JP2006238504A - Transmission apparatus and transmission method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method and transceiver in which a BS digital broadcast for transmitting a transport stream including a frame constitution and transmission multiplex control information indicating a modulation scheme within the frame or transport stream constitution is stably transmitted/received using a cable television (CATV) transmission line or the like. <P>SOLUTION: In a method of performing transmission/reception, switching information of digital data in a hierarchized transport stream form of a BS digital broadcast sent by transmission multiplex control information or a digital modulation wave of FSK or the like is received and while attaining a hierarchization switching timing, digital data of the hierarchized transport stream form are selectively received. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a technique for performing stable transmission / reception of a digital broadcast on which transmission multiplex control information indicating a transport stream configuration is transmitted using a cable television (CATV) transmission path or the like.

Regarding the digital transmission of CATV, the Television Society Technical Report (vol. 19, No. 42: Non-Patent Document 1) published on September 21, 1995, pages 19 to 24, “Telecommunication Technology Council Provisional Method” It is shown in “Digital Cable Television Broadcasting Transmission Experiment”. According to this report, a data stream of a format called a transport stream in which digital data such as an image compressed by a digital image compression technique called MPPEG 2 (MPEG2) is multiplexed is used for signal processing such as Reed-Solomon error correction. Modulated by a digital modulation technique called 64QAM (64-value quadrature amplitude modulation),
It is transmitted to the CATV transmission line with a transmission capacity of about 30 Mbps.

Also, as a digital channel TV multi-channel digital video distribution method, there is a satellite digital television broadcast. The broadcast is described in the article “70” on page 149 of the Nikkei Electronics September 2, 1996 issue. As described in “Japan's first digital satellite broadcasting that realizes multiple channels nearby” (Non-Patent Document 2), multiple digital compression (
An MPEG2) program and data are packet-multiplexed, and a single transport stream, which is scrambled and corrected and encoded, is transmitted by QPSK digital modulation. The satellite digital broadcasting has a problem that the C / N deterioration due to rain attenuation or the like occurs rapidly with respect to the analog system, thereby causing a service interruption.

In conventional digital CATV, after demodulating the digital video distributed by QPSK modulation, it is remodulated to 64QAM or other digital modulation and transmitted to the CATV transmission line. However, satellite digital video distribution is blocked by rain attenuation etc. Even if the service stopped, no particular consideration was given.

ITEJ Technical Report (vol.19, No.42) Nikkei Electronics, September 2, 1996, page 149, "Japan's first digital satellite broadcasting to realize nearly 70 channels"

In the newly planned BS digital broadcasting, not only the conventional digital television broadcasting that has been digitized in one transmission channel of the conventional BS analog broadcasting,
There are plans to transmit high-definition television broadcasts. 1 for BS digital broadcast transmission
It is described in “BS Digital Broadcasting System and Equipment” on pages 24 to 31 of the Journal of the Video Media Society (vol. 52 No. 11 1998) of November 998. BS digital broadcasting has a transmission capacity of about 60 Mbps, and a plurality of modulation schemes can be used in one repeater. A transport stream such as video, audio, and data has a frame structure, and a transmission multiplex control signal (TMC) is used for control information transmission of the modulation method and transport stream structure in the frame.
C signal). TMCC, from the Ministry of Posts and Telecommunications Order No. 57, uses the synchronization signal portion of the transport stream to send before each main frame (= 48 slots, 1 slot = 204).
Bytes) and transmitted with a period of one superframe (= 8 frames). The structure is shown in the Ministry of Posts and Telecommunications Notification No. 260, the transmission mode / slot information is used for selecting the digital demodulation means, and the relative TS / slot information and the relative TS / TSID correspondence are of the desired transport stream ID (TSID). Used for selective output. In addition, there are transmission / reception control information such as a change instruction number and emergency information, and an extended information area.

In BS digital broadcasting, in order to reduce service interruption due to rain, layered transmission is possible by using a feature that enables transmission by combining a plurality of modulation schemes. The operational guidelines for hierarchical transmission are as follows: Radio Industry Association Standard of November 6, 1998 (ARIB STD-B20 1
. (Version 0) Pages 81 to 85, “Chapter 3 Guidelines for Hierarchical Modulation Service System Operation”
In the MPEG transport stream, a hierarchical transmission descriptor indicating the hierarchical relationship of programs is introduced. For example, trellis 8-phase PSK (TC8PSK) is transmitted as normal television broadcasting (higher layer), and QPSK and BPSK that can be received even at low C / N are transmitted as minimum information (lower layer) that can understand the contents of the same program. It is shown that the operation of the higher and lower layers by the layer transmission descriptor is performed on the basis of a signal that detects a decrease in C / N and an increase in error rate.

However, in the above-described conventional digital CATV technology, transmission and reception of hierarchical transmission planned in BS digital broadcasting are not considered.

  The present invention relates to a method of performing stable transmission / reception of a digital broadcast using a CATV transmission line or the like.

  In order to solve the above problems, for example, the technical idea described in the claims may be used.

As described above, according to the present invention, it is possible to perform stable communication when layered transmission signals are used using a CATV transmission line or the like.

Embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram illustrating a transmission device and a reception device according to an embodiment of the present invention. In FIG. 1, 100 is a digital demodulation circuit,
101 is a transmission path decoding circuit, 102 is a TS separation circuit, 103 and 109 are TS synthesis circuits, 10
4 and 110 are 64QAM modulation circuits, 105 are frequency multiplexing circuits, 106 are TMCC decoding circuits, 107 are error rate measurement circuits, 108 are TMCC reconstruction circuits, 200 are BS digital broadcast modulation signals, 201 are CATV transmission lines, 202 Is a TMCC information signal, 203 is data in the transport stream format, 204 is a video signal, 205 is an audio signal, and 300 is a CAT.
V transmission apparatus, 301 is a receiving side terminal apparatus, 400 and 401 are retransmission modulation units, 500 is a frequency demultiplexing circuit, 501 is a 64QAM demodulation circuit, 502 is an error correction circuit, and 503 is T
An MCC / TS separation circuit, 504 is a hierarchical switching determination circuit, 505 is a TS packet separation circuit, 506 is an MPEG video decoder circuit, 507 is an audio decoder circuit, and 508 is a TV receiver on the receiving terminal side. In this embodiment, only main functional units are shown, and peripheral circuit blocks such as a control microcomputer are omitted.

Hierarchical BS digital broadcast modulation signal 200 received by an outdoor unit (not shown)
Is input to the retransmission units 400 and 401 in the CATV transmitter by a cable,
Digital demodulation of the channel determined by the digital demodulation circuit 100 is performed, error correction and energy diffusion are performed by the transmission path decoding circuit 101, and BS digital broadcasting of about 60 Mbps is transmitted by the transport stream separation circuit 102 to the CATV. About 30Mbp of capacity
s is divided into 2 to 3 so as to correspond to s (in this embodiment, divided into 2), each is input to the transport stream synthesizing circuit 109, and the transmission multiplex control signal TMCC is superimposed on the synchronous part, and then the 64QAM modulation circuit 104, Multilevel modulation is performed at 105. The output of the retransmission modulation unit 400, including the output from the other retransmission unit 401, is input to the frequency multiplexing circuit 105 and frequency multiplexed, and then output to the CATV transmission line 201.

In the receiving side terminal device, the signal of the CATV transmission line 201 is input to the frequency demultiplexing circuit 500 to select a desired channel, the channel selection output is demodulated by a 64QAM demodulation circuit, and the error correction circuit 502 performs error correction. After that, the TMCC / TS separation circuit 503 separates the transport stream format data and the TMCC, and the separated transport stream is T
Input to the S packet separation circuit 505 to separate the video and audio packets,
The video packet data is decoded by the MPEG video decoder 506 to obtain the video signal 204, and the audio packet is decoded by the MPEG audio decoder 507 to obtain the video signal 204 and the audio signal 205 and input to the television receiver 508.

In order to cope with the hierarchical BS digital broadcasting service, the transmission facility 300 includes an error rate measurement circuit 107 and a hierarchical switching determination circuit 504 on the receiving terminal side. The error rate measurement circuit 107 estimates the error rate of the received BS digital broadcast signal by comparing the input and output of, for example, a Viterbi decoding circuit (not shown, included in the transmission path decoding circuit 101), and determines in advance. When the error rate exceeds the flag, the TMCC reconfiguration circuit 108 sets a flag indicating that the error rate of the transmission path is large in the transmission multiplexing control information. FIG. 2 is a reference diagram for explaining the configuration of transmission multiplexing control information. Reference numeral 600 denotes a transmission multiplex control signal, and reference numeral 601 denotes extended information in the transmission multiplex control signal. The transmission multiplexing control information has 384 bits in total, but the last 62 bits of extended information 601 are not defined. For example, a part of the extended area 601 is used as the error rate deterioration flag. The transmission multiplexing control information in which the error rate degradation flag is set in the TMCC reconfiguration circuit 108 is superimposed on the transport stream format data of the main signal by the TS synthesis circuits 103 and 109 and transmitted to the CATV transmission path. Receiving terminal 30
1, TMCC information is separated from data in the transport stream format that has been error-corrected by the TMCC / TS separation circuit 503, the presence / absence of an error rate degradation flag is determined by the layer switching determination circuit 504, and the flag is set If so, the TS packet separation 505 selects the lower layer data and outputs it to each decoder. FIG. 3 is a reference diagram of slot assignment in hierarchical BS digital broadcasting. Reference numeral 602 denotes an example of a high-layer TC8PSK modulation slot, reference numeral 603 denotes a BPSK-modulated low-layer TV service slot, and reference numeral 604 denotes a dummy slot set by a low-layer modulation scheme. Normally, the packet separation circuit 505 is TC8PSK.
602 slot is selected, but if an error rate increase flag is detected, the lower hierarchy, in this example BP
In this configuration, a slot for SK modulation is selected. In this example, the error rate measurement circuit 107 has been described for detecting the deterioration of the transmission line. However, as will be described later, C / N deterioration may be used instead of the error rate measurement.

FIG. 4 is a block diagram showing a transmitting apparatus and a receiving apparatus according to another embodiment of the present invention.
In the figure, the same numbers as in the other figures indicate the same functional blocks, 111 is a C / N measurement circuit, 112
Is a hierarchical switching signal generating circuit, 113 is a downlink signal modulating circuit, 509 is a downlink signal demodulating circuit, and 510 is a hierarchical switching signal decoding circuit. In this example, C /
When the N measurement circuit 111 is used and the C / N is lower than the set C / N, a signal is generated by the layer switching signal generation circuit 112, and flag information is superimposed on downlink signal modulation (for example, FSK modulation) to transmit a CATV transmission line. To 201. In the receiving terminal 301, the downlink signal is separated by the frequency demultiplexing 500, the downlink signal demodulating circuit 509 demodulates the downlink signal, and the hierarchy switching signal decoding circuit 510 decodes the hierarchy switching signal from the demodulated output. If the layer switching flag is detected, the TS packet separation 50 is transmitted from the layer switching decoding circuit 510.
The flag generation is transmitted to 5, and the selection of the lower hierarchy slot is performed.

FIG. 5 is a block diagram showing a transmitting apparatus and a receiving apparatus according to another embodiment of the present invention. In the figure,
The same numbers as those in the other figures indicate the same functional blocks. In this embodiment, the TS separation circuit 102
3 outputs only the TC8PSK modulation slot 602 of FIG. 3, and the low-level BPSK modulation slot 601 outputs, for example, as a dummy slot. C / N measurement circuit 1
When the result of 11 is lower than a set C / N value, a signal is emitted from the hierarchical switching circuit 112, and the output of the TS separation circuit 102 is conversely output as a dummy slot in the area of the TC8PSK modulation slot 602. The slot 601 is output, 64QAM modulated, and sent to the CATV transmission line 201. The receiving terminal 301 has a feature that does not require a circuit for selecting hierarchization.

FIG. 6 is a block diagram showing a transmitting apparatus and a receiving apparatus according to another embodiment of the present invention. In the figure,
The same numbers as in the other figures indicate the same functional blocks, and 512 is an error measurement circuit in TS packet separation. In this embodiment, the CATV transmitting apparatus 300 side does not switch the hierarchized signal due to the error rate or C / N deterioration, and the error measuring circuit 512 is provided in the TS packet separation 505 of the receiving side terminal 301. That is, when the layered BS digital broadcast signal deteriorates C / N due to rain attenuation or the like and the error rate increases, an error occurs in the processing of the TS packet separation 505, the MPEG video decoder 506, or the audio decoder 507. In this embodiment, when these errors are measured and the errors exceed a set value, the slot selection in the TS packet separation is changed from the TC8PSK slot 602 in FIG. 3 to the BPSK modulation slot 601 for processing. It is.

The low-layer modulation examples described so far have been described using BPSK modulation. However, the present invention is not limited to this, and it is obvious that the effect can be obtained even when QPSK modulation is used.
According to the above-described embodiment, by transmitting the digital data switching information in the transport stream format hierarchized in the BS digital broadcasting by the transmission modulation control information or the digital modulation wave such as FSK,
The receiving side can know the switching timing of hierarchization and can selectively receive digital data in the hierarchized transport stream format.

Further, by selecting and outputting a BS digital broadcast layered television on the transmission side, it is possible to deal with BS digital layered transport stream format digital data even if the reception side does not have a layer switching means.

Alternatively, layered transport streams can be switched based on digital stream switching information decoded in the transport stream format on the receiver side, so that BS digital layering can be performed even if the transmission side does not support layered transport. Supports digital data in the transport stream format. For these reasons, it is possible to receive hierarchical transmission planned for BS digital broadcasting using a CATV transmission path or the like, and to reduce service interruption due to rainfall of BS digital broadcasting.

It is a block diagram which shows the transmitter and receiver of one Example of this invention. It is a block diagram of transmission multiplexing control information. It is an example of slot allocation in hierarchical BS digital broadcasting. It is a block diagram which shows the transmitting apparatus and receiving apparatus of another Example of this invention. It is a block diagram which shows the transmitting apparatus and receiving apparatus of another Example of this invention. It is a block diagram which shows the transmitting apparatus and receiving apparatus of another Example of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 ... Digital demodulation circuit, 101 ... Transmission path decoding circuit, 102 ... TS separation circuit, 103
, 109 ... TS synthesis circuit, 104, 110 ... 64QAM modulation circuit, 105 ... frequency multiplexing circuit, 106 ... TMCC decoding circuit, 107 ... error rate measurement circuit, 108 ... TMCC reconstruction circuit, 111 ... C / N measurement circuit, 112 ... Hierarchical switching signal generation circuit, 113 ... Downlink signal modulation circuit, 300 ... CATV transmission apparatus, 301 ... Reception side terminal apparatus, 400, 401 ... Retransmission modulation unit, 500 ... Frequency demultiplexing circuit, 501 ... 64QAM demodulation circuit , 502
... error correction circuit, 503 ... TMCC / TS separation circuit, 504 ... hierarchization switching judgment circuit,
505 ... TS packet separation circuit, 506 ... MPEG video decoder circuit, 507 ... audio decoder circuit, 508 ... TV receiver on the receiving terminal side, 509 ... downlink signal demodulation circuit,
510: Hierarchical switching signal decoding circuit, 512: Error measurement circuit.

Claims (11)

C / N or error rate measuring means, digital data in transport stream format having a hierarchical relationship, and transmission information of the hierarchical relationship based on the result of the measuring means in transmission multiplexing control information of the transport stream A modulation means for digital modulation such as multi-level QAM such as 64-value, and a signal synthesis means for frequency-multiplexing a plurality of modulated waves including the output of the modulation means and sending them to the transmission line A transmission apparatus comprising: C / N or error rate measurement means, transport stream format digital data having a hierarchical relationship, means for multiplexing the transmission multiplex control information of the transport stream, multi-value QAM such as 64 values, etc. First modulation means for digital modulation, second modulation means for digitally modulating the switching information of the hierarchical relationship based on the result of the measurement means, such as FSK, the output of the first modulation means, and the A transmission apparatus comprising: a signal combining unit that frequency-multiplexes a plurality of modulated waves including an output of the second modulation unit and sends the modulated wave to a transmission line. A transport stream format digital data having a layered relationship is inputted to the transport stream and means for selecting a transport stream of an arbitrary layer, and the selected transport stream, other transport streams, and transmission multiplexing control Means for multiplexing information, modulation means for digital modulation such as multi-level QAM such as 64-value, and signal synthesis means for frequency-multiplexing a plurality of modulated waves including the output of the modulation means and sending them to the transmission line A transmission apparatus comprising: 5. The receiving unit according to claim 1, further comprising: a satellite digital broadcast receiving means, a demodulating means, a transport stream format digital data decoding means having a hierarchical relationship, and a transmission multiplexing control information decoding means. A transmitter characterized by the above. Demodulating means for demodulating a digital modulated wave such as multilevel QAM such as 64-value transmitted by frequency multiplexing, transport stream format digital data having a hierarchical relationship, and transmission multiplexing control information of the transport stream Means for decoding, and means for selectively decoding one layered transport stream of a layered transport stream format according to the layered transport stream switching information in the transmission multiplexing control information A receiving device. First demodulating means for demodulating a digital modulated wave such as multi-level QAM such as 64-value transmitted by frequency multiplexing, and second demodulating a digital modulated wave such as FSK transmitted by frequency multiplexing. Demodulating means; means for decoding transport stream format digital data having a layered relationship from the first demodulating means; and transmission multiplexing control information of the transport stream; and output from the second demodulating means to the layered transport Means for decoding stream switching information, and means for selectively decoding one layered transport stream in a transport stream format having a layered relationship based on the layered transport stream switching information. Receiving device. Demodulating means for demodulating a digital modulated wave such as multi-level QAM such as 64-value transmitted by frequency multiplexing, means for decoding digital data in a transport stream format having a hierarchical relationship, and decoded transport Receiving means comprising: a means for measuring the number of errors in stream format data; and means for selectively decoding one layered transport stream having a layered relationship according to a result of the means for measuring. apparatus. A transmission device for transmitting hierarchical digital data including control information,
A transmission apparatus comprising switching information adding means for adding hierarchy switching information to the control information. A receiving device that receives hierarchical digital data including control information to which hierarchical switching information is added,
A receiving apparatus comprising switching means for switching a hierarchy of the digital data based on the hierarchy switching information. A transmission device for transmitting hierarchical digital data including control information,
Switching information adding means for adding hierarchy switching information to the control information;
A transmission apparatus comprising switching means for switching a hierarchy of the digital data based on the hierarchy switching information. A receiving device for receiving hierarchical digital data including control information,
Switching information detecting means for detecting hierarchy switching information from the digital data;
A receiving apparatus comprising switching means for switching a hierarchy of the digital data based on the hierarchy switching information.

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