CN1288330A - Ground digital multimedia TV broadcasting system - Google Patents

Abstract

The invention provides a digital information transmission method and a ground digital multi-media TV broadcasting system using said method with a net controllation center, at least one transmitter and one receiver. The digital information transmission method are, to transmit at least first and second frames, each of them has binary bit or bit with selected numbers and includes signal frame sync segment which the length is selected at first and signal frame segment which the length is selected at second. The frame sync segment of first frame has selected bit mode and is different from the bit mode selected by the frame sync segment of second fram, at least one of the frame sync segments of first and second frames can be used for corresponding frame sync in time domain.

Description

Ground digital multimedia TV broad cast system

The present invention relates to the digital TV Broadcasting Techniques field, relate more specifically to a kind of ground digital multimedia TV broad cast system.According to thought of the present invention, not only can be used for ground, satellite, wired, microwave and other transmission medium, also can be used for data broadcasting, Internet and other wideband multimedia message transmission and integrated data business field.

Through insistent research and development of more than ten years, (Digital TelevisionTerrestrial Broadcasting DTTB) has obtained a lot of achievements to Digital Television Terrestrial Broadcasting, and having reached can implementation phase.From in November, 1998 North America and the Europe DTTB program that started broadcasting, many countries have announced that their DTTB standard selects and realize a plan.At present, mainly contain three kinds of DTTB transmission standards in the world:

1) Advanced Television Systems Committee's (Advanced Television Systems Committee, ATSC) eight level vestigial side bands of Yan Fa lattice code (Trellis-Coded 8-Level Vestigial Side-Band (8-VSB)) modulating system.

The ATSC digital television standard is the ATSC of Advanced Television Systems Committee exploitation.

In May, 1993, the group of a few family of U.S. research digital HDTV forms Major Leagues (GA).Through Advanced Television Test Center (ATTC) Major Leagues' system for field is tested, September nineteen ninety-five, the United States advanced television system committee (ATSC) has submitted the digital television standard report to FCC, through the congressional hearing debate, on December 26th, 1996, FCC formally announced " digital television standard " ATSC.ATSC has not only comprised HDTV, has also increased the SDTV standard.Video, audio frequency and the auxiliary data of this system high quality in the 6MHz channel can send about 19Mbps total capacity information in a 6MHz terrestrial broadcasting channel, and send about 38Mbps total capacity information in a 6MHz cable TV channel.Compression ratio is 50: 1 or higher.This system is become by three groups of subsystems.That is: source encoding and compression subsystem; Service integration and transmit subsystem and RF transmission subsystem.

2) digital video broadcast-terrestrial (Digital Video Terrestrial Broadcasting-Terrestrial, DVB-T) Coded Orthogonal Frequency Division Multiplexing (COFDM) of standard employing (Coded Orthogonal Frequency DivisionMultiplexing, COFDM) modulation.

The DVB-T system is the association of European both privately and publicly owned's tissue---digital video broadcasting (DVB) exploitation.

Europe has stopped the digital-to-analogue mixed HD-MAC system of original development and has begun the research of digital television broadcasting DVB in 1993; afterwards, the ETSI of european telecommunication association had successively announced the standard of DVB-S (satellite broadcasting), DVB-C (cable tv broadcast) and DVB-T (terrestrial broadcasting).This series standard is considered the transmission of digital video and audio frequency, and upcoming multimedia programming.Aspect source encoding, DVB standard code digital television system is used unified MPEG-2 compression method and mpeg 2 transport stream and multiplexing method; Aspect terrestrial transmission, it adopts COFDM (Coded Orthogonal Frequency Division Multiplexing (COFDM)) modulation technique different with the U.S., and this disturbs for anti-multipath and moves to receive tangible advantage.

3) floor synthetic service digital broadcasting (Integrated Service Digital Broadcasting-Terrestrial, ISDB-T) the frequency band segment transmissions of Cai Yonging (Bandwidth Segmented Transmission, BST) orthogonal frequency division multiplex OFDM.

The ISDB-T system is that (Association of Radio Industries andBusinesses ARIB) develops Japanese association of radio industrie and business.

Japan is the production power of radio and television equipment, grasps many radio and television new and high technologies, and is maintaining the leading position aspect the development of equipment such as HDTV shooting, video recording, demonstration.The high definition TV satellite broadcasting Hivision standard of simulation standard is Japan exploitation and formally broadcasts to the user, is the high definition television broadcasting of early start in the world.Be analog signal form, and be but as transmission medium (bandwidth 24MHz), so do not belong to the full digital television broadcasting of high compression ratio with satellite channel owing to it.As if Japan does not show its trend in advance the exploitation upsurge of world's television broadcasting system total digitalization, make no public appearances a little.Yet in 1996, Japan proposed DTTB (Digital Television Terrestrial Broadcasting) standard-ISDB-T (broadcasting of floor synthetic service digital) of its development suddenly.This scheme is to be advised by the DiBEG of Japan (digital broadcasting expert group), so also claim the DiBEG standard.The modulator approach that system adopts is called frequency band segment transmissions (BST) OFDM, is made up of one group of common fundamental frequency piece that is called the BST section.

Since a plurality of DTTB system had been arranged, many countries and regions were all in the DTTB system of selecting oneself.But along with the development of technology and deepening continuously of research, people recognize at signal peak-average power ratio, C/N thresholding, move receive, indoor/outer reception, spectrum efficiency, HDTV transmittability, with frequency/adjacent channel disturb, aspect the flexibility of interference, single frequency network and co-channel forwarding, impulse disturbances and continuous wave interference to having simulated television now, phase noise, static state/dynamically multipath distortion, system or the like, respectively there are its pluses and minuses in above-mentioned three systems.

Under this background,, terrestrial digital television system a kind of novelty, that be fit to China's national situation has been proposed at above-mentioned present three problems that terrestrial digital television system exists in the world.

Therefore, the purpose of this invention is to provide a kind of digital information transmission method, it uses the television broadcasting frequency spectrum.The message transmission code check of effective payload of each channel can be up to 33Mbps under the bandwidth of 8MHz.The core of system has adopted the time-domain synchronization OFDM TDS-OFDM of mQAM/QPSK, and (its spectrum efficiency can be up to 4Bit/s/Hz for TimeDomain Synchronous OFDM, TDS-OFDM) modulation technique; System uses more optimal forward error correction coding FEC to resist error burst, for example Reed-Solomon (Reed-Solomom (R-S), RS) or Turbo code, convolutional interleave, matrix interweave etc.; Realized hierarchical modulation and coding, realized class-of-service,, provide different services at different application, different purposes, different users; Simultaneously can realize multimedia service.

Another object of the present invention provides a kind of ground digital multimedia TV broad cast system that adopts above-mentioned digital information transmission method.

According to an aspect of of the present present invention, a kind of digital information transmission method is provided, comprising:

At least transmit first and second frames, every frame has the binary digit or the bit of selected number (F), every frame comprises signal frame sync section and signal frame body section, the length of signal frame sync section is at first selected length, the length of signal frame body section is secondly selected length, the frame sync segment of first frame has selected bit pattern, and it is different from is the selected bit pattern of frame sync segment of second frame; Wherein, one of frame sync segment of at least the first frame and second frame is used on the time domain corresponding frame is carried out synchronously.

Digital information transmission method according to above-mentioned is characterized in that: in the said selected bit pattern of described signal frame sync section, further comprise a sign, be used for discerning the signal that receives wanted of said at least two frames.

Digital information transmission method according to above-mentioned is characterized in that: in the said selected bit pattern of described signal frame sync section, further comprise a sign, be used to discern the data source of said at least two frames.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: use the selected bit pattern of described frame sync segment to realize at least 2 ^NThe mutual difference of-1 frame, wherein, the length of the frame sync segment of described every frame has the N bit at least, and N is a selected positive integer.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: selecting described Integer N is 9.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: select the bit pattern of frame sync segment to comprise pseudo noise sequence, it is produced by N rank multinomial p (x)=0, and x is a Boolean variable here.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: select the bit pattern of frame sync segment to comprise such pattern, this pattern is the result of two binary sequence XORs, first binary sequence is the pseudo noise sequence that is produced by N rank multinomial p (x)=0, here x is a Boolean variable, and second binary sequence is the orthogonal sequence with selected code length.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: from the orthogonal sequence group that walsh code sequences, Haar sign indicating number sequence, Rademacher sign indicating number sequence are formed, select a described orthogonal sequence.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: the son section in the described signal frame sync section of described first frame and second frame, its length be F ' (F '＜F), so configuration is so that the son of the son section of described first frame and described second frame section is a quadrature.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: select the frame segment of at least one described frame, its length is selected from frame segment length 208,104 and 52.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: use Reed Solomon code, the RS (m of appointment, n), provide Error detection and correction, wherein (m for digital information, n) be a pair of integer, from (208,188), (208,200), (104,84), (104,96), (52,32) and in (52,44) select.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: use the error code coding, for described digital information provides Error detection and correction, described error coding mode is selected from lattice shape 64QAM, lattice shape 16QAM, lattice shape QPSK, turbo lattice shape 64QAM, turbo lattice shape 16QAM, turbo lattice shape QPSK.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: described transmission information is high-definition TV signal.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: described information transmitted makes to have at least a recipient's cellular phone signal.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: described transmission information is the paging signal with at least one recipient.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: transmission is from described at least two frames of the network control center, the described network control center has relevant broadcast database, and be connected with the Internet, downstream signal is sent to a base station at least, and this base station is away from the described network control center.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: will arrive the described network control center as uplink signal transmissions from least two frames of described base station.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: will be transferred to the reception receiving terminal as downstream signal from least two frames of described base station, described terminal is away from one of described control centre and described base station.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: will arrive described base station as uplink signal transmissions from least two frames of described terminal.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: selecting described signal frame sync section length is 721 symbols.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: the length of selecting described signal body section is 4656 symbols.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: select described signal body section, make it comprise protection intervening sequence with 912 continuous symbols.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: the frame of described selected number F1 is gathered among the frame group, and wherein F1 is the integer of selecting, and equals 2 at least, and provides a selected frame group head for this frame group.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: selecting described number F1 is 511.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: in described frame group head, comprise protection interval with 936 continuous symbols.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: the frame of described selected number F2 is trooped close in the superframe, wherein F2 is the integer of selecting, and equals 2 at least, and provides a selected superframe head for superframe.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: selecting described number F2 is 511.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: the described superframe of selected number F3 is gathered among the superframe group, and F3 is the integer of selecting here, equals 2 at least, and provides a selected superframe group head for the superframe group.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: selecting described number F3 is about 479.

According to above-mentioned digital information transmission method, it is characterized in that further comprising: the described superframe group at least twice of transmission in the selected time interval, selected time interval length is 2T (SFG).

According to a second aspect of the present invention, a kind of ground digital multimedia TV broad cast system that adopts above-mentioned digital information transmission method is provided, it is characterized in that:

Described ground digital multimedia TV broad cast system comprises: a network control center (1), at least one transmitter (2) and at least one receiver (3);

At least transmit first and second frames from the described network control center (1) and be transferred to transmitter (2), transmitter (2) arrives received signal modulate emission aerial, receive by receiver (3), wherein, every frame has the binary digit or the bit of selected number (F), every frame comprises signal frame sync section and signal frame body section, the length of signal frame sync section is at first selected length, the length of signal frame body section is secondly selected length, the frame sync segment of first frame has selected bit pattern, and it is different from is the selected bit pattern of frame sync segment of second frame; Wherein, one of frame sync segment of at least the first frame and second frame is used on the time domain corresponding frame is carried out synchronously.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: in the said selected bit pattern of described signal frame sync section, further comprise a sign, be used for discerning the signal that receives wanted of said at least two frames.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: in the said selected bit pattern of described signal frame sync section, further comprise a sign, be used to discern the data source of said at least two frames.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: use the selected bit pattern of described frame sync segment to realize at least 2 ^NThe mutual difference of-1 frame, wherein, the length of the frame sync segment of described every frame has the N bit at least, and N is a selected positive integer.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: selecting described Integer N is 9.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: select the bit pattern of frame sync segment to comprise pseudo noise sequence, it is produced by N rank multinomial p (x)=0, and x is a Boolean variable here.

According to above-mentioned ground digital multimedia TV broad cast system, it is characterized in that: select the bit pattern of frame sync segment to comprise such pattern, this pattern is the result of two binary sequence XORs, first binary sequence is the pseudo noise sequence that is produced by N rank multinomial p (x)=0, here x is a Boolean variable, and second binary sequence is the orthogonal sequence with selected code length.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: select a described orthogonal sequence from the orthogonal sequence group that walsh code sequences, Haar sign indicating number sequence, Rademacher sign indicating number sequence are formed.

According to above-mentioned ground digital multimedia TV broad cast system, it is characterized in that: the son section in the described signal frame sync section of described first frame and second frame, its length be F ' (F '＜F), so configuration is so that the son of the son section of described first frame and described second frame section is a quadrature.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: select the frame segment of at least one described frame, its length is selected from frame segment length 208,104 and 52.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: use Reed Solomon code, the RS (m of appointment, n), provide Error detection and correction, wherein (m for digital information, n) be a pair of integer, from (208,188), (208,200), (104,84), (104,96), (52,32) and in (52,44) select.

According to above-mentioned ground digital multimedia TV broad cast system, it is characterized in that: use the error code coding, for described digital information provides Error detection and correction, described error coding mode is selected from lattice shape 64QAM, lattice shape 16QAM, lattice shape QPSK, turbo lattice shape 64QAM, turbo lattice shape 16QAM, turbo lattice shape QPSK.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: described transmission information is high-definition TV signal.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: described information transmitted is for also comprising the cellular phone signal with at least one recipient.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: described transmission information also comprises the paging signal with at least one recipient.

According to above-mentioned ground digital multimedia TV broad cast system, it is characterized in that: transmission is from described at least two frames of the network control center, the described network control center has relevant broadcast database, and be connected with the Internet, described transmitter is the base station with transmission-receiving function, downstream signal is sent to a base station at least, and this base station is away from the described network control center.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: will arrive the described network control center as uplink signal transmissions from least two frames of described base station.

According to above-mentioned ground digital multimedia TV broad cast system, it is characterized in that: will be transferred to receiver as downstream signal from least two frames of described base station, described receiver is the terminal with transmission-receiving function, and described terminal is away from one of described control centre and described base station.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: will arrive described base station as uplink signal transmissions from least two frames of described terminal.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: selecting described signal frame sync section length is 721 symbols.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: the length of selecting described signal body section is 4656 symbols.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: select described signal body section, make it comprise the protection intervening sequence with 912 continuous symbols.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: the frame of described selected number F1 is gathered among the frame group, and wherein F1 is the integer of selecting, and equals 2 at least, and provides a selected frame group head for this frame group.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: selecting described number F1 is 511.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: comprise the protection interval with 936 continuous symbols in described frame group head.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: the frame of described selected number F2 is trooped close in the superframe, wherein F2 is the integer of selecting, and equals 2 at least, and provides a selected superframe head for superframe.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: selecting described number F2 is 511.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: the described superframe of selected number F3 is gathered among the superframe group, and F3 is the integer of selecting here, equals 2 at least, and provides a selected superframe group head for the superframe group.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: selecting described number F3 is about 479.

Ground digital multimedia TV broad cast system according to above-mentioned is characterized in that: the described superframe group at least twice of transmission in the selected time interval, selected time interval length is 2T (SFG).Below in conjunction with accompanying drawing specific embodiments of the invention are described in detail.

Fig. 1 is the physics pie graph according to ground digital multimedia TV broad cast system of the present invention.

Fig. 2 is the block diagram according to ground digital multimedia TV broad cast system of the present invention.

Fig. 3 is the signal pie graph according to ground digital multimedia TV broad cast system of the present invention.

Fig. 4 is the block diagram according to the transport layer of ground digital multimedia TV broad cast system of the present invention.

Fig. 5 is the structure chart according to the channel data bag of ground digital multimedia TV broad cast system of the present invention.

Fig. 6 shows x among the present invention ⁸+ x ⁶+ x ⁵The structure chart of the Fibonacci molded lines feedback shift register of+x+1.

Fig. 7 is the structure chart that shows the 16th rank Wo Leshi sign indicating number of the present invention.

Fig. 8 is the schematic diagram that shows the data multiplex of DFT piece among the present invention.

Fig. 9 shows x among the present invention ⁸+ x ⁶+ x ⁵The structure chart of the linear feedback shift register of+x+1 character used in proper names and in rendering some foreign names Luo Hua form.

Figure 10 shows 1+x among the present invention ¹⁴+ x ¹⁵The structure chart of linear feedback shift register of randomizer.

Figure 11 is the structural representation of convolutional interleave of the present invention.

Figure 12 is the schematic diagram of 1/2 rate convolutional code encoder of the present invention.

Figure 13 is the schematic diagram of 1/2 code check parallel cascade system CTC of the present invention.

Figure 14 is the 1/2 code check trellis encoder block diagram of the 16QAM of being used for of the present invention.

Figure 15 is the PCTC Turbo encoder block diagram of the 16QAM of being used for of the present invention.

Figure 16 is the 2/3 code check trellis code encoder block diagram of the 64QAM of being used for of the present invention.

Figure 17 is the PCTTC encoder block diagram of the 64QAM of being used for of the present invention.

Figure 18 is the signal spectrum figure that is used to illustrate OFDM (OFDM).

Figure 19 is signal spectrum and the protection schematic diagram at interval that is used to illustrate OFDM (OFDM).

Figure 20 is the schematic diagram that is used for illustrating the pilot frequency locations of Coded Orthogonal Frequency Division Multiplexing (COFDM) (COFDM).

Figure 21 adopts downgoing line RF modulation function block diagram in the ground digital multimedia TV broad cast system of time-domain synchronization OFDM (TDS-OFDM) according to the present invention.

Figure 22 is the QPSK symbol constellation

Figure 23 is even 16QAM symbol constellation (α=1)

Figure 24 is non-homogeneous 16QAM symbol constellation (α=2)

Figure 25 is even 64QAM symbol constellation (α=1)

Figure 26 is non-homogeneous 64QAM symbol constellation (α=2)

Figure 27 (a) and (b) transmission system structure

Channel performance under the various channel models of Figure 28

The performance curve of Figure 29 QPSK

Figure 30 16QAM performance curve

Figure 31 64QAM performance curve

Below in conjunction with accompanying drawing ground digital multimedia TV broad cast system of the present invention is elaborated.

The present invention is directed to mainly to as if ground system of digital television broadcast, its system physical is constructed as follows shown in Figure 1.After multimedia messagess such as TV programme or data, text, picture, voice process source code, transfer encoding, the chnnel coding, launch, cover certain zone by one or more transmitter.The networking neatly of these transmitters both can have been formed multiple frequency network, MFN MFN (Multi-Frequency Network), also can form single frequency network SFN (Single Frequency Network).

Fig. 2 is the block diagram according to ground digital multimedia TV broad cast system of the present invention.

As illustrated in fig. 1 and 2, (they can be local tv stations to the more than one transmitting station 2 that is positioned at different regions, or zonal transmitting base station) the ground digital television broadcast net that can form a whole, two transmitting stations have only been shown among Fig. 1, this transmitting station receives one or more digital multimedia TV broad cast (program) signal from certain TV station or the network control center 1, and they are forwarded.Utilize surface wave to be transferred to fixed receiver or mobile receiver, as vehicle-mounted receiver.User in the area of coverage can be the receiver of fixed outdoor antenna, the receiver of indoor set top antenna, mobile receiver or portable receiver, and covering depends on many factors, for example, landform (mountain range, the river valley, horizon or artificial building), the height of launching tower and power, receiver antenna and gain/directive property etc., the signal that the user is received not only has direct signal, also has signal through the one or many reflection, and the signal of distant place transmitter emission in multiple frequency network, MFN or the same net frequently, therefore, with regard to the problem that exists a multipath to disturb, because native system has adopted OFDM (OFDM) technology (back is with described), receiver can receive the signal from a plurality of transmitting stations simultaneously, and these signals are to strengthen mutually.Thereby overcome multipath reception (ghost image) problem of common terrestrial TV system.Be that ground digital multimedia TV broad cast system of the present invention has opposing static state/dynamic multi-path interference capability.In addition, for the car antenna receiver of low speed/high-speed mobile, for example there are Doppler effect in bus and high-speed train, therefore, receive information in order reliablely and stablely to make the user, and the present invention also supports to move and receives.

Fig. 3 has shown the signal pie graph according to ground digital multimedia TV broad cast system of the present invention.The digital television system signal structure is made up of compression layer, transport layer and transport layer three parts.The concrete formation of transport layer is determined by transmission channel (perhaps being transmission medium).The wireless medium of the wired media of transmission medium (comprising optical fiber, copper axle and both hybrid network), wireless medium (comprising satellite, microwave, MMDS etc.), surface wave transmission.For every kind of transmission medium, compression layer all is the same with transport layer basically, and difference is just on transport layer.The present invention be directed to the wireless medium face speech of surface wave transmission.

From the another one angle analysis, the digital television system transmitting terminal can be divided into parts such as information source compressed encoding, code stream multiple connection, channel error correction coding, Channel Modulation.Wherein source encoding is exactly a compression layer, the compressed encoding that comprises sound and image mainly contains the series standard such as MPEG1, MPEG2, MPEG4 of ISO/IEC, at present along with the development of technology, can adopt other new compression algorithm, for example wavelet coding, fractal image etc.The code stream multiple connection belongs to transport layer, mainly single channel or multichannel elementary stream are carried out multiple connection according to standard or other corresponding standard of MPEG-2 system layer, multiple a plurality of code streams such as audio code stream, video code flow, data code flow are combined into a transmission code stream, its length is fixed, so that Channel Transmission is inserted various time tags simultaneously and is used for indication and synchronous.Chnnel coding and channel-decoding belong to transport layer, and according to different channels, digital television system has adopted different error correction codings and modulation technique scheme.

The transport layer that focuses on of the present invention.Because different transmission medium transmission characteristic differences, thereby its transport layer is also different.But for terrestrial transmission, system's formation is illustrated in fig. 4 shown below usually, is divided into the two large divisions: forward error correction FEC part and modulate emission part.

Error correcting section in the terrestrial DTV, big technical elements has all adopted the error correction (Reed-Solomen sign indicating number) of outer sign indicating number, the I that interweaves (convolutional interleave), ISN error correction (convolution code/Turbo code), the II that interweaves (matrix interweaves) basically, the ISDB-T of the DVB-T in the ATSC of the U.S., Europe and Japan is not always the case, but the present invention improves them on specific implementation, therefore, improve error-correcting performance, thereby caused signal peak-average power ratio, C/N thresholding, spectrum efficiency, impulse disturbances and continuous wave interference, phase noise or the like aspect to improve.

And modulation technique mainly contains two kinds of schemes---single-carrier modulated and multi-carrier modulation at present.Belong to the ATSC 8VSB modulation that the U.S. is arranged of single-carrier modulated, and DVB-T COFDM, the Japanese ISDB-T BST OFDM that Europe is arranged of multi-carrier modulation, the modulation technique TDS-OFDM that is adopted among the present invention also belongs to multi-transceiver technology.

At error correction coding and modulation technique, introduce ins and outs involved among the present invention below, at first introduce physical channel structure.

1, channel data pack arrangement

Physical channel structure of the present invention has following characteristic:

The frame structure of layering

Synchronized orthogonal frequency division multi-carrier modulation (also claiming OFDM or DMT)

The PN sequence pilot frequency is synchronous

The cyclical transmission scheme, be consecutive days circulation timei

Unique frame address, the support time is shared multiple access

Continuous and burst transfers of data is mixed application

1.1 frame structure is described

Physical channel frame structure of the present invention as shown in Figure 5.Frame structure is classification, and a basic frame structure is called a signal frame.The frame group is defined as a group signal frame, and its first frame is defined as frame group head.Superframe is defined as a framing group.The item layer of frame structure is called the superframe group.As shown in the figure, for example, a superframe group is made up of 478 superframes, and a superframe comprises 512 frame groups, and a frame group comprises 255 signal frames.Physical channel is the cycle, and and Absolute Time Synchronization.

Signal frame is the elementary cell of down physical channel.A signal frame is made up of two parts: frame synchronization and frame.The baseband signalling rate of frame synchronization and frame is identical, is defined as 7.56MSps.Frame synchronization adopt the BPSK modulation with obtain stable synchronously.Frame synchronization comprises preamble buffering, PN sequence and back sync buffering.Symbolic number in the frame synchronization depends on the symbolic number in preamble buffering and the back sync buffering, and is as shown in table 1.

Symbolic number in table 1 frame synchronization

Symbolic number in the frame synchronization	Symbolic number in the preamble buffering	Symbolic number in the PN sequence	Symbolic number in the back sync buffering
256	0	255	1
304	24	255	25
384	25	255	104

The OFDM modulator approach is used for frame.The DFT piece has 3780 symbols and continues 500us.Protection is chosen as 1/6,1/9,1/12,1/20 or 1/30 of DFT piece at interval, and is as shown in table 2.

Symbolic number in OFDM piece of table 2

Symbolic number in the OFDM piece	The percentage of the at interval relative DFT piece of protection	Symbolic number in the protection at interval
4410	1/6	630
4200	1/9	420
4095	1/12	315
3969	1/20	189
3906	1/30	126

A signal frame will have different symbolic numbers, depend on selected frame synchronization and OFDM protection at interval, and will be as shown in table 3.Table 3 has also been listed the time corresponding to a signal frame.

Symbolic number in signal frame of table 3

The time of frame synchronization (μ S)	Symbolic number in the signal frame	Symbolic number in the frame synchronization	Symbolic number in the OFDM piece
				????617.2	????4666	????256	????4410
????623.5	????4714	????304	????4410
				????634.1	????4794	????384	????4410
????589.4	????4456	????256	????4200
				????595.8	????4504	????304	????4200
????606.3	????4584	????384	????4200
				????575.5	????4351	????256	????4095
????581.9	????4399	????304	????4095
				????592.5	????4479	????384	????4095
????558.9	????4225	????256	????3969
				????565.2	????4273	????304	????3969
????575.8	????4353	????384	????3969
				????550.5	????4162	????256	????3906
????556.9	????4210	????304	????3906
				????567.5	????4290	????384	????3906

A frame group contains 255 signal frames, and wherein first signal frame is defined as frame group head.Signal frame among frame group has unique frame number, label from 0 to 254, and signal frame number (FN) is encoded in the frame synchronization PN sequence of current demand signal frame.A frame group's duration depends on the sample number in its signal frame, at 140.4mS between the 161.7mS.

Superframe is numbered, from 0 to largest frames group number.Hyper Frame Number (SFN) is encoded in first frame group head of superframe with superframe group number (SFGN).

Superframe group number (SFGN) is defined as the calendar date of superframe pocket transmission, the superframe group is to carry out periodicity the cycle to repeat with a consecutive days, it is encoded as preceding two bytes in first frame group head of a superframe among the downgoing line superframe group, coded format is month, day and year as metric MMDDYY, sees Table 4.At (PST) 0:0:0AM Pacific standard time, physical channel frame structure is reset and begins a new superframe group.Superframe number in each superframe group is between 1130 to 1044.Last superframe of each superframe group can be incomplete resetting constantly.

The glossary of symbols number (SSN) of downgoing line transmission is based on the defining named of glossary of symbols.

As mentioned above, the low layer of the synchronous channel structure of layering is embedded in the downgoing line frame.And the high level of the synchronous channel structure of layering, SFGN and SFN are encoded in first frame group head of superframe.SFGN and SFN packet are defined as the superframe-synchronized bag, and be as shown in table 4.

Table 4 downgoing line superframe-synchronized bag

D3	D2	D1	D0	M3	M2	M1	M0
Y6	Y5	Y4	Y3	Y2	Y1	Y0	D4
SFGN7	SFGN6	SFGN5	SFGN4	SFGN3	SFGN2	SFGN1	SFGN0
SFN7	SFN6	SFN5	SFN4	SFN3	SFN2	SFN1	SFN0
SFGN8	SFN8	FGN8	BS4	BS3	BS2	BS1	BS0

[M3 ... M0]: the month on date, scope from 1 to 12[D4 ... D0]: the day on date, scope from 1 to 31[Y6 ... Y0]: the year on date, scope from 0 to 99

[SFGN8 ... SFGN0]: superframe group number [SFN8 ... SFN0]: Hyper Frame Number [BS4 ... BS0]: Base Station Identification, default value are 0

1.2 signal frame structure

1.2.1 frame synchronization

The base band frame synchronizing signal by a preamble cushion, sync buffering constitutes behind PN sequence and one.The preamble buffering may be defined as 0,24 and 25 symbol, and back sync buffering may be defined as 1,25 and 104 symbol, and the PN sequence has 255 symbols.Unlike signal frame among the signal frame group has different frame synchronizing signals.So frame synchronization can be made the frame synchronization feature of a distinctive signal frame and be used for identification.Preamble buffering and back sync buffering are defined as the cyclic extensions of PN sequence.

The PN sequence definition is one 8 rank m sequence, is realized by a Fibonacci molded lines feedback shift register (LFSR).Its proper polynomial is defined as x ⁸+ x ⁶+ x ⁵+ x+1.The LFSR block diagram is shown among Fig. 6.The phase place of the definite m sequence that is produced of initial condition module.

It is the binary signal of non-return-to-zero to the mapping transformation of-1 value that the PN sequence reaches " 1 " through " 0 " to+1 value.A N rank walsh code can generate with the Ha Demate matrix.A N rank Ha Demate matrix is that recursion is set up.

The 2nd rank Ha Demate matrix H (2) are defined as

0?0

01 the 4th rank Ha Demate matrix H (4) are defined as

H(4)=H(2)×H(2)=

0?0?0?0

0?1?0?1

0?0?1?1

0110 for N=2 ^k, N rank Ha Demate matrix H (N) are defined as

H(N)=H(2)×H(N/2)

A N rank walsh code can be defined as the row of N rank Ha Demate matrix.A Walsh code word is the delegation of Ha Demate matrix.The label of Walsh code word is defined as in the code word by 0 to 1 with by 1 to 0 number of times of changing.

Fig. 7 illustrates one the 16th rank walsh code, and the left side one row illustrate the label of Walsh code word.

A frame synchronization sequence is by one the 16th rank walsh code word code, to realize many identification of base stations.The walsh code coding step of the PN sequence of carrying out for identification of base stations is as follows:

(1) be base station selected one the 16th rank Walsh code word by the CDTVN network manager.

(2) according to the preamble buffering/back sync buffering of PN sequence, repeat each in the code word

" 1 " and each " 0 " 16/19/24 time expands to one with the walsh code of 16 bits

256/304/384 vector.

(3) frame synchronization sequence and (2) that is encoded is gone on foot the vector that produces and carry out XOR by turn

(XOR) set up the frame synchronization sequence that walsh code is encoded.

1.2.2 frame

The baseband signal of a frame is an OFDM (OFDM) piece.An OFDM piece can further be divided into protection interval and a DFT piece, as shown in Figure 8.Because the OFDM block protection is different at interval, has the OFDM piece of 3780 subcarriers that different number of samples (referring to table 2) is arranged corresponding to frequency domain in time domain.

The DFT piece has 3780 samplings in its time domain, they are contrary discrete fourier transforms of 3780 subcarriers in the frequency domain.DFT piece time-domain signal continues 500us, and it is equivalent in the frequency domain frequency interval of 2kHz between two adjacent sub-carriers.

5 kinds of optionally protection gap size are arranged, promptly 1/6 of the DFT block size, 1/9,1/12,1/20,1/30.Protection signal at interval is same as the final stage of DFT piece time-domain signal.The protection blanking time under different protection gap size about 83.3us between the 16.7us.

In the IDFT piece frequency domain of a signal frame 3744 complex data symbols are arranged.These 3744 data symbols are further assigned in three glossary of symbols, and a glossary of symbols has 1248 complex data symbols.Glossary of symbols is numbered as glossary of symbols 0, glossary of symbols 1 and glossary of symbols 2.

The frame group number has 9 bits.The frame group number is encoded as the part of complex data symbol in the frequency domain IDFT piece.Everybody of frame group number is mapped to the real part of complex data symbol, and when the positive peak that is mapped to symbol, then this position is 1; When the negative minimum that is mapped to symbol, then this position is 0.

The imaginary part that is used for frame group's number complex data symbol is used to shine upon transmission parameter signaling (TPS), and it will define in the back.

Complex data symbol in IDFT piece is undertaken multiplexing by figure below.

1.3 the generation of synchronization structure

Downlink transfer agreement of the present invention is a synchronous transmission structure.List some key property of this structure below.

● all superframe groups start from PST (Pacific standard time) 0:0:0AM.

● superframe group's a superframe has frame group head to define uniquely.

● a signal frame group of superframe is defined in its signal frame uniquely.

● frame group's a signal frame can be assert by its signal frame synchronic PN sequence uniquely.

● synchronizing signal is the bpsk signal of a power ascension, and it is than the data in the OFDM structure

Signal power is a lot of greatly.

The frame address structure is based on the m sequence of one group of displacement, and it is a kind of specific type of pseudo random number (PN) sequence.One 8 rank m sequence is that one-period is 255 periodic sequence.Based on the initial condition of the LFSR among Fig. 6, can produce the m sequence of 255 outs of phase.The m sequence is by the initial condition numbering of its LFSR in Fig. 4.

With the proper polynomial among Fig. 5, initial condition is by x ¹⁶ⁿNumbering.

For example, the initial condition of the m sequence of sequence number 0 is 000000001, and it is x ^{16 * 0}=1.The initial condition of the m sequence of sequence number 1 is 11110011, and it is x ^{16 * 1}=x ¹⁶The initial condition of the m sequence of sequence number 2 is 11110100, and it is x ^{16 * 2}=x ³²The initial condition of the m sequence of sequence number 254 is 00010110, and it is x ^{16 * 254}=x ²³⁹

Time power arbitrarily of x can transform to a state with proper polynomial, and the LFSR of a character used in proper names and in rendering some foreign names Luo Hua form shown in Figure 9 produces each time power of x with continuous order.

Arbitrary signal frame among frame group can be assert by its frame synchronization.Have 255 different m sequences synchronous as signal frame, they are to being applied to 255 signal frames among the frame group.Arbitrary frame group of a superframe is by label, and from 0 to 511, and can assert by signal frame DFT piece.

Arbitrary superframe of a superframe group is since 0 label, and it can be by the data identification of PST (Pacific standard time) time or frame.

It is synchronous that frame synchronization m sequence is used to signal frame.Frame synchronization m sequence in the frame group head is used to the signal frame group synchronization.The frame group energy of a superframe is assert by its frame group head.Frame synchronizing signal can be used for symbol timing recovery.Frame synchronization sequence is predictable behind the initial capture-process of process.

2, forward error correction (FEC) coding

2.1 energy dissipation sign indicating number (option)

The energy dissipation sign indicating number be one by x ¹⁵+ x ¹⁴+ 1 definition, initial condition is 100101010000000 PN sequence.The encoder of energy dissipation sign indicating number is called as randomizer.The PN sequence can be produced by LFRS shown in Figure 10.

Randomizer is reset on the initial condition when superframe begins, and free-running operation then is up to being reset once more.

2.2 outer sign indicating number

The outer sign indicating number of FEC adopts Reed Solomon code.

2.2.1 high protection Reed-Solomon sign indicating number, RS (208,188)

High protection Reed-Solomon (RS) sign indicating number is RS (255,235) the Reed-Solomon sign indicating number that shortens, and they have identical territory generator polynomial and sign indicating number generator polynomial, but vary in size.

The territory generator polynomial is defined as

x ⁸+x ⁴+x ³+x ²+1

The sign indicating number generator polynomial is defined as

(x-1)(x-a)(x-a ²)…(x-a ¹⁹)

MPEG is transmitted code stream to RS (208,188) sign indicating number or other big or small packet uses.RS (208,188) has 188 bytes as information data, and other 20 bytes are error correction check byte, and RS (208,188) can entangle the error of transmission until 10 bytes.

RS (208,188) sign indicating number can generate according to the following steps:

1) before 188 data bytes, increases by 47 zero bytes as information byte;

2) 235 information bytes of coding obtain 255 encoded bytes;

3) remove preceding 47 bytes of encoded byte.

Because the RS coding is a systematic code, 47 bytes removing are zero bytes.

2.2.2 High Data Rate Reed Solomon code, RS (208,200)

High Data Rate Reed-Solomon (RS) sign indicating number is RS (255,247) the Reed-Solomon sign indicating number that shortens, and they have identical territory generator polynomial and sign indicating number generator polynomial, but vary in size.

The territory generator polynomial is defined as

x ⁸+x ⁴+x ³+x ²+1

The sign indicating number generator polynomial is defined as

(x-1)(x-a)(x-a ²)…(x-a ⁷)

RS (208,200) has 200 bytes as information data, and other 8 bytes are error correction check byte.RS (208,200) sign indicating number can be corrected the error of transmission until 4 bytes.

RS (208,200) sign indicating number can generate according to the following steps:

1) before 200 data bytes, increases by 55 zero bytes as information byte;

2) 247 information bytes of coding obtain 255 encoded bytes;

3) remove preceding 55 bytes of encoded byte.

2.3 time data pilotaxitic texture

The present invention is transmitted and is supported the continuous data flow and the data flow transmission of burst.For continuous data flow, the data interlacing structure is to interweave between signal frame.For the data flow of burst, the data interlacing structure is signal intra-frame interleaving or a frequency interlacing in a period of time.

Interweave between signal frame and adopt convolutional interleave structure shown in Figure 11.Variable B represents weaving width (branch road), and variable M represents interleave depth (delay buffer storage).The right overall delay of interleaving/de-interleaving is M * (B-1) * B.Depend on application, data interlacing has three kinds of modes between signal frame.

Mode 1:B=104, the M=6 byte.The overall delay of interleaving/de-interleaving is 64272 bytes, and it is corresponding to 309 RS (208,188) piece.

For a data flow, if 9 RS (208,188) transmit in a signal frame, then the interleaving/de-interleaving time delay is the time of 4 signal frames, is approximately 22ms.

Mode 2:B=52, the M=4 byte.The overall delay of interleaving/de-interleaving is 10608 bytes, and it is corresponding to 51 RS (208,188) piece.

Mode 3:B=16, the M=13 byte.The overall delay of interleaving/de-interleaving is 3120 bytes, and it is corresponding to 15 RS (208,188) piece.

As for adopting any mode, can select according to different application or different channel.

2.4 ISN

2.4.1 be used for the ISN of QPSK constellation symbols

1) 1/2 rate convolutional code

What adopt as the cascaded code ISN of QPSK constellation symbols is 1/2 rate convolutional code.The generator polynomial of 1/2 code check, 64 state convolution codes is

G1(x)=1+x+x ²+x ³+x ⁶

G2(x)=1+x ²+x ³+x ⁵+x ⁶

1/2 encoder for convolution codes block diagram as shown in figure 12.Input bit U generates two bits: respectively as the I and the Q of QPSK symbol.

2) 1/2 code check parallel cascade system CTC (option)

As the QPSK constellation symbols, its encoder block diagram as shown in figure 13 with the parallel cascade system CTC of 1/2 code check.

In Figure 13, An, Bn, Cn and Dn, n=0,1,2 ..., 6, be the coefficient of encoder, be defined as follows:

A0=0，A1=1，A2=1，A3=1，A4=0，A5=1，A6=0，

B0=1，B1=0，B2=0，B3=1，B4=0，B5=0，

C0=0，C1=1，C2=1，C3=1，C4=0，C5=1，C6=0，

D0=1，D1=0，D2=0，D3=1，D4=0，D5=0。

An input bit U will generate two outputs bit, the i.e. I of QPSK symbol and Q.Output bit Q will select Q0 and Q1 in turn.

Random interleaver is a block interleaver, and the size of piece is 1248 bits.

2.4.2 be used for the ISN of 16QAM constellation symbols

1) 1/2 code check trellis code

16 states, 1/2 code check trellis code encoder are used as the ISN of 16QAM symbol cascaded code as shown in figure 12.

At first to be transformed to 4 2-bits right for initial with least significant bit (LSB) for the input byte, and the 2-bit is right to being encoded to two 2-bits then, is used for the 16QAM sign map, and a symbol is right corresponding to the 2-bit of I and Q.Shown in the encoder block diagram, output bit I1 is the direct mapping of input bit U0, and output bit Q1 is the direct mapping of input bit U1.

In Figure 14, An, Bn, Cn and Dn, n=0,1,2,3,4 is coefficients of encoder, is defined as follows:

A0=0，A1=1，A2=1，A3=1，A4=0，

B0=1，B1=0，B2=0，B3=1，

C0=0，C1=1，C2=1，C3=1，C4=0，

D0=1，D1=0，D2=0，D3=1。The nature mapping is adopted in output symbol mapping from the 2-bit vectors to 4 level symbols, and is as shown in table 5.This sign map scheme is applicable to I and the Q passage of 16QAM.

Table 516QAM sign map

The symbol level	0	1	2	3
Bit vectors	00	01	10	11

2) 1/2 code check parallel cascade lattice shape Turbo code

Parallel cascade trellis code (PCTC) Turbo encoder as shown in figure 15.

Block diagram shown in Figure 15 and the block diagram of Figure 14 are closely similar.Mapping is identical with output symbol in the inlet flow conversion of these two kinds of trellis encoder.

To PCTC Turbo encoder, a bit interleaver is arranged between two parallel encoders.Bit interleaver carries out bit to given data block and rearranges.Data block should be within a signal frame.

In Figure 14, An, Bn, Cn and Dn, n=0,1,2,3,4 is coefficients of PCTC Turbo encoder, wherein, An and Cn are the 2-bit vectors.Coefficient is defined as follows:

A01=1，A11=1，A21=0，A31=1，

A00=0，A10=1，A20=0，A30=0，

B0=1，?B1=0，?B2=1，

C01=1，C11=1，C21=0，C31=1，

C00=0，C10=1，C20=0，C30=0，

D0=1，?D1=0，?D2=1。

To being used for the PCTC encoder of 16QAM, the sign map scheme is with identical shown in the table 5.Random interleaver is 2 block interleavers, and the size of piece is 1248 bits.

5.4.3 be used for the ISN of 64QAM constellation symbols

1) 2/3 code check trellis code, 8 states, 2/3 code check trellis code encoder as the cascaded code ISN, is used as the 64QAM constellation symbols as shown in figure 16.

The input byte is initial two the 4-bit vectors that are transformed to least significant bit (LSB) at first, and the 4-bit vectors is encoded to two 3-bit vectors then, is used for the 64QAM sign map, also promptly as 3-bit I and Q vector.Shown in the encoder block diagram, output bit I2I1 is the direct mapping of input bit U1U0, and output bit Q2Q1 is the direct mapping of input bit U3U2.

In Figure 16, An, Bn, Cn and Dn, n=0,1,2,3 is coefficients of encoder, is defined as follows:

A01=1，A11=1，A21=1，A31=0，

A00=0，A10=1，A20=0，A30=0，

B0=1，?B1=0，?B2=1，

C01=0，C11=1，C21=1，C31=0，

C00=0，C10=1，C20=0，C30=0，

D0=1，?D1=0，?D2=1。

The nature mapping is adopted in output symbol mapping from the 3-bit vectors to 8 level symbols, and is as shown in table 6.The I of 64QAM uses identical mapping scheme with the Q passage.

Table 664QAM sign map

Symbol

	0	1	2	3	4	5	6	7
Bit	00	001	010	011	100	101	110	111

2) 2/3 code check parallel cascade trellis code

Parallel cascade trellis code (PCTC) Turbo encoder as shown in figure 17.

Block diagram and the block diagram among Figure 16 shown in Figure 17 are closely similar.Mapping is identical with output symbol in the inlet flow conversion of these two trellis encoder.

Identical with the 16QAM situation, between two parallel organizations of the PCTC of 64QAM Turbo encoder, an interleaver is arranged.

Encoder coefficient among Figure 17 is defined as follows:

A00=0，A10=1，A20=0，A30=0，

A01=0，A11=1，A21=1，A31=0，

A02=1，A12=0，A22=0，A32=1，

A03=0，A13=1，A23=1，A33=1，

B0=1，?B1=0，?B2=1，

C00=0，C10=1，C20=0，C30=1，

C01=0，C11=1，C21=1，C31=0，

C02=1，C12=0，C22=0，C32=1，

C03=0，C13=1，C23=1，C33=1，

D0=1，?D1=0，?D2=1。

To being used for the PCTC Turbo encoder of 64QAM, the sign map scheme is with identical shown in the table 6.

Random interleaver is 4 block interleavers, and the size of piece is 1248 bits.Map addresses has following table definition.

2.4.4 cascaded code

With the above-mentioned basis that is encoded to, can be combined into the cascaded code of many different application purposes.The base station equipment of transmission network must be supported all combinations.For terminal equipment, some combination is prerequisite, and some combination is optional according to the application of equipment.

For different combinations, the boundary of cascaded code is different.Cascaded code can only be on boundary translation type.To some cascaded code, a data block is exactly a boundary.For other sign indicating numbers, glossary of symbols is exactly a boundary.For continuous code stream, the boundary of some cascaded codes may be crossed over several signal frames.

Time-interleaved 2.4.5 (option)

To use in order supporting to move, after the lattice shape/Turbo encoder of FEC piece, can to increase another convolutional interleave.

3, synchronous OFDM TDS-OFDM modulation

3.1 orthogonal frequency division multiplex OFDM principle

In signals transmission,, can between receiving symbol, produce intersymbol interference (ISI) because echo disturbs and the linear distortion of channel.The technology of effectively eliminating ISI at present has two kinds: time domain equalization and OFDM (OFDM).

Time domain equalization generally is to insert a transversal filter (also claiming transversal filter) behind matched filter, and it is made of the delay line of a band tap, and tap is the equal symbol cycle at interval.The time delayed signal of each tap is delivered to an adder circuit output after weighting, its form is identical with finite impulse response filter (FIR), and the signal after the addition is sent to decision circuit through sampling.The weight coefficient of each tap is adjustable, can eliminate ISI by adjusting weight coefficient.The portfolio effect of equalizer is mainly by the decision of tap number and equalization algorithm, and equalization algorithm is commonly used zero forcing algorithm and lowest mean square distortion algorithm etc.Equalizer divides two kinds of presetting system and self-adapting types.Also have noise jamming in actual channel, it can exert an influence to the convergence of equalizer.In order further to improve performance, often adopt decision-feedback formula equalizer in the practical application, the tap coefficient of feedback equalizer is determined by the channel impulse response hangover that forward equalizer caused.

The Digital Television of the U.S. has adopted DFF exactly, and modulation technique has adopted digital 8-VSB mode.

The equalizer techniques comparative maturity is widely used in the various communications fields, but it has two shortcomings: the one, and complex structure, cost is higher; The 2nd, only relatively good to the short ISI effect of time delay, poor to the ISI effect that time delay is long.At this moment, adopt OFDM (OFDM) technology better.

When the cycle of the time delay of ISI and transmission symbol was in the same order of magnitude, the influence of ISI will become seriously.Therefore, the cycle that prolongs transmission symbol can overcome the influence of ISI effectively, and this is the principle of OFDM elimination ISI just.

OFDM by in a large number on frequency equally spaced subcarrier constitute (establish total N carrier wave), each carrier wave adopts with a kind of or different modulation systems usually and modulates.The symbol sebolic addressing of serial transmission also is divided into the group that length is N, and every group of N interior symbol sends then together respectively by N subcarrier-modulated.So OFDM essence is a kind of parallel modulation technique.Symbol period is prolonged N doubly, thereby improved resistivity ISI.

How interval between subcarrier is selected, and is the key of OFDM.In traditional frequency division multiplexing, the signal spectrum on each carrier wave is a non-overlapping copies, it is separated with filter so that receive function.But make to have reduced band efficiency like this.In OFDM, for improving band efficiency, the signal spectrum on each carrier wave is overlapped each other, on whole symbol period, be quadrature but the selection in carrier spacing makes these carrier waves, promptly the product of any two carrier waves on symbol period all is zero.Like this, even exist overlappingly between the signal spectrum on each carrier wave, also can restore undistortedly.We know, when intercarrier minimum interval equal symbol cycle reciprocal, can satisfy orthogonality condition.For realizing maximum spectral efficiency, generally get the carrier wave minimum interval inverse in equal symbol cycle.

When symbol was made up of the rectangle time pulse, the frequency spectrum of each carrier signal was the sinx/x shape, and its peak value is seen Figure 18 corresponding to the zero point of all other carrier spectrums.

Because the bit duration of each carrier wave has been extended N doubly, much larger than general ISI, so OFDM has the performance of good opposing ISI.Under the fixing condition that receives of DVB, when existence very big ISI, the performance of ofdm signal has only the deterioration of 1-2dB.

Because the number of subcarriers in the ofdm system often reaches hundreds of and even several thousand, use hundreds of and even several thousand oscillators or phase-locked loop traditional FDM so can not resemble in the practical application.Through mathematical derivation, find that ofdm signal can obtain with Fourier transformation FFT, N modulation symbol of input passes through N the time-domain sampling value that resulting N data behind the FFT that N orders are exactly required OFDM composite signal, after the D/A conversion, just obtained the ofdm signal waveform.This signal times just can be moved ofdm signal on the required channel with actual carrier.

But when having ISI in the channel, the orthogonality between the OFDM subcarrier can be destroyed, makes receiver can't correctly extract the modulation symbol on each subcarrier.Need to insert a protection interval delta before the cycle at each ofdm signal when practical application, the actual transmissions cycle of OFDM becomes the Ts=T+ Δ, as shown in figure 19 for this reason.

Signal in the protection at interval carries out periodic extension by ofdm signal and generates, and is equivalent to the afterbody of ofdm signal catadioptric to the front.When the time delay of ISI was no more than Δ, the orthogonality between the OFDM subcarrier still can keep, and the signal that receiver only extracts in the effective OFDM period T is handled, and ofdm signal just can not be subjected to the interference of ISI.The ability of OFDM opposing ISI depends on the length of Δ, and Δ is long more, and the time delay scope that can eliminate ISI is big more.But it should be noted that in the protection at interval be not transmit useful information, so Δ is big more, the band resource of waste is also many more, and this is that OFDM eliminates the cost that ISI disturbs.

Adopt the OFDM COFDM transmission of coding in the DVB-T system in Europe.In an OFDM Frame, use QPSK, 16QAM or the 64QAM modulation of the same Gray code mapping on all carrier waves.Each V bit symbol of exporting from interleaver is mapped to a constellation point in the modulation constellation.

DVB-T is based on the transmission of the terrestrial television channel design Digital Television of 8MHz, so the spectral bandwidth of OFDM symbol is no more than 8MHz.The OFDM transmission frame is made of three levels: OFDM symbol is that k the carrier wave of Ts constitutes by the duration, to 2k pattern k=1705, to 8k pattern k=6817.Ts by the duration be the useful information transmission cycle of Tu and duration are Δ protection at interval two parts form.Form an OFDM frame by 68 OFDM symbols, the duration is TF.Per 4 OFDM frames are formed an OFDM superframe.

Stipulated at interval values of four kinds of protections in the DVB-T system, they all are that time domain sample period T with OFDM is a base unit, and promptly protecting interval delta is the integral multiple of T.The maximum protection of 8k pattern can reach more than 200 microseconds at interval, and the maximum protection of 2k pattern is spaced apart microsecond more than 50.Protection is long more at interval, and the ability of the opposing ISI of system is just strong more, but will waste more band resource, and kinds of protect makes the user do to take all factors into consideration between opposing ISI ability and band resource according to actual conditions at interval, has improved the flexibility of system.

One of the implication of " coding " among the Coded Orthogonal Frequency Division Multiplexing (COFDM) COFDM is meant has inserted some " pilot tone " signals at random in the OFDM frequency spectrum, here so-called " pilot tone " is meant the carrier wave of some OFDM like this, they are by the known data-modulated of receiver, what they transmitted is not modulating data itself, because it is known that these data receivers are systems, the purpose that pilot tone is set is that system transmits the parameter of some transmitter or the characteristic of test channel by the data on the pilot tone.

The effect of pilot tone in COFDM is very important, and its use comprises: frame synchronization, Frequency Synchronization, time synchronized, channel transfer characteristic are estimated, transmission mode is discerned and follow the tracks of phase noise etc.The data of modulated pilots are the pseudo random sequences that generates from a pseudo-random sequence generator of stipulating in advance.Distribution pilot tone and continuous pilot have been stipulated among the DVB-T.The position of continuous pilot in each COFDM symbol all fixed, and inserted 177 continuous pilot in the 8k pattern, inserted 45 continuous pilot in the 2k pattern.The position of scattering pilot tone is different in different COFDM symbols, but with four COFDM symbols is loop cycle, that is to say the 1st, 2,3, the position of the distribution pilot tone in 4 COFDM symbols has nothing in common with each other, but the 5th COFDM symbol is identical with pilot frequency locations in the 1st the OFDM symbol, the 6th COFDM symbol is identical with pilot frequency locations in the 2nd the COFDM symbol, the 7th COFDM symbol is identical with pilot frequency locations in the 3rd the COFDM symbol, the 8th COFDM symbol is identical with pilot frequency locations in the 4th the COFDM symbol, the rest may be inferred for all the other COFDM symbols, as shown in figure 20.

No matter how the position of pilot tone changes, the number that is used to transmit the carrier wave of effective programme information in each COFDM symbol all is constant, is 1512 in the 2k pattern, is 6048 in the k pattern.Because the effect of pilot tone in system is important, for guaranteeing the reliability of data on the pilot tone, prevent noise jamming, the average power of pilot signal is bigger 16/9 times than the average power of other carrier signal, and promptly pilot signal is launched on " lifting " power level.

Just because of OFDM has above-mentioned characteristic, so it has following major advantage: (1) opposing multipath disturbs; (2) support to move reception; (3) can form single frequency network SFN or the like.

But because FFT and pilot tone are mutual demands in COFDM, pilot tone is inserted after FFT, and FFT calculates and needs (pilot tone) at first synchronously, could calculate FFT then.Therefore, COFDM adopts the iterative approach algorithm, so just has a convergence error and convergence time problem.

3.2 synchronous OFDM TDS-OFDM

Also adopted multi-carrier modulation technology---OFDM in the present invention, but different with the COFDM in Europe, adopted the technology that is called time-domain synchronization OFDM TDS-OFDM among the present invention, it had both had the advantage of OFDM, had avoided the shortcoming of European COFDM again.In TDS-OFDM, do not insert the COFDM pilot signal, but utilized spread spectrum in the spread spectrum communication, the PN spread-spectrum signal that has inserted the previous section introduction is used for frame synchronization, Frequency Synchronization, time synchronized, channel transfer characteristic estimation and follows the tracks of phase noise etc. as Domain Synchronous.

So, obtain what benefit with PN spread spectrum Domain Synchronous?

In decades, the communication technology is development and differentiation constantly, basically is the variation of medium and channel from wired (cable, optical fiber) to wireless (shortwave, VHF/UHF, microwave, satellite), and breakthrough progress and few, the appearance of spread spectrum communication (Spread Spectrum Communication) system is an important breakthrough of the communication technology.The essential characteristic of spread spectrum communication is to use than the pseudo noise code of much higher times of the information data rate that sends expands the frequency spectrum of the baseband signal of carrying information data, and the signal that forms the low power spectral density in broadband is launched.Shannon (Shannon) has drawn the formula of believing capacity in information-theoretical research:

C=Wlog ₂(1+P/N)

This formula indicates: if rate of information throughput C is constant, then bandwidth W and signal to noise ratio P/N can exchange, increase bandwidth in other words and just can under the situation of lower signal to noise ratio, come reliable transmission information with identical information rate, even under the situation that signal is flooded by noise, as long as the corresponding signal bandwidth that increases, still keep communication reliably, just can exchange benefit on the signal to noise ratio for wideband transmit information with spectrum spreading method.The basic thought of spread spectrum communication that Here it is and theoretical foundation.

Information data D is through conventional data-modulated, having become bandwidth is base band (arrowband) signal of B1, use pseudorandomcode (the PN sign indicating number: Pseudo Noise Code) of spread spectrum coding generator generation again, baseband signal is made band spectrum modulation, formation bandwidth B 2 (B2 is much larger than B1), the spread-spectrum signal that power spectral density is extremely low, this is equivalent to the rule of the signal of arrowband B1 with PN sign indicating number defined is distributed on the B2 of broadband, launches again.Receiving terminal uses pseudorandomcode identical when launching to do spread spectrum demodulation, WBSR wideband signal recovery is become conventional baseband signal, promptly extracting the composition integration corresponding with emission according to the rule of PN sign indicating number from the broadband gets up, form common baseband signal, then, can demodulate information data transmitted D with conventional communication process again.

Realize that the logical fundamental mode of spread spectrum has 4 kinds: (1) direct sequence spread spectrum (Direct SequenceSpread Spectrum) working method (be called for short the DS mode, directly expand formula); (2) jump frequency (FreguencyHopping) working method (being called for short the FH mode); (3) bound-time (TimeHopping) working method (being called for short the TH mode); (4) linear frequency modulation (Chirp Modulation) working method (Chirp mode).Though the present invention has adopted straight expansion mode at present, also can adopt other spread spectrum mode to realize TDS-OFDM.

Straight expansion mode is at the direct frequency spectrum of using the spread spectrum coding with high code check to remove spread signal of making a start, and makes spread-spectrum signal be reduced to primary signal and carry out despreading in receiving end with identical spread spectrum coding.At transmitting terminal, the information D that just send is at the frequency expansion sequence of exclusive-OR device modulation pseudo-noise code generator generation, again through the carrier modulator modulated carrier signal.The modulation back obtains the spread-spectrum signal in broadband, launches after wide-band amplifier amplifies.At receiving terminal, the demodulation spreading code that the PN code generator produces and the spreading code of transmission carry out relevant treatment, can acquired information data D.Spread spectrum technic how to solve multiple access communication and signal detects? this is two basic characteristics of spread spectrum communication: i.e. pseudorandomcode modulation and signal correction are handled.The core of pseudorandomcode modulation is to produce the pseudorandomcode (PN sign indicating number) that meets the spread spectrum communication needs, with this as being spread spectrum coding (SpreadingCode).When straight expansion mode, the linear feedback shift register sequence of spread spectrum coding maximum length commonly used, i.e. m sequence, it can be produced by linear feedback shift register, and the length of m sequence is determining the ability of spread spectrum.Because of can being provided with, its initial state that produces pseudorandom code sequence produces different PN sign indicating numbers, so available different initial state decides the PN sign indicating number.And different PN sign indicating numbers carries out relevant treatment to spread-spectrum signal, can solve the baseband signal in the spread-spectrum signal of identical with it PN sign indicating number modulation, and elimination remaining part.So just can realize multiple access communication, and fabulous anti-interference is arranged.

Spread spectrum technic carries out band spectrum modulation with spread spectrum coding making a start, and collects mail with the correlation demodulation technology in receiving end, and this process makes it have many good characteristics:

(1) noise resisting ability extremely strong (the thresholding signal to noise ratio is very low)

An important parameter of expression spread spectrum communication characteristic is spreading gain G (Spreading Gain), and it is defined as the ratio of the signal bandwidth B2 behind signal bandwidth B1 and the spread spectrum before the spread spectrum.In the G=B2/B1 spread spectrum communication, receiving terminal is done spread spectrum demodulation to the received signal, only extract that bandwidth is the signal composition of B1 after the spread spectrum coding relevant treatment, and got rid of the influence of the interference, noise and other telex networks that expand among the B2 of broadband, be equivalent to received signal to noise ratio has been improved G doubly.Consider the signal to noise ratio and the receiving system loss of output, can think being improved as of signal to noise ratio that actual spreading gain brings:

M=G-output signal to noise ratio

---the M in the system loss formula is called AJ margin.

Therefore, through behind the spread spectrum, can obtain huge signal to noise ratio and improve.This means that simultaneously signal level can be submerged among the noise level fully, system still can operate as normal, therefore we can say to have only spread spectrum system just can work in negative signal to noise ratio.

(2) antijamming capability is extremely strong

To the pseudo-code spread spectrum system, separate because of pseudo-code being correlated with to expand in receiving end, very high peak value output is just arranged after having only pseudo-code signal relevant, and other any unwanted signal, comprise aiming (with frequently) interference, industrial interference, broad-band interference and many artificial disturbances, because of uncorrelated with pseudo-code, output is very low after the despreading.Therefore, spread spectrum system has extremely strong antijamming capability.

(3) anti-fading ability is strong

The frequency band that spread-spectrum signal occupies is very wide, but causes for a certain reason when declining, and only can make the decline of sub-fraction frequency spectrum, can not make whole signal produce distortion.Therefore spread spectrum system has the ability of anti-frequency selective fading.

(4) the anti-multipath interference performance is strong

Because the pseudo-code that adopts in the spread spectrum system has good autocorrelation performance usually, the signal that the transmission of different paths comes is easy to separated opening, and can align again in time and phase place, forms the stack of several roads, can improve the performance of system significantly.Thereby spread spectrum system disturbs and can turn bane into boon multipath, and this is that any other system is not facile.

(5) can adopt code division multiple access (CDMA) to realize multiple access (honeycomb) communication

The pseudo-code spread spectrum system is easy to be loaded with the code division multiple access mode and realizes multi-address communication.Code division multiple access can more effectively utilize frequency resource than frequency division multiple access and time-division multiple access.The CDMA networking is arranged simultaneously, do not need strict net synchronous, the user can network at random, increases and decreases station address whenever and wherever possible.Make full use of the correlation properties between the spread spectrum coding of different sign indicating number types, distribute to the different spread spectrum coding of different user, just can distinguish different users' signal, numerous users, as long as the spread spectrum coding of oneself is used in pairing, just can use same frequency for communication without interfering with each other simultaneously, thereby realize channeling, crowded frequency spectrum is fully used.The sender can send data to different recipients respectively with different spread spectrum codings; Equally, the recipient just can receive the data that different senders sends here with different spread spectrum codings, has realized multiple access communication.

TDS-OFDM modulation synchronously should follow these steps to carry out:

Form the DFT data block 1.FEC handle the back at frequency domain;

2. adopt IDFT the DFT data block to be transformed to the discrete sample value of time domain;

3. will protect and insert DFT time domain piece formation frame at interval:

4. frame head and frame are combined as signal frame;

5. adopt square root raised cosine (SRRC) filter paired pulses to be shaped;

6. in signal, add direct current biasing to form carrier pilot;

7. the baseband signal frame is up-converted on the RF carrier wave.

Above step as shown in figure 21.

The dateout of FEC piece is used to form discrete Fourier transform (DFT) (DFT) piece.A DFT piece is become by 3780 sub carrier group, two subcarrier spacing 2kHz in succession.Therefore the bandwidth of baseband information signal is 7.56MHz.The complex frequency subcarrier can be QPSK, 16QAM and 64QAM form.

The DFT piece at first forms at frequency domain, transforms to time domain then before rf modulations.Discrete Fourier transform (DFT) can adopt contrary fast fourier transform (IFFT) program to realize.For decomposing the FFT process, non-prime number 3744 can be decomposed into 7 * 5 * 3 ³* 2 ²

Time domain DFT piece is by 3780 sampling expressions, and these samplings also are called the Nyquist sampling, and this is for recovering the required minimum sample number of complex frequency domain subcarrier.

For supporting Delamination Transmission, corresponding to non-homogeneous 16QAM of QPSK, 16QAM/ or the non-homogeneous 64QAM symbol constellation of 64QAM/, a symbol can have 2,4 or 6 Bit datas.

Constellation is illustrated in respectively among Figure 22-26.Distance between the asterism is by modulation parameter α regulation, the ratio of two adjacent interasteric distances in two adjacent interasteric distances that α is defined as two quadrants and the quadrant.3 value defineds of this parameter are: α=1 is corresponding to even mapping; α=2 and α=4 are corresponding to non-homogeneous mapping.

In a glossary of symbols, symbol constellation should be identical.In a signal frame, different glossary of symbols can have different symbol constellation.

Symbol in IDFT piece will interweave, and wherein first row are that size is the input data in 3780 multiplexing and the symbol sequence number of control signal.

In time domain DFT piece, insert protection and formed frame at interval.Be separated with 5 kinds of mode of operations between protection, they are defined as 1/6,1/9,1/12,1/20 and 1/30 of DFT block size.The final stage sampling of time domain DFT piece is used as protection at interval.

Added that before frame frame synchronization sequence has formed signal frame.The average signal power of frame synchronizing signal power ratio frame promotes 6dB.Adopting square root raised cosine (SRRC) filter to carry out base band pulse is shaped.The rolloff-factor α of SRRC filter gets 0.05.

The radiofrequency signal of OFDM modulation synchronous, that insert pilot tone can be described by following formula.

S(t)=Re[exp(2πF _ct)U(t)]

Wherein, S (t)-radiofrequency signal

F _c-carrier frequency

The baseband signal of U (t)-shaping is defined by following formula

U(t)=p(t)*[PN(n)+GI(n)+IDFT(n)]

Wherein, the impulse response of P (t)-SRRC filter

PN (n)-frame head PN sequence

GI (n)-protection is sampling at interval

IDFT (n)-IDFT piece sampling

Annotate: PN (n), GI (n) take the different time with IDFT (n), as shown in Figure 4.

3, other

3.1 broadcast packet

Broadcast packet is used for all devices of radiolink network is sent control and data message.

Broadcast packet is used for the broadcast transmitted parameter, for example symbol constellation and FEC code block size, logic channel map and radiolink structure.

A broadcasting controlling packet must send in the signal frame of a frame group head.It always is positioned at first of glossary of symbols 0.

The broadcasting controlling packet should not change in a superframe.

The broadcasting controlling packet comprises one group of broadcasting control unit (BCE), and a BCE describes the physical transfer parameter of a RS coded data piece.The BCE form defines in table 7.

Table 7 broadcasting control unit form

BS	MT	SS1	SS0	DB3	DB2	DB1	DB0
EP1	EP0	INT1	INT0	FEC1	FEC0	MOD1	MOD0

BS: burst code stream, 0 expression continuous bit stream; 1 expression burst code stream.MT: a plurality of transmission, 0 expression single base station transmission; The a plurality of base station transmits of 1 expression.[SS1, SS0]: glossary of symbols number [DB3 ... DB0]: to the data block number [EP1 of a RS encoding block, EP0]: base station transmitting power (EP) grade [INT1, INT0]: interframe/intra-frame interleaving mode (INT) [FEC1, FEC0]: the FEC sign indicating number type [MOD1, MOD0] of RS sign indicating number and Turbo code: modulation (MOD) type

Data block is with respect to other parameter of BCE in BCE, for example MOD type and FEC sign indicating number type.

The broadcasting controlling packet is defined in the table 8.

Table 8 broadcasting controlling packet form

T3	T2	T1	T0	L3	L2	L1	L0
								BS	MT	SS1	SS0	DB3	DB2	DB1	DB0
EP1	EP0	INT1	INT0	FEC1	FEC0	MOD1	MOD0
								· · ·	· · ·	· · ·	· · ·	· · ·	· · ·	· · ·	· · ·
BS	MT	SS1	SS0	DB3	DB2	DB1	DB0

????EP1

????EP0

????INT1

????INT0

????FEC1

????FEC0

????MOD1

?MOD0

[T3, T0]: type i D

[L3, L0]: the length of broadcasting controlling packet is defined as the quantity of broadcasting control unit in the bag.Broadcasting control unit (BCE) has glossary of symbols and data block number order the preceding in broadcasting controlling packet (BCP).

First BCE that puts into BCP should be first data block of corresponding glossary of symbols 0.Then with the order of data block number in the glossary of symbols 0,, then add a new BCE if the pairing parameter of last time putting among data block parameter (removing the DB extra) and the BCP of BCE is different.Finish BCP in the same way for glossary of symbols 1 and glossary of symbols 2.

Broadcast data packet (BDP) is the bag of one 188 byte, and first byte of BDP is a type i D.

If first byte is the MPEG sync byte, 47 _HEXOr it is anti-, and then following in thereafter 187 bytes in the bag is MPEG TS bags.

If the type i D of a BDP is not MPEG, application data bag then, for example an Internet packet is packaged among the BDP.

3.2 paging bag

The paging bag sends information to the not quite clear user in position.The paging bag is used to prompting, portable terminal location, general paging service etc.Paging wraps on the whole single-frequency Cellular Networks and sends.

The paging bag is made up of paging head bag and beep-page message bag.

A paging head bag (PHP) is used to wake target device and receives the beep-page message that arrives.A paging package definition is in table 9.The size of a paging head bag is from 3 byte to 16 bytes.Paging head bag only sends in the signal frame of frame group head.

Table 9 a paging packet format

T3	T2	T1	T0	L3	L2	L1	L0
SF8	FGD	SS1	SS0	DB3	DB2	DB1	DB0
SF7	SF6	SF5	SF4	SF3	SF2	SF1	SF0

AD7 AD15 · · · AD103

AD6 AD14 · · · AD102

AD5 AD13 · · · AD101

AD4 AD12 · · · AD100

AD3 AD11 · · · AD99

AD2 AD10 · · · AD98

AD1 AD9 · · · AD97

AD0 AD8 · · · AD96

[T3T2T1T0]: one 4 paging head type

[L3L2L1L0]: the address size of target device, maximum address size are 13 bytes,

Minimum is a zero bytes.

[DB3 ... DB0]: the initial data piece (DB) of target device number

[SS1, SS0]: glossary of symbols (SS) number

FGD: frame group delay (FGD), 0 represents beep-page message in the present frame group, 1

Be illustrated among the next frame group.

[SF8 ... SF0]: signal frame (SF) number

[AD103, AD0]: destination device address (AD), largest amount are 13 bytes, minimum

Size be 0 byte.The beep-page message packet format is defined in the table 10.

Table 10 beep-page message packet format

T3	T2	T1	T0	F3	F2	F1	F0
								L7	L6	L5	L4	L3	L2	L1	L0
SF8	FGD	SS1	SS0	DB3	DB2	DB1	DB0
								SF7	SF6	SF5	SF4	SF3	SF2	SF1	SF0
D7 D15 · · ·	D6 D14 · · ·	D5 D13 · · ·	D4 D12 · · ·	D3 D11 · · ·	D2 D10 · · ·	D1 D9 · · ·	D0 D8 · · ·

[T3, T0]: PMP type i D

[F3, F0]: sign

F0:0, message is not finished when this end-of-packet

1, message is finished when this end-of-packet

F1:0, if any, the wrapping in the next data block of back

1, if any, the wrapping in the data designated piece of back

F2:0, bag are whole data block

1, bag is meant the partial data piece of sizing

F3: next frame (NF)

0, all data blocks are in the current demand signal frame

1, data block will proceed to the next signal frame

[L7, L0]: the number data bytes in this bag

This byte is only put at F2 just to be needed in 1 o'clock

[DB3 ... DB0]: the initial data piece (DB) of target device number only just needs when F1 puts 1

FGD: frame group delay (FGD)

0, the data block of back is in the present frame group

1, the data block of back only just needs when F3 puts 1 in next frame group

[SS1, SS0]: glossary of symbols (SS) number only just needs when F1 puts 1

[SF8 ... SF0]: signal frame (SF) number

[SF8, SF0] only just needs when F3 puts 1

Annotate: all bytes should not be comprised in the bag, if they are unwanted words.

3.3 unicast packet

Unicast packet sends control and data message to unique user or one group of user from a base station.Before sending unicast packet, the target device position is known for network.

A clean culture head bag (UHP) is used to wake target device and receives the packet that arrives.UHP is the same with paging head bag to be defined by table 30.

Preceding 4 of UHP is UHP type i D.

Unicast packet (UDP) is loaded with the data message to target device.The form of a UDP is the same with the beep-page message bag to be defined by table 31.

Preceding 4 of UDP is UDP type i D.

3.4 multicast bag

The multicast bag sends control and data message for from a plurality of base stations of SFCN unique user or one group of user.Before sending the multicast bag, the target device position is known for network.

The multicast bag is to high ambulant user being arranged and designing the borderline user of SFCN honeycomb.

A multicast head bag (MHP) is used to wake target device and receives the packet that arrives.MHP is the same with paging head bag to be defined by table 27.

Preceding 4 of MHP is MHP type i D.

Multicast packets (MDP) is loaded with the data message to target device.The form of a MDP is the same with the beep-page message bag to be defined by table 31.

Preceding 4 of MDP is MDP type i D.

Superincumbent various piece, we have introduced the function and the basic principle of various piece respectively,

The specific embodiment of ground digital multimedia TV broad cast system of the present invention is described below in conjunction with Figure 27-31.1, data perturbation/descrambling

Because the ground digital multimedia television transmission system is to design on hypothesis input TS bit stream data is irrelevant this basis.Therefore the non-correlation that guarantees the input data is just very important.Because consecutive identical bit might appear in packed data, therefore before entering transmission system, must upset, guarantee the irrelevant of data.This peak value-average power ratio for synchronous extraction, particularly ofdm signal has the meaning of particular importance.2, the matrix of RS sign indicating number coder/decoder and time domain is staggered

The RS sign indicating number has the ability of very strong correction burst error, and code efficiency is higher, therefore is chosen as outer error correction coding.Two kinds of RS (208,188) and RS (208,200) have been used in the system, to adapt to different applicable cases.For RS (208,188), in the RS encoder, information data is formed a byte with 8 bits and is handled, every code word adds 20 supervision bytes and a sync byte, can entangle 10 bytes with interior error code, and can provide warning message to the error code that exceeds error correcting capability.

RS encoder heel constitutes outer sign indicating number jointly with a time domain convolutional interleaving encoding device.Convolutional interleaving encoding carries out between the RS code word, and interleave depth and width have three kinds of modes: (104,6), (52,4), (16,13), and to adapt to different application.Time domain is staggered to be distributed to decoded continuous error code in the different RS code words, makes it not exceed the error correcting capability of RS sign indicating number.3, convolution error correction coder/decoder and frequency domain are staggered

Because in actual applications, exist various applied environments, demand and data type.In order to adapt to this situation, the ISN error correction coding is elected the various combinations of trellis code TCM, convolution code, Turbo code and QPSK, 16QAM, 32QAM, 64QAM as.Viterbi soft-decision algorithm is adopted in decoding.

Connect an optional frequency domain interleaver behind the error correcting encoder and constitute ISN jointly.Frequency domain is staggered in the OFDM intercarrier to carry out.Frequency domain interlocks two effects.First under multi-path environment, and it is distributed to the carrier wave of deep fade in other carrier wave, has improved the resistivity to multipath; Second is broadcasting under the environment together, and it will be scatter by the serious carrier wave of co-channel interference, improve the resistivity to co-channel interference.The staggered task of frequency domain is to avoid the Viterbi decoding burst error code to occur.But when the error rate was higher, the Viterbi decoding still error burst might occur, and this can further be distributed to error burst in the different RS code words by time domain convolutional interleaving encoding device and go.4, TDS-OFDM modulating/demodulating

System adopts the TDS-OFDM scheme of introducing previously.Be characterized in that synchronous head has adopted the spread spectrum pseudo random sequence of walsh codes, can realize fast that synchronously be about 5 milliseconds the lock in time of system, and other digital television standard be more than 100 milliseconds.And synchronously antijamming capability is strong, under-20dB signal to noise ratio, also can recover synchronous reliably.

Utilize this time domain insetion sequence to carry out the estimation of channel performance simultaneously, adopt the channel impulse response algorithm, have the advantages that the noise jamming influence is little, algorithm complex is low, estimation precision is high.

The OFDM demodulating process comprise set up synchronously, correcting frequency shift, removal co-channel interference, balanced multipath channel and decoding.Program is as follows:

(1) detects frame synchronization information with matched filter or other related algorithm, set up frame synchronization.

(2) because OFDM is relatively more responsive to frequency shift (FS), therefore, frequency deviation is proofreaied and correct.

(3) calculate the multipath channel impulse response, draw the balance factor on each carrier wave.

(4) the information data section is done the FFT conversion.According to spectrum mask information extraction signal, remove co-channel interference.

(5) carry out equilibrium with balance factor, eliminate multipath and disturb.

(6) information symbol after the equilibrium is carried out the wrong and decoding of reciprocal cross.

Computer Simulation test to said system is carried out draws following result.And on the basis of computer artificial result, realized the function model machine of native system with FPGA.1. channel performance emulation

The channel simulator model of transmission system is an additive white Gaussian noise (AWGN), static many through disturbing, dynamically how disturbing through interference, the interference of 0dB echo, weak channel, impulse disturbances and single-frequency, and Figure 28 has shown the channel performance simulation result under these models.2．QPSK

Table 1 has been represented the result of QPSK, and their corresponding performance curves as shown in figure 29." Conv " tabulation shows that convolution simulation result, the constraint length of convolution code are 9, and has used the Viterbi soft-decision." One " row, " Two " row, " Four " row are the simulation result of expression " 1 " individual iteration, " 2 " individual iteration, " 4 " individual iteration Turbo code respectively.

The code check of Turbo code is 1/2, and the state number of encoder is 8.The generator polynomial of code word is $\frac{1+{\mathrm{<figure-callout\; id="2"\; label="D"\; filenames="0012359700532.png,0012359700551.png"\; state="\{\{state\}\}">D</figure-callout>}}^2+{\mathrm{<figure-callout\; id="3"\; label="D"\; filenames="0012359700532.png,0012359700543.png"\; state="\{\{state\}\}">D</figure-callout>}}^3}{1+D+{\mathrm{<figure-callout\; id="3"\; label="D"\; filenames="0012359700532.png,0012359700543.png"\; state="\{\{state\}\}">D</figure-callout>}}^3},$ The block length of Turbo code is 1248 bits.Interweave is that Galois Field (Galois Field) interweaves.Encoder does not produce any tail bit (Tail bit).In the MAP decoding,, use the sliding window scheme in order to reduce the demand of internal memory.Each piece (1248 bit) is divided into 6 sub-pieces, between each sub-piece the overlapping of 9 bits is arranged, and that is to say, the size of window is 217 bits.

Table 11QPSK performance

?Eb/No??	?Conv	?Four	?Two	?One
					?0.8??????	?6.60E-02	?3.26E-02	?5.77E-02	?8.53E-02
?1????	?4.89E-02	?1.55E-02	?4.13E-02	?7.30E-02
					?1.2	?3.54E-02	?4.91E-03	?2.56E-02	?6.08E-02
?1.4	?2.46E-02	?9.34E-04	?1.35E-02	?4.93E-02
					?1.6	?1.67E-02	?1.28E-04	?5.95E-03	?3.87E-02
?1.8	?1.07E-02	?1.33E-05	?2.23E-03	?2.90E-02
					?2	?6.65E-03		?7.14E-04	?2.08E-02
?2.2	?4.31E-03		?1.88E-04	?1.42E-02
					?2.4	?2.57E-03		?4.49E-05	?9.06E-03
?2.6	?1.55E-03		?1.07E-05	?5.49E-03
					?3	?4.42E-04			?1.77E-03
?3.5	?9.07E-05			?3.42E-04
					?4	?1.53E-05			?5.77E-05
?4.5	?2.79E-06			?9.66E-06
					?5				?1.45E-06

3．16QAM

Table 2 has been represented the result of 16QAM, and their corresponding performance curves as shown in figure 30.The TCM simulation result is shown in " TCM " tabulation." One " row, " Two " row, " Four " row are parallel cascade TCM (Parallel Concatnated TCM, PCTCM) Ma the simulation result of expression " 1 " individual iteration, " 2 " individual iteration, " 4 " individual iteration respectively.

PCTCM has 8 states, and its codeword generator is h0=013, h1=004, and h2=015 uses the nature mapping.The size of PCTCM piece is 1248 symbols, and each symbol has 2 bits.Interleaver is two S-random interleavers.Each is used for a bit of a symbol.Encoder does not produce any tail bit (Tail bit).In the MAP decoding,, use the sliding window scheme in order to reduce the demand of internal memory.Each piece (1248 bit) is divided into 6 sub-pieces, between each sub-piece the overlapping of 9 bits is arranged, and that is to say, the size of window is 217 bits.

Table 1216QAM

???Eb/No	????One	????Two	????Four	????TCM
					????2.6	?8.52E-02	?5.73E-02	?3.73E-02	?5.51E-02
????2.8	?7.98E-02	?4.55E-02	?2.09E-02	?4.68E-02
					????3	?7.41E-02	?3.44E-02	?6.43E-03	?3.95E-02
????3.2	?6.84E-02	?2.43E-02	?1.29E-03	?3.25E-02
					????3.4	?6.25E-02	?1.52E-02	?1.45E-04	?2.66E-02
????3.6	?5.67E-02	?8.52E-03	?1.50E-05	?2.14E-02
					????3.8	?5.08E-02	?4.21?E-03	?3.23E-06	?1.69E-02
????4	?4.48E-02	?1.90E-03	?9.96E-07	?1.23E-02
					????4.2	?3.94E-02	?7.68E-04	?4.29E-07	?1.03E-02
????4.4	?3.42E-02	?2.89E-04		?7.47E-03
					????4.6	?2.91E-02	?1.02E-04		?5.07E-03
????4.8	?2.47E-02	?3.60E-05		?3.66E-03
					????5	?2.06E-02	?1.27E-05		?2.58E-03
????5.2	?1.69E-02	?4.99E-06		?1.96E-03
					????5.4	?1.36E-02	?1.98E-06		?1.26E-03
????5.6	?1.09E-02			?8.26E-04
					????5.8	?8.61E-03			?5.49E-04
????6	?6.62E-03			?3.64E-04
					????6.2	?5.06E-03			?2.42E-04
????6.4	?3.82E-03			?1.56E-04
					????6.6	?2.88E-03			?9.57E-05
????6.8	?2.11E-03			?6.47E-05
					????7	?1.57E-03			?4.01E-05

4．64QAM

Table 3 has been represented the result of 64QAM, and their corresponding performance curves as shown in figure 31.The TCM simulation result is shown in " TCM " tabulation." One " row, " Two " row, " Four " row are parallel cascade TCM (Parallel Concatnated TCM, PCTCM) Ma the simulation result of expression " 1 " individual iteration, " 2 " individual iteration, " 4 " individual iteration respectively.

PCTCM has 8 states, and its codeword generator is h0=013, h1=004, and h2=006, h3=011, h4=007 uses the nature mapping.The size of PCTCM piece is 1248 symbols, and each symbol has 4 bits.Interleaver is four S-random interleavers.Each is used for a bit of a symbol.Encoder does not produce any tail bit (Tail bit).In the MAP decoding,, use the sliding window scheme in order to reduce the demand of internal memory.Each piece (1248 bit) is divided into 6 sub-pieces, between each sub-piece the overlapping of 9 bits is arranged, and that is to say, the size of window is 217 bits.

Table 1364QAM

?Eb/No	?One	?Two	?Four	?TCM
					????7	?7.84E-02	?6.51E-02	?5.73E-02	?3.76E-02
????7.25	?7.30E-02	?5.50E-02	?3.53E-02	?2.94E-02
					????7.5	?6.73E-02	?4.31E-02	?1.40E-02	?2.26E-02
????7.75	?6.12E-02	?3.02E-02	?1.64E-03	?1.68E-02
					????8	?5.54E-02	?1.81E-02	?2.86E-05	?1.21E-02
????8.25	?4.92E-02	?9.01?E-03	?1.69E-06	?8.50E-03
					????8.5	?4.33E-02	?3.43E-03	?3.85E-07	?5.75E-03
????8.75	?3.71E-02	?1.09E-03		?3.86E-03
					????9	?3.10E-02	?3.07E-04		?2.43E-03
????9.25	?2.55E-02	?9.45E-05		?1.51E-03
					????9.5	?2.07E-02	?2.56E-05		?9.33E-04
????9.75	?1.64E-02	?7.29E-06		?5.60E-04
					????10	?1.29E-02	?2.41E-06		?3.27E-04
????10.25	?9.96E-03	?9.11E-07		?2.14E-04
					????10.5	?7.51E-03			?1.04E-04
????10.75	?5.63E-03			?5.45E-05
					????11	?4.04E-03			?2.72E-05
????11.25	?2.88E-03			?1.40E-05
					????11.5	?2.03E-03			?6.22E-06
????11.75	?1.48E-03			?2.37E-06
					????12	?1.06E-03			?1.47E-06
????12.25	?7.51E-04
					????12.5	?5.16E-04
????12.75	?4.00E-04

Claims (59)

1, a kind of digital information transmission method comprises:

At least transmit first and second frames, every frame has the binary digit or the bit of selected number (F),

Every frame comprises signal frame sync section and signal frame body section, and the length of signal frame sync section is at first selected

Length, the length of signal frame body section are secondly selected length, and the frame sync segment of first frame has selected

Bit pattern, it is different from is the selected bit pattern of frame sync segment of second frame; Wherein, at least the

One of frame sync segment of one frame and second frame is used on the time domain corresponding frame is carried out synchronously.

2, according to the digital information transmission method of claim 1, it is characterized in that: at described signal frame sync section

Said selected bit pattern in, further comprise a sign, be used for discerning said at least two frames

Want the signal that receives.

3, according to the digital information transmission method of claim 1, it is characterized in that: at described signal frame sync section

Said selected bit pattern in, further comprise a sign, be used to discern said at least two frames

Data source.

4, according to the digital information transmission method of claim 1, it is characterized in that further comprising: use described

The selected bit pattern of frame sync segment realizes at least 2 ^NThe mutual difference of-1 frame, wherein, institute

The length of stating the frame sync segment of every frame has the N bit at least, and N is a selected positive integer.

5, according to the digital information transmission method of claim 4, it is characterized in that further comprising: select institute

Stating Integer N is 9.

6, according to the digital information transmission method of claim 4, it is characterized in that further comprising: select frame

The bit pattern of sync section comprises pseudo noise sequence, and it is produced by N rank multinomial p (x)=0, this

In x be Boolean variable.

7, according to the digital information transmission method of claim 4, it is characterized in that further comprising: select frame

The bit pattern of sync section comprises such pattern, and this pattern is the result of two binary sequence XORs,

First binary sequence is the pseudo noise sequence that is produced by N rank multinomial p (x)=0, x here

Be Boolean variable, second binary sequence is the orthogonal sequence with selected code length.

8,, it is characterized in that further comprising: from the Wal according to the digital information transmission method of claim 7

Select in the orthogonal sequence group that assorted sign indicating number sequence, Haar sign indicating number sequence, Rademacher sign indicating number sequence are formed

A described orthogonal sequence.

9, according to the digital information transmission method of claim 4, it is characterized in that further comprising: described

Son section in the described signal frame sync section of first frame and second frame, its length be F ' (F '＜F), as

This configuration is so that the son section of the son section of described first frame and described second frame is a quadrature.

10, according to the digital information transmission method of claim 1, it is characterized in that further comprising: select extremely

The frame segment of a few described frame, its length is selected from frame segment length 208,104 and 52.

11,, it is characterized in that further comprising: in the use according to the digital information transmission method of claim 9

Moral-Solomon code, and the RS of appointment (m, n), for digital information provides Error detection and correction, wherein

(m n) is a pair of integer, from (208,188), (208,200), (104,84), (104,

96), select in (52,32) and (52,44).

12, according to the digital information transmission method of claim 11, it is characterized in that further comprising: use

Error code coding, for described digital information provides Error detection and correction, described error coding mode from

Lattice shape 64QAM, lattice shape 16QAM, lattice shape QPSK, turbo lattice shape 64QAM, turbo

Select among lattice shape 16QAM, the turbo lattice shape QPSK.

13,, it is characterized in that further comprising: described according to the digital information transmission method of claim 1

Transmission information is high-definition TV signal.

14, according to the digital information transmission method of claim 1, it is characterized in that further comprising: described biography

Defeated information makes to have at least a recipient's cellular phone signal.

15,, it is characterized in that further comprising: described according to the digital information transmission method of claim 1

Transmission information is the paging signal with at least one recipient.

According to the digital information transmission method of claim 1, it is characterized in that further comprising: pass

Defeated described at least two frames from the network control center, the described network control center has relevant wide

The multicast data storehouse, and be connected with the Internet, downstream signal is sent to a base station at least, and this base station is

Away from the described network control center.

16,, it is characterized in that further comprising: in the future according to the digital information transmission method of claim 16

From at least two frames of described base station as uplink signal transmissions to the described network control center.

17,, it is characterized in that further comprising: in the future according to the digital information transmission method of claim 16

At least two frames from described base station are transferred to the reception receiving terminal as downstream signal, and described terminal is far away

From one of described control centre and described base station.

18,, it is characterized in that further comprising: in the future according to the digital information transmission method of claim 18

From at least two frames of described terminal as uplink signal transmissions to described base station.

19, according to the digital information transmission method of claim 1, it is characterized in that further comprising: select institute

Stating signal frame sync section length is 721 symbols.

20, according to the digital information transmission method of claim 1, it is characterized in that further comprising: select institute

The length of stating signal body section is 4656 symbols.

21, according to the digital information transmission method of claim 1, it is characterized in that further comprising: select institute

State signal body section, make it comprise protection intervening sequence with 912 continuous symbols.

22, according to the digital information transmission method of claim 1, it is characterized in that further comprising: described

The frame of selected number F1 is gathered among the frame group, and wherein F1 is the integer of selecting, at least etc.

In 2, and provide a selected frame group head for this frame group.

23, according to the digital information transmission method of claim 23, it is characterized in that further comprising: select

Described number F1 is 511.

24, according to the digital information transmission method of claim 23, it is characterized in that further comprising: in institute

State and comprise protection interval in the frame group head with 936 continuous symbols.

25, according to the digital information transmission method of claim 23, it is characterized in that further comprising: institute

The frame of stating selected number F2 is trooped and is closed in the superframe, and wherein F2 is the integer of selecting, at least etc.

In 2, and provide a selected superframe head for superframe.

26, according to the digital information transmission method of claim 23, it is characterized in that further comprising: select

Described number F2 is 511.

27, according to the digital information transmission method of claim 23, it is characterized in that further comprising: choosing

The described superframe of fixed number order F3 is gathered among the superframe group, and F3 is the integer of selecting here, at least

Equal 2, and provide a selected superframe group head for the superframe group.

29, according to the digital information transmission method of claim 23, it is characterized in that further comprising: select

Described number F3 is about 479.

30, according to the digital information transmission method of claim 23, it is characterized in that further comprising: in choosing

The described superframe group at least twice of transmission in the fixed time interval, selected time interval length is 2T

(SFG)。

31, a kind of ground digital multimedia TV broad cast that adopts the described digital information transmission method of claim 1

System is characterized in that:

Described ground digital multimedia TV broad cast system comprises: the network control center (1), at least

A transmitter (2) and at least one receiver (3);

At least transmit first and second frames from the described network control center (1) and be transferred to transmitter (2),

Transmitter (2) to aerial, is received received signal modulate emission by receiver (3),

Wherein, every frame has the binary digit or the bit of selected number (F), and every frame comprises that signal frame is synchronous

Section and signal frame body section, the length of signal frame sync section are at first selected length, the signal frame body section

Length be secondly selected length, the frame sync segment of first frame has selected bit pattern, it the district

Not in the selected bit pattern of the frame sync segment that is second frame; Wherein, at least the first frame and second frame

One of frame sync segment be used on the time domain corresponding frame carried out synchronously.

32, according to the ground digital multimedia TV broad cast system of claim 31, it is characterized in that: in institute

State in the said selected bit pattern of signal frame sync section, further comprise a sign, be used for knowing

The signal that wanting in not said at least two frames receives.

33, according to the ground digital multimedia TV broad cast system of claim 31, it is characterized in that: in institute

State in the said selected bit pattern of signal frame sync section, further comprise a sign, be used for knowing

The data source of not said at least two frames.

34, according to the ground digital multimedia TV broad cast system of claim 31, it is characterized in that: use

The selected bit pattern of described frame sync segment realizes at least 2 ^NThe mutual difference of-1 frame, its

In, the length of the frame sync segment of described every frame has the N bit at least, and N be one selected

Positive integer.

35, according to the ground digital multimedia TV broad cast system of claim 34, it is characterized in that: select

Described Integer N is 9.

36, according to the ground digital multimedia TV broad cast system of claim 34, it is characterized in that: select

The bit pattern of frame sync segment comprises pseudo noise sequence, and it is produced by N rank multinomial p (x)=0,

Here x is a Boolean variable.

37, according to the ground digital multimedia TV broad cast system of claim 34, it is characterized in that: select

The bit pattern of frame sync segment comprises such pattern, and this pattern is the knot of two binary sequence XORs

Really, first binary sequence is the pseudo noise sequence that is produced by N rank multinomial p (x)=0,

Here x is a Boolean variable, and second binary sequence is the orthogonal sequence with selected code length.

38, according to the ground digital multimedia TV broad cast system of claim 37, it is characterized in that: from fertile

Select in the orthogonal sequence group that the assorted sign indicating number of that sequence, Haar sign indicating number sequence, Rademacher sign indicating number sequence are formed

Select a described orthogonal sequence.

39, according to the ground digital multimedia TV broad cast system of claim 34, it is characterized in that: in institute

State the son section in the described signal frame sync section of first frame and second frame, its length be F ' (F '＜F),

So configuration is so that the son section of the son section of described first frame and described second frame is a quadrature.

40, according to the ground digital multimedia TV broad cast system of claim 31, it is characterized in that: select

The frame segment of at least one described frame, its length select from frame segment length 208,104 and 52

Select.

41, according to the ground digital multimedia TV broad cast system of claim 39, it is characterized in that: use

Reed Solomon code, the RS of appointment (m, n), for digital information provides Error detection and correction, its

In (m n) is a pair of integer, from (208,188), (208,200), (104,84), (104,

96), select in (52,32) and (52,44).

42, according to the ground digital multimedia TV broad cast system of claim 41, it is characterized in that: use

Error code coding, for described digital information provides Error detection and correction, described error coding mode from

Lattice shape 64QAM, lattice shape 16QAM, lattice shape QPSK, turbo lattice shape 64QAM, turbo

Select among lattice shape 16QAM, the turbo lattice shape QPSK.

43, according to the ground digital multimedia TV broad cast system of claim 41, it is characterized in that: described

Transmission information be high-definition TV signal.

44, according to the ground digital multimedia TV broad cast system of claim 41, it is characterized in that: described

Information transmitted is for also comprising the cellular phone signal with at least one recipient.

45, according to the ground digital multimedia TV broad cast system of claim 41, it is characterized in that: described

Transmission information also comprise paging signal with at least one recipient.

46, according to the ground digital multimedia TV broad cast system of claim 41, it is characterized in that: transmission

From described at least two frames of the network control center, the described network control center has relevant broadcasting

Database, and be connected with the Internet, described transmitter is the base station with transmission-receiving function, descending letter

Number be sent to a base station at least, this base station is away from the described network control center.

47, according to the ground digital multimedia TV broad cast system of claim 46, it is characterized in that: in the future

From at least two frames of described base station as uplink signal transmissions to the described network control center.

48, according to the ground digital multimedia TV broad cast system of claim 46, it is characterized in that: in the future

At least two frames from described base station are transferred to receiver as downstream signal, and described receiver is to have

The terminal of transmission-receiving function, described terminal is away from one of described control centre and described base station.

49, according to the ground digital multimedia TV broad cast system of claim 48, it is characterized in that: in the future

From at least two frames of described terminal as uplink signal transmissions to described base station.

50, according to the ground digital multimedia TV broad cast system of claim 31, it is characterized in that: select

Described signal frame sync section length is 721 symbols.

51, according to the ground digital multimedia TV broad cast system of claim 31, it is characterized in that: select

The length of described signal body section is 4656 symbols.

52, according to the ground digital multimedia TV broad cast system of claim 31, it is characterized in that: select

Described signal body section makes it comprise the protection intervening sequence with 912 continuous symbols.

53, according to the ground digital multimedia TV broad cast system of claim 31, it is characterized in that: institute

State the frame of selected number F1 and gather among the frame group, wherein F1 is the integer of selecting, at least

Equal 2, and provide a selected frame group head for this frame group.

54, according to the ground digital multimedia TV broad cast system of claim 53, it is characterized in that: select

Described number F1 is 511.

55, according to the ground digital multimedia TV broad cast system of claim 53, it is characterized in that: in institute

State and comprise protection interval in the frame group head with 936 continuous symbols.

56, according to the ground digital multimedia TV broad cast system of claim 53, it is characterized in that: institute

The frame of stating selected number F2 is trooped and is closed in the superframe, and wherein F2 is the integer of selecting, at least etc.

In 2, and provide a selected superframe head for superframe.

57, according to the ground digital multimedia TV broad cast system of claim 53, it is characterized in that: select

Described number F2 is 511.

58, according to the ground digital multimedia TV broad cast system of claim 53, it is characterized in that: choosing

The described superframe of fixed number order F3 is gathered among the superframe group, and F3 is the integer of selecting here, at least

Equal 2, and provide a selected superframe group head for the superframe group.

59, according to the ground digital multimedia TV broad cast system of claim 53, it is characterized in that: select

Described number F3 is about 479.

60, according to the ground digital multimedia TV broad cast system of claim 53, it is characterized in that: in choosing

The described superframe group at least twice of transmission in the fixed time interval, selected time interval length is 2T

(SFG)。

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