JP3741668B2 - Data multiplexer - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a data multiplexing apparatus that encodes a plurality of video signals, audio signals, and the like, multiplexes them, and transmits them.
[0002]
[Prior art]
FIG. 5 shows a conventional data transmission system in digital television broadcasting that performs multiplexing and demultiplexing. This data transmission system further includes encoders 10 ₁ to 10 _N on which the transmission side converts the video, audio, and other data of each program 1 to N to bit data, and a stream multiplexed by each encoder. And a multiplexer 12 for multiplexing, a separator 12 for separating each stream multiplexed on the receiving side into a single stream, and decoders 13 _{1 to} 13 for outputting each stream as programs 1 to N, respectively. _N.
[0003]
In digital television broadcasting, a program is composed of a packet sequence called a transport stream (TS), and a single program transport stream (TS) is a video that constitutes a broadcast program. One or more elementary streams (ES: Elementary Stream) of audio, other data are multiplexed, and a plurality of single program transport streams are multiplexed to form a multiple program transport stream. It is configured and sent to the transmission line. On the other hand, on the receiving side, separation processing for extracting a plurality of single program transport streams from a plurality of program transport streams is performed.
[0004]
There is an international standard MPEG standard for television video and audio compression coding, and MPEG-2 is a standard format including an interlace structure that is a television broadcast format in MPEG-1 as a video compression format. ITU-T recommendation An MPEG transport stream according to 222.0 ISO / IEC13818-1 (Systems) includes a program called PSI (Program Specific Information) in addition to an elementary stream that constitutes a program composed of video, audio, and other data. Configuration information (such as channel and program-related control information) is included. PSI is an additional information table (PAT, CAT, PMT, NIT, SDT, EIT, TDT, BIT) in detail. Control at the time of channel selection (channel number) and ES switching at the receiver and the viewer It is added in consideration of convenience.
[0005]
In the transport stream, information such as elementary streams and PSI is divided into 188-byte packets and multiplexed. This TS packet is composed of a header (4 bytes) and a payload, and a 13-bit identifier called PID (Packet Identification) is stored in this header, and the content of data stored in the payload is identified by this identifier. it can. Information for identifying the content of the packet from the PID is included in PSI (program configuration information) in which information such as whether the packet is video or audio is stored in a table in the section format of the payload.
[0006]
Normally, the transport stream contains invalid data called null packets with a PID of (0x1FFF) in order to keep the amount of information (bit rate) constant, and is inserted or deleted during multiplexing or demultiplexing Is done. When a plurality of single program transport streams are multiplexed and a plurality of program transport streams are transmitted, non-overlapping PIDs are assigned and PSI is also changed so that the elementary streams constituting each program can be identified.
[0007]
By the way, since the PID value is determined to be (0x1FFF), the null packet cannot be changed, but it is inserted timely so that the bit rate of the multiple program transport stream matches the transmission path. Or can be deleted. For this reason, the null packet for each program cannot be distinguished. Further, since null packets are added so as to match the bit rate of the transmission path by multiplexing, the bit rate of the null packets is not necessarily the total value of packets for each program.
[0008]
For example, when the stream A having 3 null packets and the stream B having 2 null packets are multiplexed, if the number of multiplexed null packets is 6 from the bit rate of the transmission line, At the time of conversion, a shortage is added from the null generator so that the number of null packets becomes six. As a result, the total value of the input does not match the number of null packets on the transmission path.
[0009]
On the other hand, on the receiving side, when acquiring a single program transport stream from a plurality of program transport streams, information on each single program transport stream is obtained from the PSI (program configuration information) of the plurality of program transport streams. The packet for each program is selected and output. At this time, elementary streams such as video and audio constituting each program on the transmission side can be identified, but null packets cannot be identified.
[0010]
Therefore, on the receiving side, an appropriate output may not be obtained, such as outputting a single program transport stream having a high bit rate that prevents the decoder from operating normally. Therefore, it is necessary for the receiving side to obtain information on the transmitting side by some method. For example, information such as the bit rate of each program on the transmission side must be obtained in advance and designated on the output side. Alternatively, it is necessary to realize a system in which information such as a bit rate required on the output side is multiplexed on the transmission side.
[0011]
[Problems to be solved by the invention]
As described above, in digital television broadcasting, information such as the bit rate of each program on the transmission side is obtained in advance and specified on the reception side, and an appropriate single program transport What can be solved by outputting a stream is questionable as to whether it can be reliably set on the receiving side based on that information when necessary information is changed.
[0012]
Also, even if a system that multiplexes additional information such as the bit rate required on the receiving side is multiplexed on the transmitting side, it is necessary to obtain the additional information on the receiving side, which complicates the system and reduces costs. Such a problem arises.
[0013]
The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a data multiplexing apparatus that can be easily received without being aware of setting information on the transmission side. To do.
[0014]
[Means for Solving the Problems]
The present invention has been made to achieve the above object , and the invention according to claim 1 encodes a video or audio signal to generate a stream composed of a plurality of packets, A data multiplexing apparatus for multiplexing and transmitting by a multiplexing means ,
The data multiplexing device comprises: stream analysis means for analyzing the program information of the stream based on a packet identifier (PID) ;
Null packet conversion means for converting the null packet of the stream into a format composed of the adaptation field information of MPEG-2 excluding the packet identifier to form a dummy packet ;
And a data control means for controlling said multiplexing means and said null packet conversion means as a result of the stream analyzing means,
The multiplexing means rewrites the packet identifier of the dummy packet to the same packet identifier as an unconverted packet in the same individual stream based on the data control means, and multiplexes the output of the null packet conversion means Is a data multiplexing device characterized by the above.
[0015]
According to the first aspect of the present invention, there is provided a data multiplexing apparatus for use in digital television broadcasting, wherein stream program information obtained by encoding video signals, audio signals, etc. constituting a program is converted into stream analysis means (stream information). The information ( packet identifier, PID, etc.) required for multiplexing is obtained by analysis by the analyzer, and the data converter (null packet converter) is obtained by the data controller (controller) based on the result of the stream analyzer ), A specific packet (null packet) for bit rate adjustment of the stream input to the data conversion means is converted into a predetermined format to be a dummy packet, and is input to the multiplexing means (multiplexer) and multiplexed. The transmission line is encoded and transmitted to the transmission line.
[0016]
By performing such data multiplexing processing, the multiplexing unit multiplexes null packets in accordance with a predetermined bit rate required on the receiving side based on control from the data control unit. On the receiving side, the single program transport stream can be easily separated by a separator from a plurality of program transport streams in which the bit rate of the video, audio signal and other data streams is constant.
[0018]
In the present invention, specified packets in a single program transport stream is a null packet for adjustment bit rate, converts the null packet to the dummy packet, a plurality of single program transport including Damipake' bets By multiplexing the streams, the receiving side can demodulate an appropriate single program stream.
[0020]
In addition , the transport stream in the MPEG system is adopted, and the format for converting a specific packet (null packet) for bit rate adjustment into a predetermined format is configured based on the adaptation field information of the transport stream. Has been. That is, the adaptation field is provided with 8 × M bit stuffing bytes. Since this area is automatically removed on the receiving side, there is no adverse effect during reproduction, and the bit rate can be made constant, which is convenient.
[0021]
That is, in the data multiplexing apparatus of the present invention, in the TS multiplexing processing by the multiplexing means (multiplexer), a null packet is added as a dummy packet and multiplexed so that a plurality of program transport streams have a constant bit rate. Therefore, the receiving side can easily perform demodulation without obtaining information such as the bit rate.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of a data multiplexing apparatus according to the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram illustrating a main part of a data multiplexing apparatus that performs encoding processing on the transmission side according to the present embodiment. FIG. 2 is a block diagram showing a main part of a data demodulating apparatus that performs decoding processing on the receiving side. FIG. 3 shows a null packet, and FIG. 4 shows a dummy packet syntax.
[0023]
In FIG. 1, inputs 1, 2,... N (1) are transport streams in which one or more elementary streams of video, audio, and other data constituting a program encoded in the MPEG system are multiplexed. It is. The transport stream is a time-division multiplexed transmission unit called a TS packet, and the TS packet is composed of a header and a payload (information such as encoded video, audio and program information). A stream analyzer 2, a null packet converter (data converter) 4, and a null packet generator 7 are provided in the preceding stage of the multiplexer 5, corresponding to the input N, the stream analyzer 2, Null packet converters (data converters) 4 are provided, and their outputs are input to the multiplexer 5. The controller 3 controls a null packet converter (data converter) 4, a null packet generator 7, and a multiplexer 5. In the multiplexer 5, based on the control of the controller 3 based on the result of the stream analyzer 2, the outputs from the null packet converter 4 and the null packet generator 7 corresponding to the input N are input and multiplexed, A plurality of single program transport streams are multiplexed, and the multiple program transport streams are sent to the transmission line as output 6.
[0024]
Then, each component of this embodiment is demonstrated in detail. The stream analyzer 2 includes stream analysis means for analyzing the program configuration information of the inputs 1, 2,... Specifically, the PSI (program configuration information) included in the single program transport stream is analyzed to determine the configuration of the transport stream of the input 1, and the PID (identifier) of the component Etc.) to acquire information necessary for multiplexing. Based on this information, the controller 3 controls the null packet converter 4.
[0025]
Based on the information obtained from the stream analyzer 2, the controller 3 assigns and assigns PIDs of packets to be multiplexed (identifiers of TS packets and indicating individual stream attributes of the packets) so as not to overlap. Give instructions. At this time, the controller 3 performs allocation so that the null packet of input 1 and the null packet of other inputs can be distinguished. In many cases, the input N transport stream includes a video stream and occupies a large proportion, so it is desirable to assign the same PID. Alternatively, the video stream can be an independent private stream. The PID is used for filtering TS packets required on the receiving side (passing data that meets a specific condition).
[0026]
The null packet converter 4 converts the null packet into a predetermined data format (format) in accordance with an instruction from the controller 3. An example of a null packet is shown in FIG. A null packet is converted into a packet having the format shown in FIG. 4 by conversion processing. Hereinafter, this packet is referred to as a dummy packet. The dummy packet is identified as a packet having only an adaptation field (adaptation field) regardless of the PID. Since this adaptation field does not contain valid information, it does not affect the processing on the transmission path and the receiving side. Then, in the decoder on the receiving side, the dummy packet is discarded. The dummy packet has the same effect as a null packet added to make the bit rate constant when multiplexing video signals and audio signals having different data amounts.
[0027]
That is, a transport stream in which dummy packets having the same PID as the video stream are multiplexed can be identified as a video stream based on the presence / absence of valid information in the adaptation field.
[0028]
The multiplexer 5 performs PID rewriting and multiplexing processing according to instructions from the controller 3. The output 6 of the multiplexer 5 becomes a program transport stream obtained by multiplexing a plurality of single program transport streams, and is output to the transmission path. The null packet generator 7 generates a null packet according to an instruction from the controller 3. Thereby, in the data multiplexing apparatus of this embodiment, the output 6 matched with the bit rate required in the transmission line can be obtained.
[0029]
Next, a data decoding apparatus for a multiple program transport stream by the data multiplexing apparatus of the present invention will be described with reference to the block diagram of FIG.
[0030]
In FIG. 2, an input 101 (1) is a multi-program transport stream obtained by multiplexing a plurality of single program streams received from the transmission path. The multi-program transport stream is divided into a stream analyzer 102 and a separator 104. The multi-program transport stream is analyzed by the stream analyzer 102. The analysis result of the stream analyzer 102 is input to the controller 103, and the separator 104 is controlled. The multiple program transport stream input to the separator 104 is input to the multiplexers 106 and 110 via the null packet inverse converters 105 and 109 to be converted into a single program transport stream. The multiplexers 106 and 110 receive the outputs of the null packet generators 108 and 109, respectively, and send the single program transport streams as outputs 107 and 111 (1, 2), respectively.
[0031]
In the stream analyzer 102, the program configuration information and the like of the input 101 are analyzed. Specifically, the PSI of the multi-program transport stream is analyzed, the structure of the transport stream is analyzed, and information necessary for multiplexing such as the PID of the component is obtained. Be obtained.
[0032]
The controller 103 controls the separator 104 and the like so that a single program stream is output based on the information obtained from the stream analyzer 102. The separator 104 switches the output destination of the packet from the PID according to an instruction from the controller 103, and extracts a predetermined single program transport stream for each of the outputs 1 and 2.
[0033]
The null packet reverse converter 105 reversely converts a null packet in accordance with an instruction from the controller 103. In the null packet inverse converter 105, the null packet is converted into a dummy packet as shown in FIG. 4 by the conversion process on the transmission side. This is inversely converted into a null packet as shown in FIG. The null packet generator 108 generates a null packet according to an instruction from the controller 103 and inputs the null packet to the multiplexers 106 and 110, respectively. The multiplexer 106 multiplexes null packets in accordance with the bit rate required as an output in accordance with an instruction from the controller 103. A single program stream is sent to each of the outputs 107 and 111 of the multiplexers 106 and 110, and is output to a decoder and a transmission path.
[0034]
Next, a modification on the receiving side of this embodiment will be described. For example, the receiving side null packet inverse converter 105 may be omitted. In this case, the null packet on the transmission side cannot be reproduced, but it can be discarded by the decoder and have the same effect as the null packet.
[0035]
Furthermore, as another configuration example, the null packet inverse converter 105 and the null packet generator 108 can be omitted. In this case, the null packet on the transmission side cannot be reproduced, and the output bit rate cannot be changed. However, in many cases, it is not a problem because it is directly connected to the decoder. Rather, there is an advantage that the configuration can be simplified and the cost can be reduced.
[0036]
【The invention's effect】
As described above, according to the present invention, a multiple program transport stream multiplexed as a dummy packet can be generated without ignoring null packets of a plurality of single program transport streams. There is an advantage that it is not necessary to acquire information such as the bit rate of each program on the side, and specify and demodulate it on the output side.
[0037]
In addition, there is an advantage that it is not necessary to add a complicated system so that information such as bit rate required on the output side is multiplexed on the transmission side, and extremely effective data multiplexing that contributes to cost reduction An apparatus can be provided.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a main part of a data multiplexing apparatus that performs encoding processing on a transmission side according to the present embodiment.
FIG. 2 is a block diagram illustrating a main part of a data decoding apparatus that performs a decoding process on the receiving side according to the present embodiment.
FIG. 3 is a diagram illustrating the syntax of a null packet.
FIG. 4 is a diagram illustrating the syntax of a dummy packet.
FIG. 5 is a schematic block diagram of a data transmission system in a conventional digital television broadcast.
[Explanation of symbols]
1 input 2 stream information analyzer (stream analysis means)
3 Controller (data control means)
4 Null packet converter (data conversion means)
5 Multiplexer (Multiplexing means)
6 outputs

Claims (1)

A data multiplexing apparatus for encoding a video or audio signal to generate a stream composed of a plurality of packets, multiplexing the stream by a multiplexing means , and transmitting the multiplexed stream.
The data multiplexing device comprises: stream analysis means for analyzing the program information of the stream based on a packet identifier (PID) ;
Null packet conversion means for converting the null packet of the stream into a format composed of adaptation field information of MPEG-2 excluding the packet identifier to form a dummy packet ;
And a data control means for controlling said multiplexing means and said null packet conversion means as a result of the stream analyzing means,
The multiplexing means rewrites the packet identifier of the dummy packet with the same packet identifier as an unconverted packet in the same individual stream based on the data control means, and multiplexes the output of the null packet conversion means A data multiplexing device characterized by the above.

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