JP2013243644A - Stl/ttl line transmission device and receiving device thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an STL/TTL line transmission device which transmits a coupled composite Transport Stream TS consisting of broadcast TSs in plural kinds of segment formats which are coupled and synthesized freely in a designated number of segments or less than that by using an STL/TTL line and a receiving device thereof.SOLUTION: An STL/TTL line transmission device 1 of the present invention comprises: a data compression unit 2 which, by monitoring a TSP counter value for a broadcast TS in a designed segment format, removes null packets of a predetermined TSP counter value according to transmission parameters of the broadcast TS, to generate a compressed broadcast TS consisting of compressed data; and a synthesis unit 3 which couples the compressed broadcast TS and a broadcast TS which has had its data not compressed to generate a coupled composite TS. The coupled composite TS has had transmission path encoding applied thereto and is transmitted to the outside by an STL/TTL line. An STL/TTL line receiving device 10 separates the coupled composite TS which includes the compressed broadcast TS and expands the compressed broadcast TS to restore the original broadcast TS.

Description

  The present invention relates to STL (Studio Transmitter Link) / TTL (Transmitter) for transmitting a digital broadcast signal by a segment connection method such as multimedia broadcasting using the VHF-Low band from a performance station to a transmission station or from a transmission station to a transmission station. The present invention relates to an STL / TTL line transmitting apparatus and a receiving apparatus for transmitting in a signal format of a broadcast transport stream (hereinafter referred to as “broadcast TS”) that is a transmission signal for a line to Transmitter Link).

  As a format for transmitting a broadcast TS for an STL / TTL line, in a digital terrestrial television broadcast, a format according to the broadcast TS as described in Chapter 5 of the appendix of the ARIB standard ARIB STD-B31, In terrestrial multimedia broadcasting using the segment-coupled transmission method, the broadcasting TS, 12-segment format signal and 1-segment format signal as described in Chapter 5 of the ARIB standard ARIB STD-B46 appendix are combined and combined. A signal format by broadcast TS (hereinafter referred to as “concatenated synthesis TS”) is known.

  As a conventional technique, a technique related to a transmission system for effectively using a broadcast TS by changing and replacing information in a dummy byte part of the broadcast TS with respect to a broadcast TS for an STL / TTL line is disclosed (for example, a patent). Reference 1). Further, a digital terrestrial television broadcast network system that transmits information using a null packet of a broadcast TS is disclosed (for example, see Patent Document 2).

JP 2010-252136 A JP 2011-15060 A

  In multimedia broadcasting by the segment concatenation transmission method using the VHF-Low band, a signal obtained by concatenating a plurality of signals (maximum 14 segments) of 1 segment format or 3 segment format is modulated and transmitted for an STL line or a TTL line. To do.

  However, since the ARIB STD-B31 is specialized for digital terrestrial television broadcasting, it is a broadcast TS format (transmission speed 32.51 Mbps (= 512/63 × 4 Mbps)) with a fixed number of segments of 13 segments. Can only transmit.

  On the other hand, ARIB STD-B46 defines the signal format for multimedia broadcasting by the segment concatenated transmission method using the VHF-High band, and has been extended for segment concatenated transmission. This is a signal format of a concatenated TS considered for transmission of a total of 33 segments of signals and seven 1-segment signals. The transmission speed of the 13-segment broadcast TS is 32.51 Mbps (= 512/63 × 4 Mbps), and the transmission speed of the 1-segment broadcast TS is 2.03 Mbps (= 512/63/4 Mbps). Are combined to generate a concatenated composite TS, which has a transmission rate of 79.24 Mbps (= 512/63 × (4 × 2 + 7/4) Mbps). In multimedia broadcasting by the segment concatenated transmission method using the VHF-High band, it is mainly intended to use satellite distribution instead of the STL / TTL line.

  Multimedia broadcasting by the segment concatenation transmission method using the VHF-Low band is configured in one segment format or three segment format, and it is considered that the number of each segment format is arbitrarily concatenated with the number of segments of 14 segments or less. Yes. The transmission speed of the one-segment broadcast TS is 2.03 Mbps (= 512/63/4 Mbps), and the transmission speed of the three-segment broadcast TS is 8.12 Mbps (= 512/63 Mbps). When broadcasting TSs are concatenated and combined as they are, if the 1-segment format is 14, the transmission speed of the concatenated TS is 28.44 Mbps (= 512/63/4 × 14 Mbps), but the 3 segment format is 4 In the case where one segment format is composed of two in total, the transmission speed of the concatenated combined TS is 36.57 Mbps (= 512/63 × 4 + 512/63/4 × 1 Mbps). Therefore, the transmission speed of the combined composite TS that is combined and combined differs depending on the segment configuration, and exceeds the transmission speed of 32.51 Mbps in terrestrial digital television broadcasting, and is transmitted through the same STL / TTL line as in terrestrial digital television broadcasting. Difficult to do.

  On the other hand, in the technique of Patent Document 1, it is possible to effectively use the broadcast TS by changing and replacing the information in the dummy byte portion of the broadcast TS. However, the segment linked transmission method using the VHF-Low band is used. In multimedia broadcasting, no means is provided for solving the problem of use for an STL / TTL line similar to terrestrial digital television broadcasting due to the transmission rate of the combined composite TS being different depending on the segment configuration.

  Further, in the technique of Patent Document 2, it is possible to effectively use the broadcast TS in terms of transmitting information using a null packet of the broadcast TS, but the segment connection broadcast TS is not considered, It does not provide means for solving the problem of use for an STL / TTL line similar to terrestrial digital television broadcasting due to the transmission rate of the concatenated combined TS being different depending on the segment configuration.

  The present invention has been made in view of the above-mentioned problems, and transmits a concatenated composite TS that is arbitrarily concatenated and combined with a predetermined number of segments or less of a plurality of types of segment-type broadcast TS through an STL / TTL line. It is an object of the present invention to provide an STL / TTL line transmitter and a receiver thereof.

  As described above, VHF-Low band multimedia broadcasting is considered to be composed of a maximum of 14 segments with a bandwidth of 6 MHz. In this broadcast, the number of segments of 14 segments or less is arbitrarily linked and broadcast. The transmission speed of a one-segment broadcast TS (TS: transport stream) is 2.03 Mbps (= 512/63/4 Mbps), and the transmission speed of a three-segment broadcast TS is 8.12 Mbps (= 512/63 Mbps). When these broadcasting TSs are synthesized as they are, the transmission speed of the combined synthesis TS synthesized depending on the segment configuration (1 segment format or 3 segment format) is different and exceeds the transmission rate of 32.51 Mbps in terrestrial digital television broadcasting. It will be.

  Therefore, in the transmission apparatus for an STL / TTL line according to one aspect of the present invention, a digital broadcasting signal by a segment connection method such as multimedia broadcasting in the VHF-Low band is transmitted from a performance station to a transmission station (STL) in the form of a broadcast TS. When transmitting from a station to a transmitting station (TTL), a broadcasting TS of 8.12 Mbps (= 512/63 Mbps) 3-segment format is compressed and converted to a 6.10 Mbps (= 512/63/4 × 3 Mbps) broadcasting. Regardless of the segment configuration (1-segment format or 3-segment format), a TS is generated and transmitted as a transmission signal with a constant combined rate TS that can use the same STL / TTL line as terrestrial digital television broadcasting. To do. That is, in the STL / TTL line transmission device according to one aspect of the present invention, the broadcast TS at the time of segment connection is equal to or less than 32.51 Mbps (= 512/63 × 4 Mbps), which is the transmission speed of the broadcast TS of terrestrial digital television broadcasting. STL similar to terrestrial digital television broadcasting is generated by compressing the broadcast TS of the digital broadcast signal so that the transmission speed is achieved, and generating a concatenated combined TS of 32.51 Mbps as the transmission speed by adjusting the rate by adding a null packet. / Use a TTL line.

  Regarding the compression / conversion of the 3-segment broadcast TS according to the present invention, the STL / TTL line transmitter transmits a null packet contained in the 3-segment broadcast TS (transmission speed 8.12 Mbps (= 512/63 Mbps)). Deleted and converted to a broadcast TS compressed to 6.10 Mbps (= 512/63/4 × 3 Mbps). As a result, among the configurations of arbitrarily connected segments, as a combination that maximizes the transmission rate after broadcasting TS connection, there are four 3-segment formats and one segment type (transmission rate 2.03 Mbps (= 512/63/4 Mbps)) ) Is composed of two 14 segments, the total transmission speed of the broadcast TS is equal to or less than the broadcast TS that can be transmitted through the STL / TTL line of digital terrestrial television broadcasting (32.51 Mbps (= 512/63 × 48.4 Mbps) or less) = 28.44 Mbps (= 512/63 × 3/4 × 4 + 512/63/4 × 2 Mbps). Thereafter, a null packet is added to adjust the rate so that the transmission speed is the same as that of the broadcast TS of the terrestrial digital television broadcast, so that the STL / TTL line of the terrestrial digital television broadcast can be used as it is. Also, it is preferable that the position of the null packet to be deleted at the time of data compression is determined in advance so as to minimize the delay amount according to a predetermined transmission parameter.

  That is, the STL / TTL line transmitting apparatus according to the present invention transmits an STL / TTL transmission of a combined composite TS that is arbitrarily connected and combined with a plurality of types of segment-type broadcast TS within a predetermined number of segments or less on the STL / TTL line. A transmission device for a line that monitors a TSP counter value of a broadcast TS of a predetermined segment format among the plurality of types of segment format broadcast TSs, and a TSP counter value determined in advance according to a transmission parameter of the broadcast TS Data compression means for generating a compressed broadcast TS obtained by performing data compression on the broadcast TS by deleting the null packet, the compressed broadcast TS, and the data compression among the plurality of types of segment format broadcast TS. A synthesizing means for linking the broadcast TSs that are not connected to generate a linked synthesized TS, and a predetermined value for the linked synthesized TS. Transmission means for transmitting to the outside is subjected to channel coding at STL / TTL lines were characterized by comprising a.

  Further, in the STL / TTL line transmission apparatus of the present invention, the null packet of the predetermined TSP counter value to be deleted is predetermined so as to minimize the delay amount of the broadcast TS according to the transmission parameter. It is characterized by being.

  Also, in the STL / TTL line transmission apparatus of the present invention, the combining means may control the transmission rate of the combined combined TS regardless of the segment configuration by arbitrarily connecting the broadcast TSs of the plurality of types of segments. It is characterized by comprising means for inserting a null packet so as to obtain a constant transmission rate that can be transmitted through an STL / TTL line.

  Furthermore, the STL / TTL channel receiver of the present invention receives STL / TTL on a STL / TTL channel, which is a combined synthesized TS that is arbitrarily linked and combined with a plurality of types of segment-type broadcast TSs within a predetermined number of segments. Null packet of a TSP counter value determined in advance according to the transmission parameter of the broadcast TS for a broadcast TS of a predetermined segment format among the plurality of types of segment format broadcast TSs on the transmission side. Data compression has been performed by deleting the compressed broadcast TS, and the combined composite TS obtained by concatenating and combining the broadcast TS that is not subjected to the data compression among the plurality of types of segment-type broadcast TS. Separation means for separating the broadcast TS into a plurality of types of segment formats, and monitoring the TSP counter value of the compressed broadcast TS By inserting a null packet having a TSP counter value determined in advance according to the transmission parameter of the transmission TS, the compressed broadcast TS subjected to the data compression is decompressed and the broadcast TS of the predetermined segment format is restored. Data decompression means.

  Further, in the STL / TTL line receiver of the present invention, the null packet of the predetermined TSP counter value to be deleted is determined in advance so that the delay amount of the broadcast TS is minimized according to the transmission parameter. It is characterized by being.

  Further, in the STL / TTL line receiver of the present invention, the separating means includes means for deleting null packets inserted so as to have a constant transmission rate that can be transmitted on the STL / TTL line on the transmitting side. It is characterized by providing.

  According to the present invention, in a transmission signal arbitrarily connected and synthesized with a predetermined number of segments or less for a plurality of types of segment-type broadcast TS, for example, in a multimedia broadcast transmission signal connected with 14 or less segments, Regardless of (1-segment format or 3-segment format), a concatenated combined TS can be configured at a predetermined transmission rate (for example, 32.51 Mbps (= 512/63 × 4 Mbps)) or less. A similar STL / TTL line can be used.

It is a block diagram which shows the structure of the transmitter for STL / TTL lines of 1st Embodiment by this invention. It is a block diagram which shows the structure of the data compression part in the transmission apparatus for STL / TTL lines of 1st Embodiment by this invention. It is a figure which shows the multiplexing position of the additional information contained in the dummy byte part of each TSP which concerns on the transmission apparatus for STL / TTL lines of 1st Embodiment by this invention. It is a figure which shows an example of the kind of additional information which concerns on the transmitter for STL / TTL lines of 1st Embodiment by this invention. It is a table | surface which shows the number of TSP contained in 1 multiplex frame which concerns on the STL / TTL channel | wire transmission apparatus of 1st Embodiment by this invention. Mode 1, guard interval 1/4, layer A QPSK (coding rate 2/3), layer B 16QAM (coding rate 1/2) according to the STL / TTL line transmission apparatus of the first embodiment of the present invention It is a figure which shows broadcast TS packet arrangement | positioning in the case. Extraction in Mode 1, Guard Interval 1/4, A Layer QPSK (Coding Rate 2/3), and B Layer 16 QAM (Coding Rate 1/2) in the STL / TTL Line Transmitting Device of the First Embodiment of the Present Invention It is a table | surface which shows a TSP table. It is a block diagram which shows the structure of the receiver for STL / TTL lines of 1st Embodiment by this invention. It is a block diagram which shows the structure of the data expansion part in the receiver for STL / TTL lines of 1st Embodiment by this invention. It is a figure which shows the arrangement | positioning of the broadcast TS packet whose TSP counter value is 0 to 39 in the case of the mode 3 and the guard interval 1/8 in the STL / TTL line transmission apparatus of 2nd Embodiment by this invention.

  Hereinafter, a STL / TTL line transmitting apparatus and an STL / TTL line receiving apparatus according to a first embodiment of the present invention will be described in order with reference to the drawings.

[First Embodiment]
(STL / TTL line transmitter)
FIG. 1 is a block diagram showing the configuration of the STL / TTL line transmitting apparatus 1 according to the first embodiment of the present invention. The STL / TTL line transmitter 1 transmits a digital broadcasting signal by a segment connection method such as multimedia broadcasting in the VHF-Low band in the form of a broadcast TS from a performance station to a transmission station (STL) and from a transmission station to a transmission station (TTL). A predetermined number of three-segment broadcast TSs and a predetermined number of one-segment broadcast TSs are multiplexed and generated to generate a combined combined TS of 14 segments. A data compression unit 2 provided for each three-segment broadcast TS, a compressed broadcast TS sent from each data compression unit 2 (hereinafter also referred to as “compressed broadcast TS”), and each one segment A synthesizing unit 3 that generates a concatenated synthesized TS obtained by concatenating and synthesizing broadcast TSs in a format, an STL / TTL transmission line coding unit 4, and an RF (Radio Frequency) And a signal unit 5.

  In the present embodiment, the total transmission speed of the broadcast TS is the largest, that is, four three-segment broadcast transport streams (hereinafter referred to as broadcast TS) and two one-segment broadcast TS ( A description will be given of an example in which a concatenated TS of VHF-Low band multimedia broadcasting composed of a total of 14 segments) is transmitted through one STL / TTL line of terrestrial digital television broadcasting.

  As shown in FIG. 1, first, four 3-segment broadcast TSs and two 1-segment broadcast TSs are input to the STL / TTL line transmission apparatus 1. A three-segment broadcast TS has a transmission rate of 8.12 Mbps (= 512/63 Mbps), and a one-segment broadcast TS has a transmission rate of 2.03 Mbps (= 512/63/4 Mbps). Of the input broadcast TS, those in the three-segment format are respectively input to the data compression unit 2. The one-segment format is directly input to the synthesis unit 3.

  The data compression unit 2 performs data compression on the broadcast TS of 8.12 Mbps (= 512/63 Mbps) to the compressed broadcast TS of 6.10 Mbps (= 512/63/4 × 3 Mbps), and outputs the compressed data to the synthesis unit 3.

  The synthesizing unit 3 synthesizes the four input compressed broadcast TSs in the three-segment format and the two one-segment format broadcast TSs, and one concatenation having a constant transmission speed by adjusting the rate by adding a null packet. A combined TS is generated and output to the STL / TTL transmission line encoding unit 4. In the case of this embodiment, the total transmission rate of the broadcast TS and the compressed broadcast TS is 28.44 Mbps (= 512/63/4 × (3 × 4 + 2) Mbps). Therefore, by adding one null packet for every seven TSPs, one concatenated combined TS having a constant transmission rate of 32.51 Mbps (= 512/63 × 4 Mbps) is output from the combining unit 3. .

  The STL / TTL transmission line coding unit 4 performs predetermined transmission line coding (for example, similar to ARIB STD-B31) on the concatenated combined TS to generate an IF (Intermediate Frequency) signal, and an RF transmission unit Send to 5.

  The RF transmission unit 5 converts the IF signal of the concatenated combined TS subjected to transmission path encoding into an RF signal having a predetermined frequency, generates a broadcast wave, and sends it out.

  FIG. 2 is a block diagram showing the configuration of the data compression unit 2 in the STL / TTL line transmission apparatus 1 of the present embodiment. The data compression unit 2 includes a TSP buffer 6, an additional information extraction unit 7, an extraction TSP table selection control unit 8, an extraction TSP table storage unit 8 a, and a TSP extraction unit 9. A three-segment broadcast TS is input to the TSP buffer 6 and the additional information extraction unit 7, respectively.

  The TSP buffer 6 has a function of temporarily storing broadcast TS packets (hereinafter referred to as “TSP”) in the input three-segment broadcast TS, and a predetermined TSP counter value is controlled by the TSP extraction unit 9 described later. Is read.

  The additional information extraction unit 7 extracts additional information included in the IIP (ISDB-T Information Packet) in the invalid layer TSP of the broadcast TS and the dummy byte portion of each TSP, and extracts predetermined transmission parameters included in the additional information. The TSP counter selection value included in the additional information is sent to the TSP extraction unit 9. Here, when the additional information extraction unit 7 once extracts the transmission parameter from the IIP and sends it to the extraction TSP table selection control unit 8 for the broadcast TS, the TSP counter included in the dummy byte portion of each TSP. Only the value may be extracted and sent to the TSP extraction unit 9.

  In the case of terrestrial digital television broadcasting and multimedia broadcasting using the VHF-High band, the broadcasting TS is defined in the appendix chapter 5 of ARIB STD-B31 and the appendix chapter 5 of ARIB STD-B46. As described above, it is specified that additional information (transmission control information) necessary for control of a transmitting station during broadcasting TS transmission is multiplexed, transmission parameters are set in IIP packets, and information such as TSP counter values is shown in FIG. It is multiplexed to the dummy byte part of each TSP shown. The format of the additional information multiplexed on the broadcast TS of the VHF-Low band multimedia broadcast is not stipulated at this stage, but also in this embodiment, the terrestrial digital television broadcast and the multimedia broadcast using the VHF-High band Assume that additional information such as transmission parameters and TSP counters are multiplexed in the same manner as described above. That is, in the present embodiment, the type of transmission control information (additional information) to be multiplexed on the broadcast TS signal can be configured as illustrated in FIG. In addition, in ARIB STD-B46 (version 1.2 revised on July 3, 2012), the control information of the segment configuration at the time of concatenated transmission in the additional information shown in FIG. When the composite TS is generated, it is added by a CIP (Connected transmission Information Packet) in the invalid layer TSP of the broadcast TS. Further, segment format information, unit transmission wave information, and the like, which are information related to the concatenated transmission, are added to the dummy bytes when the concatenated composite TS is generated. However, the additional information according to the present embodiment includes transmission parameter and TSP counter value information regarding the TSP, and the transmission parameter includes information regarding the mode, guard interval ratio, modulation scheme and coding rate regarding each TSP. It only has to be included.

  The extracted TSP table selection control unit 8 extracts an extracted TSP table that matches the transmission parameter extracted by the additional information extracting unit 7 from the extracted TSP table storage unit 8a that stores a plurality of extracted TSP tables according to the transmission parameter in advance. Is read out and output to the TSP extraction unit 9. Here, the extracted TSP table is a table showing TSP counter values of TSPs extracted as compressed broadcast TSs among the TSPs constituting the three-segment format broadcast TS, and the creation method thereof will be described in detail later.

  The TSP extraction unit 9 refers to the TSP counter value in the additional information output from the additional information extraction unit 7 and the extracted TSP table output from the extraction TSP table selection control unit 8, and performs compressed broadcasting from the TSP buffer 6. Read and output TSP extracted as TS. As a result, a broadcast TS of 8.12 Mbps (= 512/63 Mbps) is converted into a compressed broadcast TS of 6.10 Mbps (= 512/63/4 × 3 Mbps).

(Extraction TSP table creation method according to transmission parameters in the first embodiment)
Next, a method for creating an extracted TSP table according to transmission parameters stored in advance in the extracted TSP table storage unit 8a will be described. The 3-segment VHF-Low band multimedia broadcast is scheduled to be composed of two layers (A layer and B layer) of one segment and two segments. For this reason, the broadcast TS has a multi-frame structure in which the ASP of the A layer, the TSP of the B layer, and a null packet are connected. The null packet is inserted in order to interface the TSP with a constant clock regardless of the transmission parameter. The number of TSPs included in a multiplex frame differs depending on the mode and guard interval ratio, and the arrangement of TSPs and null packets in each layer in the multiplex frame depends on transmission parameters (mode, guard interval ratio, modulation scheme in each layer, coding rate). Different. In other words, the arrangement of TSPs and null packets in each layer in a multiplexed frame is uniquely determined by the transmission parameters (mode, guard interval ratio, modulation scheme of each layer, and coding rate) regardless of the content to be transmitted.

  5 shows the number of TSPs included in one multiplexed frame, FIG. 6 shows mode 1, guard interval 1/4, A layer QPSK (coding rate 2/3), and B layer 16 QAM (coding rate 1/2). The broadcast TS packet arrangement in the case of is shown. In order to compress data from a broadcast TS to a compressed broadcast TS, null packets that are a quarter of the number of broadcast TS packets included in one multiplexed frame may be deleted. In order to reduce the delay, it is desirable to disperse the broadcast TS packets to be deleted at equal intervals. However, since the A layer and the B layer are not inserted at equal intervals, in this embodiment, as the compressed broadcast TS, An extracted TSP table indicating a TSP counter value of a TSP to be extracted (ie, a TSP counter value of a TSP not deleted in the broadcast TS) is created and stored in the extracted TSP table storage unit 8a.

  First, as a TSP to be deleted, in view of shortening the delay amount, a TSP counter value is deleted based on a TSP having any of 4n, 4n + 1, 4n + 2, 4n + 3 (n: positive integer). The target TSP may be considered. By checking the TSP type of the TSP counter value to be deleted for each of these four deletion criterion TSP counter values, the minimum deletion amount among the four deletion criteria is determined in advance. be able to. For example, when a TSP with a TSP counter value of 4n is used as a reference TSP to be deleted, the broadcast TS packet to be deleted is not a null packet, but is a TSP counter value that is a TSP of the A layer / B layer. The TSP of the TSP counter value is deleted. If the subsequent TSP is also in the A layer or the B layer, the TSP of the next TSP counter value is further deleted. In this way, only the null packet can be deleted by shifting the TSP counter value. However, the maximum value of the TSP amount to be shifted becomes the size of the TS buffer and becomes the delay amount as it is. Therefore, it is possible to grasp the delay amount when the TSP having the TSP counter value of 4n is set as the TSP to be deleted. Similarly, it is possible to grasp the respective delay amounts when the TSP having the TSP counter values 4n + 1, 4n + 2, and 4n + 3 is set as the TSP to be deleted. Therefore, an extraction TSP table having a minimum delay amount can be created by selecting in advance one of the four deletion criteria that minimizes the amount of TSP to be shifted.

  Specifically, the broadcast TS arrangement in FIG. 6 (mode 1, guard interval 1/4, layer A QPSK (coding rate 2/3), layer B 16QAM (coding rate 1/2)) will be described as an example. First, let us consider a case where it is assumed that the TSP counter value to be deleted is deleted based on the TSP corresponding to 4n + 1. From FIG. 6, the TSP type with a TSP counter value of 1 (n = 0) is a null packet and can be deleted. On the other hand, since the TSP type with a TSP counter value of 17 (n = 4) is a TSP of the B layer, if the next TSP counter value is checked without deleting it, the TSP type with the TSP counter value of 18 becomes a null packet. Is deleted. At this time, the shift amount is one packet.

  Further, since the TSP type with a TSP counter value of 37 (n = 9) is the TSP of the A layer, when the next TSP is examined, it becomes the TSP of the B layer. Therefore, the TSP counter value of the TSP to be deleted is 39, and the shift amount is 2 packets. As a result of the confirmation, assuming that the TSP counter value to be deleted is 4n + 1, the maximum shift amount is 2 packets. The TS buffer amount may be set to 2 packets. Even if the TSP counter value to be deleted is 4n, 4n + 2, the maximum shift amount is 2 packets. On the other hand, assuming that the TSP counter value to be deleted is 4n + 3, the maximum shift amount is one packet. Therefore, if the TSP counter value to be deleted from this transmission parameter is based on 4n + 3, the delay amount can be shortened. An example of the extracted TSP table created by the above procedure is shown in FIG. As described above, even if four deletion criteria are assumed, if the maximum shift amount is the same, any of them may be selected. For example, it is preferable to select one having a small number of shifts.

  In the above manner, the extracted TSP table is converted into transmission parameters, that is, 3 (mode) × 4 (guard interval ratio) × 3 (A layer modulation scheme / inner code) × 3 (B layer modulation scheme / inner code) = 108 tables can be created.

  Also, when transmitting in the same way as terrestrial digital television broadcasting and multimedia broadcasting using the VHF-High band, the broadcast TS has transmission parameters, etc. in addition to the A layer TSP, the B layer TSP, and the null packet. There is an invalid hierarchical TSP that multiplexes the IIP (ISDB-T Information Packet), AC data, and data unique to the operator. The multiple positions of these data are not defined by the standard. Therefore, when the TSP scheduled to be deleted is IIP packet, AC data, or provider-specific data, the additional information can be transmitted without being lost by rewriting it with a null packet in the same multiplexed frame after the TSP. When determining the multiplex position of these packets during operation, it may be considered that the extraction TSP table is handled in the same way as the A layer and the B layer and these are not deleted.

  As described above, the STL / TTL line transmission apparatus 1 according to the present embodiment uses a STL / TTL line for a combined combined TS that is arbitrarily combined and combined with a plurality of types of segment-type broadcast TSs within a predetermined number of segments. When transmitting, the TSP counter value of a broadcast TS of a predetermined segment format among the plurality of segment format broadcast TSs is monitored, and a null packet of a TSP counter value determined in advance according to the transmission parameters of the broadcast TS Is generated by compressing the broadcast TS, and the compressed broadcast TS is connected to the broadcast TS that is not subjected to data compression among the multiple types of segment-type broadcast TSs. Then, a combined synthesis TS is generated. As a result, a concatenated combined TS can be configured at a predetermined transmission rate (for example, 32.51 Mbps (= 512/63 × 4 Mbps)) or less, and therefore, an STL / TTL line similar to that for terrestrial digital television broadcasting is used. Will be able to.

(Receiver for STL / TTL line)
FIG. 8 is a block diagram showing the configuration of the STL / TTL line receiver 10 according to the first embodiment of the present invention. The STL / TTL line receiver 10 of the present embodiment includes an RF receiver 11, an STL / TTL transmission path decoder 12, a compressed broadcast TS of each three-segment format combined with a concatenated combined TS, and each A separation unit 13 for separating the one-segment broadcast TS, and a data decompression unit 14 provided for each three-segment compressed broadcast TS.

  The RF receiver 11 receives the broadcast wave of the RF signal of the concatenated combined TS transmitted from the STL / TTL line transmitter 1, converts it into an IF signal, and outputs it to the STL / TTL transmission line decoder 12.

The STL / TTL transmission path decoding unit 12 performs predetermined transmission path decoding (for example, similar to ARIB STD-B31) on the transmission path encoded signal of the concatenated combined TS converted into the IF signal,
The demodulated / decoded concatenated combined TS is output to the separation unit 13.

  The separating unit 13 first deletes the null packet added by the combining unit 3 in the STL / TTL line transmission apparatus 1. For example, when one null packet is added for seven TSPs counted from the head of the multiplexed frame in the combining unit 3 in the STL / TTL line transmitter 1, the separating unit 13 also determines the head of the multiplexed frame. After detection, one null packet may be deleted for every eight TSPs.

  Subsequently, the separation unit 13 deletes the null packet, and then separates the three 3-segment format compressed broadcast TS and the two 1-segment format broadcast TS into the separated four 3-segment format compressed broadcasts. Each TS is output to the respective data decompression unit 14, and the separated two one-segment broadcast TSs are output to the outside.

  The data decompression unit 14 has the same extraction TSP table as the data compression unit 2 in the STL / TTL line transmission apparatus 1, inserts a null packet at the same position as the deleted null packet, and outputs it as a three-segment broadcast TS To do.

  FIG. 9 is a block diagram showing the configuration of the data decompression unit 14 in the STL / TTL line receiver 10 of the present embodiment. The data decompression unit 14 includes a TSP buffer 15, an additional information extraction unit 16, an extraction TSP table selection control unit 17, an extraction TSP table storage unit 17 a, a Null_TSP generation unit 18, and a TSP output control unit 19. The compressed broadcast TS in the three segment format is input to the TSP buffer 15 and the additional information extraction unit 16, respectively.

  The TSP buffer 15 has a function of temporarily storing a TSP in the input compressed broadcast TS of the three segment format, and a TSP having a predetermined TSP counter value is read out under the control of a TSP output control unit 19 described later.

  The additional information extraction unit 16 extracts additional information included in an IIP (ISDB-T Information Packet) in the invalid layer TSP of the broadcast TS and a dummy byte portion of each TSP, and extracts predetermined transmission parameters included in the additional information. The TSP counter value included in the additional information is sent to the Null_TSP generator 18 and the TSP output controller 19. Here, when the additional information extraction unit 16 once extracts the transmission parameter from the IIP and sends it to the extraction TSP table selection control unit 19 for the compressed broadcast TS, the TSP included in the dummy byte portion of each TSP. Only the counter value may be extracted and sent to the Null_TSP generator 18 and the TSP output controller 19.

  The extracted TSP table selection control unit 17 receives additional information from an extracted TSP table storage unit 17a that stores in advance a plurality of extracted TSP tables corresponding to the same transmission parameters as the data compression unit 2 in the STL / TTL line transmission apparatus 1. The extracted TSP table that matches the transmission parameter extracted by the extracting unit 16 is selected and read, and is output to the Null_TSP generating unit 18.

  The Null_TSP generation unit 18 generates a null packet by referring to the TSP counter value in the additional information output from the additional information extraction unit 16 and the extraction TSP table output from the extraction TSP table selection control unit 17. Output to the TSP output control unit 19.

  The TSP output control unit 19 reads the TSP in the compressed broadcast TS from the TSP buffer 16 based on the TSP counter value included in the additional information output from the additional information extraction unit 16, and receives the null packet from the Null_TSP generation unit 18. Insert and restore broadcast TS.

  Thereby, the compressed broadcast TS of 6.10 Mbps (= 512/63/4 × 3 Mbps) is converted into the broadcast TS of 8.12 Mbps (= 512/63 Mbps).

  As described above, the STL / TTL line receiving apparatus 10 according to the present embodiment receives, on the STL / TTL line, a concatenated composite TS that is arbitrarily concatenated and combined within a predetermined number of segments with respect to a plurality of types of segment-type broadcast TSs. At this time, the concatenated composite TS including the compressed broadcast TS is separated, the TSP counter value of the compressed broadcast TS is monitored, and a null packet having a predetermined TSP counter value is inserted according to the transmission parameter of the compressed broadcast TS. As a result, the compressed broadcast TS is decompressed to restore the original broadcast TS.

  With the above configuration, a combined synthesis TS of VHF-Low band multimedia broadcasting composed of four three-segment broadcasting TSs and two one-segment broadcasting TSs is an STL / TTL of terrestrial digital television broadcasting. It can be transmitted over one line.

[Second Embodiment]
Next, the STL / TTL line transmitter 1 and the STL / TTL line receiver 10 according to the second embodiment of the present invention will be described. In the first embodiment, since the extracted TSP table is set for each transmission parameter, 108 tables are required. In the second embodiment, an example will be described in which an extracted TSP table is used in which the number of extracted TSP tables is reduced to 12 (only the combination of mode and guard interval ratio) while minimizing an increase in delay time. Since the configurations of the STL / TTL line transmitter 1 and the STL / TTL line receiver 10 are the same as those in the first embodiment, the number of tables in the extracted TSP table is exemplified by mode 3 and guard interval 1/8. A method of creating an extraction TSP table corresponding to the transmission parameter for reducing the above will be described.

(Extraction TSP table creation method according to transmission parameters in the second embodiment)
Specifically, a method for creating an extracted TSP table according to transmission parameters stored in advance in the extracted TSP table storage unit 8a will be described. As in the first embodiment, in consideration of shortening the delay amount as the TSP to be deleted, any one of four types of TSP counter values 4n, 4n + 1, 4n + 2, 4n + 3 (n: a positive integer) is selected. It can be considered that the TSP to be deleted is based on the TSP possessed. By checking the TSP type of the TSP counter value to be deleted for each of these four deletion criterion TSP counter values, the minimum deletion amount among the four deletion criteria is determined in advance. be able to.

  At this time, there are nine transmission parameters having the same mode / guard interval ratio combination, because there are three combinations of modulation schemes and inner codes in the A / B layer. Therefore, nine types of TSP having the same TSP counter value are checked. FIG. 10 shows TSP types with TSP counter values from 0 to 39. If there is at least one TSP of the A layer / B layer among the TSPs of the TSP counter value to be deleted, the TSP of the next TSP counter value is deleted (example: TSP counter value in FIG. 10). = 5). Further, if there is a TSP of the A layer or the B layer for the subsequent TSP, the TSP of the next TSP counter value is further set, and this is repeated. For example, when the TSP counter value = 20 in FIG. 10, the null packet with the TSP counter value = 23 shifted by 3 packets is deleted.

  As described above, only the null packet can be deleted by shifting the TSP counter value. However, as in the first embodiment, the maximum value of the TSP amount to be shifted becomes the size of the TS buffer, and the delay amount as it is. It becomes. For this reason, the TSP counter value to be shifted is selected from the four TSP counter values. In the case of mode 3 and guard interval 1/8, the delay amount is 4 packets for 4n, 4n + 1, and 4n + 2, whereas if the extracted TSP table is created based on 4n + 3, the delay amount is 2 packets. can do.

  As described above, the same operation as that of the STL / TTL line transmitter 1 and the STL / TTL line receiver 10 of the first embodiment is realized with the number of extracted TSP tables reduced. Can do.

  Next, in the STL / TTL line transmitting apparatus 1 and the STL / TTL line receiving apparatus 10 according to the first embodiment or the second embodiment of the present invention, the three-segment format is composed of m pieces and the one-segment form is composed of k pieces. A rate adjustment by inserting a null packet in the case of being performed will be described. As described above, the three-segment broadcast TS is converted into the compressed broadcast TS by the data compression unit 2 and the total transmission speed of the three-segment compressed TS and the one-segment broadcast TS input to the combining unit 3 Is 512/63/4 × (3m + k) Mbps. Here, 3m + k is equal to the number of transmission segments. Therefore, in order to obtain the same transmission rate as the broadcasting TS of the digital terrestrial television broadcasting in the synthesizing unit 3, the transmission rate is 16 / (3m + k) times, that is, 16-3m-k per 3m + k TSPs. Insert null packets. As a result, it is possible to transmit a concatenated combined TS having a constant transmission rate with an arbitrary segment structure.

  The present invention has been described above with reference to specific embodiments. However, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the technical idea thereof. For example, in each of the above-described embodiments, in the STL / TTL line transmitting apparatus 1 and the STL / TTL line receiving apparatus 10, the TSP TSP counter value extracted as the compressed broadcast TS (that is, the TSP TSP not deleted in the broadcast TS) The example of creating and holding the extracted TSP table indicating the counter value) has been described, but instead, the extracted TSP table indicating the TSP counter value of the TSP to be deleted to be configured as the compressed broadcast TS is created and held. You may do it.

  According to the present invention, in a transmission signal arbitrarily connected and synthesized with a predetermined number of segments or less for a plurality of types of segment-type broadcast TS, for example, in a multimedia broadcast transmission signal connected with 14 or less segments, Regardless of (1-segment format or 3-segment format), a concatenated combined TS can be configured at a predetermined transmission rate (for example, 32.51 Mbps (= 512/63 × 4 Mbps)) or less. This is useful for applications using similar STL / TTL lines.

DESCRIPTION OF SYMBOLS 1 Transmitter for STL / TTL line 2 Data compression part 3 Synthesis | combination part 4 STL / TTL transmission line encoding part 5 RF transmission part 6 TSP buffer 7 Additional information extraction part 8 Extraction TSP table selection control part 8a Extraction TSP table storage part 9 TSP extractor 10 STL / TTL line receiver 11 RF receiver 12 STL / TTL channel decoder 13 Demultiplexer 14 Data decompressor 15 TSP buffer 16 Additional information extractor 17 Extract TSP table selection controller 17a Extract TSP Table storage unit 18 Null_TSP generation unit 19 TSP output control unit

Claims (6)

A transmission device for STL / TTL lines that transmits a combined composite TS that is arbitrarily connected and combined with a predetermined number of segments or less of a plurality of types of segment-type broadcast TSs via an STL / TTL line,
By monitoring the TSP counter value of a broadcast TS of a predetermined segment format among the plurality of types of segment TS, and deleting the null packet of the TSP counter value determined in advance according to the transmission parameter of the broadcast TS Data compression means for generating a compressed broadcast TS obtained by performing data compression on the broadcast TS;
Combining means for connecting the compressed broadcast TS and a broadcast TS that is not subjected to the data compression among the plurality of types of segment-format broadcast TS, and generating a combined composite TS;
Transmitting means for applying a predetermined transmission line encoding to the concatenated combined TS and transmitting the same to the outside via an STL / TTL line;
A transmitter for an STL / TTL line, comprising:   The null packet of the predetermined TSP counter value to be deleted is predetermined so as to minimize a delay amount of the broadcast TS according to the transmission parameter. STL / TTL line transmitter.   The synthesizing means does not depend on the segment configuration by arbitrarily connecting the broadcast TSs of the plurality of segment formats, and the transmission rate of the concatenated combined TS becomes a constant transmission rate that can be transmitted through the STL / TTL line. The STL / TTL line transmission apparatus according to claim 1 or 2, further comprising means for inserting a null packet. A STL / TTL line receiving apparatus for receiving a combined composite TS that is arbitrarily concatenated and combined within a predetermined number of segments with respect to a plurality of types of segment format broadcast TSs, via an STL / TTL line,
On the transmission side, data compression is performed by deleting a null packet of a TSP counter value determined in advance according to a transmission parameter of the broadcast TS for the broadcast TS of a predetermined segment format among the plurality of types of segment format broadcast TSs. Has been given,
Separation that separates the combined composite TS obtained by connecting and combining the compressed broadcast TS and the broadcast TS that is not subjected to the data compression among the multiple types of segment format broadcast TS into the multiple types of segment format broadcast TS Means,
The TSP counter value of the compressed broadcast TS is monitored, and data expansion is performed on the compressed broadcast TS subjected to the data compression by inserting a null packet having a predetermined TSP counter value according to the transmission parameter of the compressed broadcast TS. And data decompression means for restoring the broadcast TS of the predetermined segment format,
An STL / TTL line receiving apparatus, comprising:   The null packet of the predetermined TSP counter value to be deleted is predetermined so as to minimize a delay amount of the broadcast TS according to the transmission parameter. STL / TTL line receiver.   The said demultiplexing means is provided with a means to delete the null packet inserted so that it might become a fixed transmission rate which can be transmitted with the said STL / TTL line | wire on the transmission side, The Claim 4 or 5 characterized by the above-mentioned. STL / TTL line receiver.