream identification information, it is determined that the desired ES has been received. If the packet identification information of the received packet is set in the first packet identification information separation unit 111, the ES output unit 112 can output an audio stream.
[0046]
With this reception method, audio output is possible without receiving PAT or PMT data, so that the time from the start of reception to audio output can be implemented in a shorter time. If a video or data signal is to be output, the target signal can be output from the ES output unit 112 by selecting and setting the corresponding stream identification information from FIG. In a receiver having a display function, after a sound is output first, data for display can be acquired in accordance with the following method.
[0047]
The control unit 232 sets the PAT packet identification information “0” and the NIT packet identification information “10” (hexadecimal notation) to be acquired as program arrangement information in the second packet identification information separation unit 113.
If the packet identification information of the received TS is a value of “0” or “10” (hexadecimal notation), it is stored in the storage unit 122, and the information stored in the program sequence information decoding unit 123 is processed and included in the PAT. PMT packet identification information detection processing is performed.
[0048]
FIG. 13 shows the configuration of the PAT, and FIG. 14 shows the configuration of the PMT.
The PMT packet identification information is performed by a 13-bit signal of PMT_PID743 included in the PAT. One or more PMT_PIDs 743 exist in the PAT. When the control unit 232 sets the PMT packet identification information detected here in the second packet identification information separation unit 113, the PMT is separated from the TS and stored in the storage unit 122.
[0049]
The program sequence information decoding unit 123 processes the PMT stored in the storage unit 122, extracts the value of the elementary PID 843 included in the PMT, and the control unit 232 identifies the first packet by the output of the stream identification information detection unit 242. Whether the packet identification information is the same as the packet identification information set in the information separation unit 111 is determined. If the packet identification information is the same, the value of the broadcast program number identification information 821 at this time is extracted.
[0050]
Therefore, if the method described above is used, a signal included in an audio or video ES can be extracted without receiving PAT or PMT data. Therefore, the time from the start of reception to audio or video output can be reduced. It becomes possible to shorten more.
[0051]
【The invention's effect】
The digital broadcast receiving apparatus of the present invention is a program map table (showing packet identifiers of components constituting the actual contents of one or more broadcast programs and transport stream (TS) packets containing one broadcast program component). PMT) 1 or more, and a program association table (PAT) indicating a packet identifier of a TS packet containing a PMT corresponding to each broadcast program in the TS, is received and specified. A broadcast receiving apparatus that performs playback control of a component of a single broadcast program, and includes a storage means for storing a PMT and a table identifier that is predetermined as an identifier of the PMT among received TS packets. Differentiate TS packets containing PMT from other TS packets An extraction means for extracting the PMT from the acquired TS packet and storing it in the storage means; and when receiving a TS packet containing a PAT, a TS packet containing the PMT corresponding to the broadcast program according to the designation As long as the PMT of the identified packet identifier is already stored in the storage means, the packet identifier indicated by the stored PMT is used for the designation. And a reproduction control means for acquiring a TS packet including a component of the broadcast program according to the above and performing reproduction control of the component.
[0052]
According to this configuration, the present apparatus can store the PMT received prior to the PAT in the memory by being distinguished by the table identifier. When the PMT is received later and the PMT necessary for the target broadcast program is found from the contents of the PAT, the PMT can be acquired in a short time if the PMT is stored in the storage means. If the PMT of the target broadcast program can be acquired in a short time, the time required to acquire the component of the target broadcast program is shortened.
[0053]
Further, the memory does not need to store all the received TS packets, and only needs to store the PMT corresponding to each broadcast program, so that the memory can be prevented from increasing. Therefore, this apparatus is useful for a portable apparatus for which high speed and small size are particularly required.
In addition, when the TS packet including the PMT includes a PMT corresponding to one broadcast program across a plurality of TS packets, the extraction unit has already acquired the TS packets among the plurality of TS packets. A packet identifier is obtained from the TS packet, and the remaining TS packets of the plurality of TS packets are obtained using the packet identifier.
[0054]
According to this configuration, even when the PMT is transmitted across a plurality of TS packets, the packet identifier of the TS packet is specified, and the TS packet of the PMT is distinguished from other TS packets using the packet identifier. Can be acquired.
If the PMT corresponding to the designated broadcast program is not stored in the storage unit, the playback control unit waits for a TS packet including the PMT to be received, and receives the received TS packet. The TS packet including the component of the broadcast program related to the designation is acquired using the packet identifier indicated by the PMT included in the PMT, and playback control of the component is performed.
[0055]
According to this configuration, even when the PMT of the target broadcast program is not stored in the storage unit, it is guaranteed that the apparatus can acquire the component of the target broadcast program by the conventional method.
The digital broadcast receiving apparatus of the present invention is a program map table (showing packet identifiers of components constituting the actual contents of one or more broadcast programs and transport stream (TS) packets containing one broadcast program component). PMT) 1 or more, and a program association table (PAT) indicating a packet identifier of a TS packet containing a PMT corresponding to each broadcast program in the TS, is received and specified. A broadcast receiving apparatus for controlling reproduction of a component of a broadcast program, which is predetermined as an identifier of a component constituting a predetermined broadcast program among storage means for storing stream data and received TS packets. By the table identifier When the TS packet including the PAT and the PMT is received, the TS packet including the PAT and the PMT is extracted and the component is extracted from the acquired TS packet and stored in the storage unit. As long as the packet identifier of the TS packet including the component of the broadcast program according to the designation is specified by the received PAT and PMT, and the component of the specified packet identifier is already stored in the storage means, Playback control means for controlling playback of stored components.
[0056]
According to this structure, this apparatus distinguishes the components of a broadcast program by the stream identifier and stores them in a memory. When PAT and PMT are received later and the packet identifier of the component of the target broadcast program is found, if the component is stored in the storage means, the component can be acquired in a short time. Further, the memory does not need to store all TS packets, and it is only necessary to store the components, so that the memory can be prevented from increasing.
[Brief description of the drawings]
FIG. 1 shows a configuration of a digital broadcast receiving apparatus according to a first embodiment.
FIG. 2 shows processing for specifying a payload included in a TS packet.
FIG. 3 shows a data structure of a TS packet.
FIG. 4 is a table showing allocation of adaptation field control.
FIG. 5 shows payload processing.
FIG. 6 shows a data structure of a payload including program arrangement information.
FIG. 7 shows section processing.
FIG. 8 is a table showing a relationship between a table name, table identification, and packet identification.
FIG. 9 shows a configuration of a digital broadcast receiving apparatus according to the second embodiment.
FIG. 10 shows payload processing according to the second embodiment.
FIG. 11 shows a data structure of a PES.
FIG. 12 shows the relationship between stream identification information and the content of encoded data.
FIG. 13 shows a data structure of a PAT.
FIG. 14 shows a data structure of a PMT.
FIG. 15 shows a configuration of a conventional digital broadcast receiving apparatus.
[Explanation of symbols]
100 Digital broadcast receiver
101 Antenna
102 Tuner
110 Demodulator
111 First packet identification information separation unit
112 ES output section
113 Second packet identification information separator
121 Table identification information separator
122 storage unit
123 Program sequence information decoding unit
131 Frequency setting part
132 Control unit
200 Digital Broadcasting Receiver
221 PES header information detector
232 control unit
242 Stream identification information detection unit

Claims (10)

Components constituting the actual contents of each of one or more broadcast programs, a program map table (PMT) 1 or more indicating a packet identifier of a transport stream (TS) packet containing one broadcast program component, Receiving a program association table (PAT) indicating a packet identifier of a TS packet containing a PMT corresponding to each broadcast program and a TS packet group containing the designated packet, and reproducing a component of one designated broadcast program A broadcast receiving device that performs control,
Storage means for storing the PMT;
When TS packets including PAT are not received, TS packets including PMT are obtained separately from other TS packets by a table identifier predetermined as an identifier of PMT among the received TS packets, Extraction means for extracting a PMT from the acquired TS packet and storing it in the storage means;
When a TS packet including a PAT is received, a packet identifier of a TS packet including a PMT corresponding to the designated broadcast program is specified from the received PAT, and the PMT of the specified packet identifier is the storage unit As long as it is already stored in the storage device, a playback control means for acquiring a TS packet including the component of the broadcast program according to the designation using the packet identifier indicated by the stored PMT, and performing playback control of the component, A digital broadcast receiver characterized by comprising: The extraction means includes
When acquiring a TS packet including a PMT and a PMT corresponding to one broadcast program is included across a plurality of TS packets, a packet identifier is determined from the already acquired TS packets of the plurality of TS packets. The digital broadcast receiving apparatus according to claim 1, wherein the remaining TS packets of the plurality of TS packets are acquired using the packet identifier. If the PMT corresponding to the designated broadcast program is not stored in the storage unit, the playback control unit waits for a TS packet including the PMT to be received, The digital broadcast receiving apparatus according to claim 2, wherein a TS packet including a component of the designated broadcast program is acquired using a packet identifier indicated by the included PMT, and reproduction control of the component is performed. Components constituting the actual contents of each of one or more broadcast programs, a program map table (PMT) 1 or more indicating a packet identifier of a transport stream (TS) packet containing one broadcast program component, Receiving a program association table (PAT) indicating a packet identifier of a TS packet containing a PMT corresponding to each broadcast program, and a TS packet group containing the specified packet, and reproducing a component of one designated broadcast program A broadcast receiving method for performing control,
When TS packets including PAT are not received, TS packets including PMT are obtained separately from other TS packets by a table identifier predetermined as an identifier of PMT among the received TS packets, An extraction step of extracting a PMT from the acquired TS packet;
A storage step of storing in the memory the PMT extracted by the extraction step;
When a TS packet including a PAT is received, a packet identifier of a TS packet including a PMT corresponding to the designated broadcast program is specified from the received PAT, and the specified packet identifier PMT is stored in the memory. As long as it is already stored, a TS packet including the component of the broadcast program related to the designation is acquired using the packet identifier indicated by the stored PMT, and a playback control step for performing playback control of the component is performed. A digital broadcast receiving method comprising: The extraction step includes
When acquiring a TS packet including a PMT and a PMT corresponding to one broadcast program is included across a plurality of TS packets, a packet identifier is determined from the already acquired TS packets of the plurality of TS packets. The digital broadcast receiving method according to claim 4, wherein the remaining TS packets of the plurality of TS packets are acquired using the packet identifier. Components constituting the actual contents of each of one or more broadcast programs, a program map table (PMT) 1 or more indicating a packet identifier of a transport stream (TS) packet containing one broadcast program component, Receiving a program association table (PAT) indicating a packet identifier of a TS packet containing a PMT corresponding to each broadcast program, and a TS packet group containing the specified packet, and reproducing a component of one designated broadcast program A computer-executable digital broadcast receiving program for performing control, the program being stored in a computer,
When TS packets including PAT are not received, TS packets including PMT are obtained separately from other TS packets by a table identifier predetermined as an identifier of PMT among the received TS packets, An extraction step of extracting a PMT from the acquired TS packet;
A storage step of storing in the memory the PMT extracted by the extraction step;
When a TS packet including a PAT is received, a packet identifier of a TS packet including a PMT corresponding to the designated broadcast program is specified from the received PAT, and the specified packet identifier PMT is stored in the memory. As long as it is already stored, a TS packet including the component of the broadcast program related to the designation is acquired using the packet identifier indicated by the stored PMT, and a playback control step for performing playback control of the component is performed. A digital broadcast receiving program characterized by being executed. In the acquisition of a TS packet including a PMT, the extraction step includes a case where a PMT corresponding to one broadcast program is included across a plurality of TS packets, and has already been acquired from the plurality of TS packets. The digital broadcast receiving program according to claim 6, wherein a packet identifier is obtained from a TS packet, and the remaining TS packets of the plurality of TS packets are obtained using the packet identifier. Components constituting the actual contents of each of one or more broadcast programs, a program map table (PMT) 1 or more indicating a packet identifier of a transport stream (TS) packet containing one broadcast program component, A program association table (PAT) indicating a packet identifier of a TS packet containing a PMT corresponding to each broadcast program and a TS packet group containing the received packet are received, and playback control of the component of the designated broadcast program is performed. A broadcast receiving device to perform,
Storage means for storing stream data;
When a TS packet including PAT and PMT has not been received, a TS packet including the component is determined by a table identifier predetermined as an identifier of a component constituting a predetermined broadcast program among the received TS packets. An extraction unit that is obtained separately from other TS packets, extracts the component from the acquired TS packet, and stores the extracted component in the storage unit;
When a TS packet including PAT and PMT is received, the packet identifier of the TS packet including the component of the broadcast program according to the designation is specified by the received PAT and PMT, and the component of the specified packet identifier is A digital broadcast receiving apparatus comprising: reproduction control means for performing reproduction control of the stored component as long as it is already stored in the storage means. Components constituting the actual contents of each of one or more broadcast programs, a program map table (PMT) 1 or more indicating a packet identifier of a transport stream (TS) packet containing one broadcast program component, A program association table (PAT) indicating a packet identifier of a TS packet containing a PMT corresponding to each broadcast program and a TS packet group containing the received packet are received, and playback control of the component of the designated broadcast program is performed. A broadcast receiving method to perform,
When a TS packet including PAT and PMT has not been received, a TS packet including the component is determined by a table identifier predetermined as an identifier of a component constituting a predetermined broadcast program among the received TS packets. An extraction step of acquiring the component separately from other TS packets, extracting the component from the acquired TS packet and storing it in the storage step;
A storage step of storing the extracted stream data in a memory;
When a TS packet including PAT and PMT is received, the packet identifier of the TS packet including the component of the broadcast program according to the designation is specified by the received PAT and PMT, and the component of the specified packet identifier is A digital broadcast receiving method comprising: a reproduction control step for performing reproduction control of the stored component as long as it is already stored in the storage step. Components constituting the actual contents of each of one or more broadcast programs, a program map table (PMT) 1 or more indicating a packet identifier of a transport stream (TS) packet containing one broadcast program component, A program association table (PAT) indicating a packet identifier of a TS packet containing a PMT corresponding to each broadcast program and a TS packet group containing the received packet are received, and playback control of the component of the designated broadcast program is performed. A broadcast receiving program to be executed by the computer,
When a TS packet including PAT and PMT has not been received, a TS packet including the component is determined by a table identifier predetermined as an identifier of a component constituting a predetermined broadcast program among the received TS packets. An extraction step of acquiring the component separately from other TS packets, extracting the component from the acquired TS packet and storing it in the storage step;
A storage step of storing the extracted stream data in a memory;
When a TS packet including PAT and PMT is received, the packet identifier of the TS packet including the component of the broadcast program according to the designation is specified by the received PAT and PMT, and the component of the specified packet identifier is As long as the memory is already stored by the storing step, a playback control step for performing playback control of the stored component is executed.

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