CN102255856B - Method for transmitting radio digital broadcasting signal - Google Patents

Abstract

The invention discloses a method for transmitting a radio digital broadcasting signal, which is a time-domain frequency-domain hybrid transmission scheme. The method for transmitting the radio digital broadcasting signal provided by the invention can be used for easily restoring an original signal of an OFDM (Orthogonal Frequency Division Multiplexing) signal at a receiver and has the advantages of low PAPR (Peak to Average Power Ratio), short synchronous time, channel fading resistance, capability of controlling multiple services, and the like.

Description

A kind of wireless digital broadcasting method for transmitting signals

Technical field

The invention belongs to wireless communication field, relate more specifically to a kind of wireless digital broadcasting method for transmitting signals.

Background technology

At present, television broadcasting develops to the digitlization direction gradually from simulation.Digital Television wireless digital broadcasting transmission system, as the important component part of Digital Television wireless digital broadcasting, its development of technologies, closely bound up with people's quality of life, and therefore be subjected to people's extensive concern especially.Digital Television wireless digital broadcasting correlation technique and related industry thereof are that development is very fast in the Communications And Computer field, the industry of good market prospect.On Digital Television wireless digital broadcasting correlation technique, the emphasis of various countries' concern at present is that the Digital Television wireless digital broadcasting how to pass under the environment for complex wave provides the implementation of reliable high-speed mobile cheaply.Wireless digital broadcasting signal transmitter transmission technology is the key technology of Digital Television wireless digital broadcasting system, for whole system performance decisive role, is the object of everybody primary study.

Because the develop rapidly of Digital Signal Processing and integrated circuit technique, the system of OFDM (OFDM) technology realizes becoming more and more easier.Because OFDM multi-carrier transmission technology has simple in structure, the availability of frequency spectrum high plurality of advantages such as becomes and extremely everybody concern and obtain deep research and the extensive use in numerous areas such as Xdsl, wide-band mobile communication, wideband wireless local area network, Digital Television wireless digital broadcasting in the time of can resisting frequency selectivity and channel.

The higher peak-to-average power ratio (PAPR) of ofdm signal has very high requirement to the range of linearity of amplifier and digital to analog converter, if the system linearity scope can not satisfy the variation of signal, then can cause signal distortion, signal spectrum is changed, thereby cause the orthogonality between the subchannel to be destroyed, produce the phase mutual interference, make system performance degradation.Therefore, the solution that must consider how to reduce the probability of occurrence of big peak power signal in the ofdm signal and reduce the nonlinear distortion influence.

In the practical communication environment, Digital Television wireless digital broadcasting communication system performance is subjected to the influence of factors such as lock in time, clock jitter, channel fading, channel disturbance.Wireless digital broadcasting signal transmitter transmission method is the key technology that realizes the digital broadcasting of reliable digit tv wireless.

Utilizing Digital Television wireless digital broadcasting transmission system to provide free television broadcasting, paid television broadcasting, security information transmission, multimedia value-added service etc. can control multi-service is the embodiment that Digital Television wireless digital broadcasting transmission system of new generation satisfies social needs.

Just be based on above background, the present invention is directed to the practical communication environment and propose a kind of wireless digital broadcasting method for transmitting signals, can satisfy the needs that High Data Rate can be controlled the transmission of multi-service Digital Television wireless digital broadcasting.

Desire is done more deep understanding to the patent background can be with reference to following documents and materials:

R.V.Nee，R.Prasad.“OFDM?for?wireless?multimedia?communications”.Boston：Artech?House，2000.

Y.Wu，S.Hirakawa，U.H.Reimers，and?J.Whitaker.“Overview?of?digital?television?development，”Proceedings?of?the?IEEE，Special?Issue?on?Global?Digital?Television：Technology?and?Emerging?Services，pp.8-21，Jan.2006.M.S.Richer，G.Reitmeier，T.Gurley，G.A.Jones，J.Whitaker，and?R.Rast.“The?ATSC?digital?television?system，”Proceedings?of?the?IEEE，Special?Issue?on?Global?Digital?Television：Technology?and?Emerging?Services，pp.37-43，Jan.2006.

U.Ladebusch?and?C.A.Liss.“Terrestrial?DVB(BVB-T)：A?broadcast?technology?for?stationary?portable?and?mobile?use，”Proceedings?of?the?IEEE，Special?Issue?on?Global?Digital?Television：Technology?and?Emerging?Services，pp.183-194，Jan.2006.

M.Takada?and?M.Saito.“Transmission?systems?for?ISDB-T，”Proceedings?of?the?IEEE，Special?Issue?on?Global?Digital?Television：Technology?and?Emerging?Services，pp.251-256，Jan.2006.

Summary of the invention

The present invention is directed to High Data Rate and can control multi-service Digital Television wireless digital broadcasting problem, proposed a kind of wireless digital broadcasting method for transmitting signals.

A kind of wireless digital broadcasting method for transmitting signals that the present invention proposes is characterized in that it comprises the following steps:

1) the wireless digital broadcasting signal transmitter converts the multi-medium data media data processor of flowing through to bit stream, and the scrambler sequence of utilizing feedback shift register to produce is carried out scrambling and handled to form the input data bit flow;

2) the wireless digital broadcasting signal transmitter forms the FFT data block with the input data bit flow of oneself at frequency domain, and FFT represents the fast discrete Fourier conversion, and the length of FFT data block is K;

3) the wireless digital broadcasting signal transmitter adopts IFFT that the FFT data block is transformed to time domain discrete data sample block D _Total, IFFT represents the fast discrete Fourier inverse transformation;

4) the wireless digital broadcasting signal transmitter is divided equally into time domain discrete data sample block two in order, the sub-piece D of time domain discrete data sample ₁With the sub-piece D of time domain discrete data sample ₂, D _Total=[D ₁, D ₂];

5) the wireless digital broadcasting signal transmitter passes through the peak-to-average power ratio adjustment unit to the sub-piece D of time domain discrete data sample ₁, the sub-piece D of time domain discrete data sample ₂Carry out that signal adds, subtracts, conjugate operation is handled and synthetic new time domain discrete data sample block D again _New, new time domain discrete data sample block D _NewAdopt following generate pattern to obtain, generate pattern 1 is D _New=[D ₁, D ₂], generate pattern 2 is $D_{\mathrm{new}}=[D_1,\sqrt{1/2}(D_1+D_2)],$ Become the mode and 3 be $D_{\mathrm{new}}=[D_1,\sqrt{1/2}(D_1-D_2)],$ Generate pattern 4 is $D_{\mathrm{new}}=[\sqrt{1/2}(D_1+D_2),D_2],$ Generate pattern 5 is $D_{\mathrm{new}}=[\sqrt{1/2}(D_1-D_2),D_2],$ Generate pattern 6 is $D_{\mathrm{new}}=[\sqrt{1/2}(D_1+D_2),\sqrt{1/2}(D_1-D_2)],$ Generate pattern 7 is D _New=[D ^* ₁, D ₂], generate pattern 8 is $D_{\mathrm{new}}=[{D^{*}}_1,\sqrt{1/2}({D^{*}}_1+D_2)],$ Generate pattern 9 is $D_{\mathrm{new}}=[{D^{*}}_1,\sqrt{1/2}({D^{*}}_1-D_2)],$ Generate pattern 10 is $D_{\mathrm{new}}=[\sqrt{1/2}({D^{*}}_1+D_2),D_2],$ Generate pattern 11 is $D_{\mathrm{new}}=[\sqrt{1/2}({D^{*}}_1-D_2),D_2],$ Generate pattern 12 is $D_{\mathrm{new}}=[\sqrt{1/2}({D^{*}}_1+D_2),\sqrt{1/2}({D^{*}}_1-D_2)],$ Compare the synthetic time domain discrete data sample block D of 12 kinds of generate patterns _New, choose wherein have a minimum peak-to-average power ratio the peak-to-average power ratio time domain discrete data sample block falls

And the peak-to-average power ratio time domain discrete data sample block will be fallen The corresponding generate pattern information that adopts send to the operational indicator sequence unit be set, wherein, D ^* ₁Expression is to the sub-piece D of time domain discrete data sample ₁Each time domain discrete data sample carry out that conjugate operation is handled and the sub-piece of time domain discrete data sample that obtains;

6) the wireless digital broadcasting signal transmitter with training sequence as the real part sequence of sequence of plural training, the operational indicator sequence is arranged the set operational indicator sequence in unit as the imaginary part sequence of sequence of plural training, constitute the discrete sample block of sequence of plural training in time domain, the length of the discrete sample block of training sequence, operational indicator sequence, sequence of plural training all is X, and the operational indicator sequence is comprising and unique each system parameters and business model information of expressing the wireless digital broadcasting signal transmitter;

7) discrete sample block of the wireless digital broadcasting signal transmitter sequence of plural training that will constitute in time domain repeats to form time domains 4 times continuously and embeds training sequence discrete sample block on time domain, time domain embeds the length and the length numerically equal of falling the peak-to-average power ratio time domain discrete data sample block, i.e. K=4 * X of training sequence discrete sample block;

8) the wireless digital broadcasting signal transmitter will fall peak-to-average power ratio time domain discrete data sample block, time domain and embed training sequence discrete sample block and directly superpose and form time domain and embed training sequence and fall the peak-to-average power ratio time domain discrete data sample block, as frame;

9) the wireless digital broadcasting signal transmitter at interval is that frame head inserts time domain and embeds training sequence to fall the peak-to-average power ratio time domain discrete data sample block be frame with Cyclic Prefix as protection, and to form signal frame, the length of Cyclic Prefix is C;

10) the wireless digital broadcasting signal transmitter adopts square root raised cosine filter that the signal pulse of signal frame is shaped;

11) the wireless digital broadcasting signal transmitter forms emission of radio frequency signals to the on-air radio channel with the baseband signal up-conversion to carrier wave;

12) the wireless digital broadcasting signal receiver detect to receive radiofrequency signal that the wireless digital broadcasting signal transmitter sends and its down-conversion is formed baseband signal, utilizes the architectural characteristic of the Cyclic Prefix characteristic of signal frame and signal frame to carry out baseband signal and receives and handle.

Wireless digital broadcasting method for transmitting signals according to above-mentioned is characterized in that: the wireless digital broadcasting signal transmitter fall the peak-to-average power ratio time domain discrete data sample block by the signal that the sub-piece of time domain discrete data sample is undertaken by specific 12 kinds of generate patterns add, subtract, conjugate operation is handled and synthetic again; Have periodic time domain in the signal frame of wireless digital broadcasting signal transmitter and embed training sequence discrete sample block; The length X of the training sequence of wireless digital broadcasting signal transmitter is in 512,1024,2048, the length K of corresponding FFT data block is respectively 2048,4096,8192, the frequency interval of corresponding subcarrier is respectively 4KHz, 2KHz, 1KHz, and corresponding circulating prefix-length C is respectively 1/4,1/8,1/16 of FFT data block length K size; The training sequence of wireless digital broadcasting signal transmitter, operational indicator sequence are formed by a series of 1 or 1, have pseudo-random characteristics; The training sequence of wireless digital broadcasting signal transmitter, operational indicator sequence have orthogonality each other; The different operational indicator sequence of each of wireless digital broadcasting signal transmitter is comprising and unique each system parameters and business model information of expressing the wireless digital broadcasting signal transmitter.The wireless digital broadcasting signal receiver can take full advantage of the Cyclic Prefix characteristic of signal frame and the architectural characteristic of signal frame is carried out baseband signal reception processing, handles comprising the time domain and frequency domain combined alternate analysis to signal frame head and signal frame body.

Characteristics of the present invention:

The present invention is the transmission plan that a kind of time-domain and frequency-domain mixes.Generate pattern of falling the peak-to-average power ratio time domain discrete data sample block of the present invention and have a minimum peak-to-average power ratio peak-to-average power ratio time domain discrete data sample block choosing method falls, but the very high big peak power signal probability of the maximum peak power that not only can take full advantage of ofdm signal is very low, the real part (or imaginary part) of the ofdm signal when number of sub carrier wave is big is the characteristic of multiple Gaussian random process and whose amplitude obeys Rayleigh distribution, the amount of information of the required extra transmission of adopting of generate pattern is little, be easy to handle the primary signal of recovering to obtain ofdm signal at receiver end, the orthogonal property that can not destroy sub-carrier signal simultaneously can not produce extra nonlinear distortion yet.Have periodic time domain in the signal frame of wireless digital broadcasting signal transmitter and embed training sequence discrete sample block, the training sequence of wireless digital broadcasting signal transmitter, the operational indicator sequence has pseudo-random characteristics, the training sequence of wireless digital broadcasting signal transmitter, the operational indicator sequence has orthogonality each other, it is by falling the peak-to-average power ratio time domain discrete data sample block that the peak-to-average power ratio time domain discrete data sample block falls in the time domain embedding training sequence of wireless digital broadcasting signal transmitter, time domain embeds training sequence discrete sample block and directly superposes and form, and these have guaranteed that the wireless digital broadcasting signal receiver can realize frame synchronization fast and accurately, Frequency Synchronization, time synchronized, channel transfer characteristic is estimated, and phase noise and channel transfer characteristic reliably followed the tracks of.Cyclic Prefix is inserted time domain embedding training sequence at interval as protection fall the peak-to-average power ratio time domain discrete data sample block to form signal frame, can reduce the interference effect between the adjacent signals frame.The different operational indicator sequence of each of wireless digital broadcasting signal transmitter is comprising and unique each system parameters and business model information of expressing the wireless digital broadcasting signal transmitter, Digital Television wireless digital broadcasting transmission system can satisfy social needs so that can provide free television broadcasting, paid television broadcasting, security information transmission, multimedia value-added service etc. can control multi-service.Transmission method of the present invention has the equal power ratio of ebb, lock in time is short, clock jitter is little, anti-channel fading, anti-channel disturbance, can provide High Data Rate can control plurality of advantages such as multi-service Digital Television wireless digital broadcasting transmission.

Description of drawings

Fig. 1 is the embodiment schematic diagram according to signal transmission between certain transmitter and receiver of wireless digital broadcasting method for transmitting signals of the present invention.

Fig. 2 is the embodiment schematic diagram that forms according to signal frame in the signals transmission between certain transmitter and receiver of wireless digital broadcasting method for transmitting signals of the present invention.

Embodiment

Below in conjunction with accompanying drawing specific embodiments of the invention are described in detail.

The embodiment schematic diagram of signal transmission between certain transmitter and receiver of the wireless digital broadcasting method for transmitting signals that proposes according to the present invention as shown in Figure 1, follows these steps to carry out:

1) this certain wireless digital broadcasting signal transmitter converts the multi-medium data media data processor of flowing through to bit stream, and the scrambler sequence of utilizing feedback shift register to produce is carried out scrambling and handled to form the input data bit flow;

2) this certain wireless digital broadcasting signal transmitter forms the FFT data block with the input data bit flow of oneself at frequency domain, and FFT represents the fast discrete Fourier conversion, and the length of FFT data block is K;

3) this certain wireless digital broadcasting signal transmitter adopts IFFT that the FFT data block is transformed to time domain discrete data sample block D _Total, IFFT represents the fast discrete Fourier inverse transformation;

4) this certain wireless digital broadcasting signal transmitter is divided equally into time domain discrete data sample block two in order, the sub-piece D of time domain discrete data sample ₁With the sub-piece D of time domain discrete data sample ₂, D _Total=[D ₁, D ₂];

5) this certain wireless digital broadcasting signal transmitter passes through the peak-to-average power ratio adjustment unit to the sub-piece D of time domain discrete data sample ₁, the sub-piece D of time domain discrete data sample ₂Carry out that signal adds, subtracts, conjugate operation is handled and synthetic new time domain discrete data sample block D again _New, new time domain discrete data sample block D _NewAdopt following generate pattern to obtain, generate pattern 1 is D _New=[D ₁, D ₂], generate pattern 2 is $D_{\mathrm{new}}=[D_1,\sqrt{1/2}(D_1+D_2)],$ Generate pattern 3 is $D_{\mathrm{new}}=[D_1,\sqrt{1/2}(D_1-D_2)],$ Generate pattern 4 is $D_{\mathrm{new}}=[\sqrt{1/2}(D_1+D_2),D_2],$ Generate pattern 5 is $D_{\mathrm{new}}=[\sqrt{1/2}(D_1-D_2),D_2],$ Generate pattern 6 is $D_{\mathrm{new}}=[\sqrt{1/2}(D_1+D_2),\sqrt{1/2}(D_1-D_2)],$ Generate pattern 7 is D _New=[D ^* ₁, D ₂], generate pattern 8 is $D_{\mathrm{new}}=[{D^{*}}_1,\sqrt{1/2}({D^{*}}_1+D_2)],$ Generate pattern 9 is $D_{\mathrm{new}}=[{D^{*}}_1,\sqrt{1/2}({D^{*}}_1-D_2)],$ Generate pattern 10 is $D_{\mathrm{new}}=[\sqrt{1/2}({D^{*}}_1+D_2),D_2],$ Generate pattern 11 is $D_{\mathrm{new}}=[\sqrt{1/2}({D^{*}}_1-D_2),D_2],$ Generate pattern 12 is $D_{\mathrm{new}}=[\sqrt{1/2}({D^{*}}_1+D_2),\sqrt{1/2}({D^{*}}_1-D_2)],$ Compare the synthetic time domain discrete data sample block D of 12 kinds of generate patterns _New, choose wherein have a minimum peak-to-average power ratio the peak-to-average power ratio time domain discrete data sample block falls

And the peak-to-average power ratio time domain discrete data sample block will be fallen

The corresponding generate pattern information that adopts send to the operational indicator sequence unit be set, wherein, D ^* ₁Expression is to the sub-piece D of time domain discrete data sample ₁Each time domain discrete data sample carry out that conjugate operation is handled and the sub-piece of time domain discrete data sample that obtains;

6) this certain wireless digital broadcasting signal transmitter with training sequence as the real part sequence of sequence of plural training, the operational indicator sequence is arranged the set operational indicator sequence in unit as the imaginary part sequence of sequence of plural training, constitute the discrete sample block of sequence of plural training in time domain, the length of the discrete sample block of training sequence, operational indicator sequence, sequence of plural training all is X, the operational indicator sequence is comprising and unique each system parameters and business model information of expressing the wireless digital broadcasting signal transmitter, and X gets in 512,1024,2048;

7) discrete sample block of this certain wireless digital broadcasting signal transmitter sequence of plural training that will constitute in time domain repeats to form time domains 4 times continuously and embeds training sequence discrete sample block on time domain, time domain embeds the length and the length numerically equal of falling the peak-to-average power ratio time domain discrete data sample block, i.e. K=4 * X of training sequence discrete sample block; When X got 512, K got 2048, and the frequency interval of corresponding subcarrier is got 4KHz; When X got 1024, K got 4096, and the frequency interval of corresponding subcarrier is got 2KHz; When X got 2048, K got 8192, and the frequency interval of corresponding subcarrier is got 1KHz;

8) this certain wireless digital broadcasting signal transmitter will fall peak-to-average power ratio time domain discrete data sample block, time domain and embed training sequence discrete sample block and directly superpose and form time domain and embed training sequence and fall the peak-to-average power ratio time domain discrete data sample block, as frame;

9) this certain wireless digital broadcasting signal transmitter at interval is that frame head inserts time domain and embeds training sequence to fall the peak-to-average power ratio time domain discrete data sample block be frame with Cyclic Prefix as protection, and to form signal frame, the length of Cyclic Prefix is C; When X got 512, C got 1/4 of K size; When X got 1024, C got 1/8 of K size; When X got 2048, C got 1/16 of K size;

10) this certain wireless digital broadcasting signal transmitter adopts square root raised cosine filter that the signal pulse of signal frame is shaped;

11) this certain wireless digital broadcasting signal transmitter forms emission of radio frequency signals to the on-air radio channel with the baseband signal up-conversion to carrier wave;

12) this certain wireless digital broadcasting signal receiver detects and receives radiofrequency signal that wireless digital broadcasting signal transmitter sends and its down-conversion is formed baseband signal, utilize the Cyclic Prefix characteristic of signal frame and the architectural characteristic of signal frame to carry out baseband signal reception processing, handle comprising the time domain and frequency domain combined alternate analysis to signal frame head and signal frame body.

According to the embodiment schematic diagram that signal frame in the signals transmission between certain transmitter and receiver of wireless digital broadcasting method for transmitting signals of the present invention forms, as shown in Figure 2, specifically implement as follows:

This certain wireless digital broadcasting signal transmitter converts the multi-medium data media data processor of flowing through to bit stream, and the scrambler sequence of utilizing feedback shift register to produce is carried out scrambling and handled to form the input data bit flow.

This certain wireless digital broadcasting signal transmitter forms the FFT data block with the input data bit flow of oneself at frequency domain, through IFFT it is transformed to the discrete data sample block of time domain again, generates by the peak-to-average power ratio adjustment unit and choose the peak-to-average power ratio time domain discrete data sample block of falling that wherein has minimum peak-to-average power ratio and simultaneously the generate pattern information of the corresponding employing of institute is sent to the operational indicator sequence unit is set.

The FFT data block is made up of subcarrier.The length of FFT data block is K; When X got 512, corresponding K got 2048, and the frequency interval of corresponding subcarrier is got 4KHz; When X got 1024, corresponding K got 4096, and the frequency interval of corresponding subcarrier is got 2KHz; When X got 2048, corresponding K got 8192, and the frequency interval of corresponding subcarrier is got 1KHz.

This certain wireless digital broadcasting signal transmitter with training sequence as the real part sequence of sequence of plural training, with the imaginary part sequence of operational indicator sequence as sequence of plural training, in the discrete sample block of time domain formation sequence of plural training, on time domain, it is repeated 4 times continuously again and form time domains embedding training sequence discrete sample block.The length of the discrete sample block of training sequence, operational indicator sequence, sequence of plural training all is X, and X gets in 512,1024,2048, and the length that time domain embeds training sequence discrete sample block is K, K=4 * X.

Training sequence, operational indicator sequence as the wireless digital broadcasting signal transmitter are formed by a series of 1 or-1, have pseudo-random characteristics, and training sequence, operational indicator sequence have orthogonality each other.The training sequence that satisfies above-mentioned feature can be by realizing as one group of displacement m sequence of a kind of specific type of pseudo-random number sequence with as the walsh sequence of orthogonal sequence, Hadamard sequences or by the orthogonal sequence that other modes produce.Each different operational indicator sequence is comprising and unique each system parameters and business model information of expressing the wireless digital broadcasting signal transmitter.

This certain wireless digital broadcasting signal transmitter will fall peak-to-average power ratio time domain discrete data sample block, time domain and embed training sequence discrete sample block and directly superpose and form time domain and embed training sequence and fall the peak-to-average power ratio time domain discrete data sample block, as frame; Embed training sequence in time domain and fall and insert Cyclic Prefix in the peak-to-average power ratio time domain discrete data sample block as protection at interval, form signal frame.Length as protection Cyclic Prefix at interval is C; When X got 512, corresponding C got 1/4 of K size; When X got 1024, corresponding C got 1/8 of K size; When X got 2048, corresponding C got 1/16 of K size.

This certain wireless digital broadcasting signal transmitter adopts square root raised cosine filter that the signal of signal frame is carried out pulse shaping.When X got 512, the corresponding signal to signal frame carried out the rolloff-factor of the square root raised cosine filter of pulse shaping and gets 0.1; When X got 1024, the corresponding signal to signal frame carried out the rolloff-factor of the square root raised cosine filter of pulse shaping and gets 0.05; When X got 2048, the corresponding signal to signal frame carried out the rolloff-factor of the square root raised cosine filter of pulse shaping and gets 0.025.

This certain wireless digital broadcasting signal transmitter forms emission of radio frequency signals to the on-air radio channel with the baseband signal up-conversion to carrier wave.

This certain wireless digital broadcasting signal receiver detects and receives radiofrequency signal that wireless digital broadcasting signal transmitter sends and its down-conversion is formed baseband signal, utilize the Cyclic Prefix characteristic of signal frame and the architectural characteristic of signal frame to carry out baseband signal reception processing, handle comprising the time domain and frequency domain combined alternate analysis to signal frame head and signal frame body.

By reference to the accompanying drawings specific embodiments of the invention are had been described in detail above, but the present invention is not limited to above-described embodiment, under the spirit and scope situation of the claim that does not break away from the application, those skilled in the art can make various modifications or remodeling.

Claims (8)

1. a wireless digital broadcasting method for transmitting signals is characterized in that it comprises the following steps:

1) the wireless digital broadcasting signal transmitter converts the multi-medium data media data processor of flowing through to bit stream, and the scrambler sequence of utilizing feedback shift register to produce is carried out scrambling and handled to form the input data bit flow;

2) the wireless digital broadcasting signal transmitter forms the FFT data block with the input data bit flow of oneself at frequency domain, and the length of FFT data block is K;

3) the wireless digital broadcasting signal transmitter adopts IFFT that the FFT data block is transformed to time domain discrete data sample block D _Total

4) the wireless digital broadcasting signal transmitter is divided equally into time domain discrete data sample block two in order, the sub-piece D of time domain discrete data sample ₁With the sub-piece D of time domain discrete data sample ₂, D _Total=[D ₁, D ₂];

5) the wireless digital broadcasting signal transmitter passes through the peak-to-average power ratio adjustment unit to the sub-piece D of time domain discrete data sample ₁, the sub-piece D of time domain discrete data sample ₂Carry out that signal adds, subtracts, the operation independent of conjugation is handled or combinatorial operation is handled and synthetic new time domain discrete data sample block D again _New, new time domain discrete data sample block D _NewAdopt following generate pattern to obtain, generate pattern 1 is D _New=[D ₁, D ₂], generate pattern 2 is $D_{\mathrm{new}}=[D_1,\sqrt{1/2}(D_1+D_2)],$ Generate pattern 3 is $D_{\mathrm{new}}=[D_1,\sqrt{1/2}(D_1-D_2)],$ Generate pattern 4 is $D_{\mathrm{new}}=[\sqrt{1/2}(D_1+D_2),D_2],$ Generate pattern 5 is $D_{\mathrm{new}}=[\sqrt{1/2}(D_1-D_2),D_2],$ Generate pattern 6 is $D_{\mathrm{new}}=[\sqrt{1/2}(D_1+D_2),\sqrt{1/2}(D_1-D_2)],$ Generate pattern 7 is D _New=[D ^* ₁, D ₂], generate pattern 8 is $D_{\mathrm{new}}=[{D^{*}}_1,\sqrt{1/2}({D^{*}}_1+D_2)],$ Generate pattern 9 is $D_{\mathrm{new}}=[{D^{*}}_1,\sqrt{1/2}({D^{*}}_1-D_2)],$ Generate pattern 10 is $D_{\mathrm{new}}=[\sqrt{1/2}({D^{*}}_1+D_2),D_2],$ Generate pattern 11 is $D_{\mathrm{new}}=[\sqrt{1/2}({D^{*}}_1-D_2),D_2],$ Generate pattern 12 is $D_{\mathrm{new}}=[\sqrt{1/2}({D^{*}}_1+D_2),\sqrt{1/2}({D^{*}}_1-D_2)],$ Compare the synthetic time domain discrete data sample block D of 12 kinds of generate patterns _New, choose wherein have a minimum peak-to-average power ratio the peak-to-average power ratio time domain discrete data sample block falls

And the peak-to-average power ratio time domain discrete data sample block will be fallen The corresponding generate pattern information that adopts send to the operational indicator sequence unit be set, wherein, D ^* ₁Expression is to the sub-piece D of time domain discrete data sample ₁Each time domain discrete data sample carry out that conjugate operation is handled and the sub-piece of time domain discrete data sample that obtains;

6) the wireless digital broadcasting signal transmitter with training sequence as the real part sequence of sequence of plural training, the operational indicator sequence is arranged the set operational indicator sequence in unit as the imaginary part sequence of sequence of plural training, constitute the discrete sample block of sequence of plural training in time domain, the length of the discrete sample block of training sequence, operational indicator sequence, sequence of plural training all is X, and the operational indicator sequence is comprising and unique each system parameters and business model information of expressing the wireless digital broadcasting signal transmitter;

7) discrete sample block of the wireless digital broadcasting signal transmitter sequence of plural training that will constitute in time domain repeats to form time domains 4 times continuously and embeds training sequence discrete sample block on time domain, time domain embeds the length and the length numerically equal of falling the peak-to-average power ratio time domain discrete data sample block, i.e. K=4 * X of training sequence discrete sample block;

8) the wireless digital broadcasting signal transmitter will fall peak-to-average power ratio time domain discrete data sample block, time domain and embed training sequence discrete sample block and directly superpose and form time domain and embed training sequence and fall the peak-to-average power ratio time domain discrete data sample block, as frame;

9) the wireless digital broadcasting signal transmitter at interval is that frame head inserts time domain and embeds training sequence to fall the peak-to-average power ratio time domain discrete data sample block be frame with Cyclic Prefix as protection, and to form signal frame, the length of Cyclic Prefix is C;

10) the wireless digital broadcasting signal transmitter adopts square root raised cosine filter that the signal pulse of signal frame is shaped;

11) the wireless digital broadcasting signal transmitter forms emission of radio frequency signals to the on-air radio channel with the baseband signal up-conversion to carrier wave;

12) the wireless digital broadcasting signal receiver detect to receive radiofrequency signal that the wireless digital broadcasting signal transmitter sends and its down-conversion is formed baseband signal, utilizes the architectural characteristic of the Cyclic Prefix characteristic of signal frame and signal frame to carry out baseband signal and receives and handle.

2. by the wireless digital broadcasting method for transmitting signals of claim 1, it is characterized in that: the length X of the discrete sample block of the training sequence of described wireless digital broadcasting signal transmitter, operational indicator sequence, sequence of plural training is got in 512,1024,2048.

3. by the wireless digital broadcasting method for transmitting signals of claim 2, it is characterized in that: described training sequence, operational indicator sequence are formed by a series of 1 or-1.

4. by the wireless digital broadcasting method for transmitting signals of claim 2, it is characterized in that: described training sequence, operational indicator sequence have pseudo-random characteristics.

5. by the wireless digital broadcasting method for transmitting signals of claim 2, it is characterized in that: described training sequence, operational indicator sequence have orthogonality each other.

6. by the wireless digital broadcasting method for transmitting signals of claim 1, it is characterized in that: described FFT data block is made up of subcarrier; When X got 512, sub-carrier number got 2048, and the frequency interval of subcarrier is got 4KHz; When X got 1024, sub-carrier number got 4096, and the frequency interval of subcarrier is got 2KHz; When X got 2048, sub-carrier number got 8192, and the frequency interval of subcarrier is got 1KHz.

7. by the wireless digital broadcasting method for transmitting signals of claim 1, it is characterized in that: the length C value of described Cyclic Prefix is relevant with the X value; When X got 512, C got 1/4 of K size; When X got 1024, C got 1/8 of K size; When X got 2048, C got 1/16 of K size.

8. press the wireless digital broadcasting method for transmitting signals of claim 1, it is characterized in that: the baseband signal that described wireless digital broadcasting signal receiver carries out receives to be handled, and one of them step is that the time domain and frequency domain combined alternate analysis of signal frame head and signal frame body is handled.

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