CN1700608A - Receiving method of direct sequence spread-spectrum signal - Google Patents

Abstract

This invention discloses an receiving method of direct sequence frequency signal expansion method, which comprises the following steps: the received signals are processed through DFT module; processing on the frequency zone gains equals to Nf and the gains on time zone asN1, wherein, the frequency zone expansion sequence adopts Betak1, Betak2,..., BetakNf, multiplier and sum module; The time zone expansion relates to expansion module; the expansion result is input to the justifier to get the information bit estimation.

Description

A kind of method of reseptance of Direct Sequence Spread Spectrum Signal

Technical field

The invention belongs to electronic technology field, as radio communication, mobile communication, radar, electronic countermeasures etc., the mobile radio system (as: WCDMA, cdma2000, TD-SCDMA etc.) that particularly adopts direct sequence spread spectrum (as: DS-CDMA) technology to communicate.

Background technology

The summary that Fig. 1 is without loss of generality the composition of transmitter of Direct Sequence Spread Spectrum Signal: PN sequencer module 1, multiplier 2, local carrier 3, radio frequency processing 1 module 4 and transmitting antenna 5.

The frequency expansion sequence element α that the transmitter course of work: information bit b (t) produces by multiplication module 2 and PN sequencer module 1 _n(α multiplies each other _nSpreading rate be T _c, the speed of original information bit is T, and T/T _c=N, N are exactly the processing gain of direct sequence spread spectrum, 1≤n≤N), the signal d (t) that obtains after multiplying each other multiplies each other with local carrier 3 again, be modulated to transmit frequency band, the signal after the modulation is input in the transmission medium subsequently through radio frequency processing 1 module 4 feed-in transmitting antennas 5.Wherein, the function of radio frequency processing 1 module 4 is to make signal reach the requirement of emission, and different transmitters has different radio frequency processing modes, and this does not influence method of reseptance of the present invention.

Existing Direct Sequence Spread Spectrum Signal method of reseptance (technology) may be summarized to be following four kinds:

(1) time domain Direct Sequence Spread Spectrum Signal time domain directly receives: this is the simplest method of reseptance, as shown in Figure 2, the direct method of reseptance of this time domain only is equivalent to a certain branch road of RAKE receiver, that is: multiply each other with local carrier 8 after the signal that receives from reception antenna 6 is handled through radio frequency processing 2 modules 7, obtain y (t) through behind the filter 9 again, acquisition and tracking module 10 obtains synchronizing information τ from y (t) _l, and passing to PN sequencer 1, PN sequencer 1 is according to synchronizing information τ _lOutput despreading chip α _{τ l}, y (t) and α _{τ l}Multiply each other and obtain x _l, x _lBy integrator 11 backs and weight coefficient w _lMultiply each other and obtain z _l, last z _lInput decision device module 14 is made judgement, obtains the estimated value  (t) of information bit b (t).Detailed content is seen: " spread spectrum communication and the application thereof " that Zhu Jinkang writes, publishing house of China Science ﹠ Technology University, 1993.

(2) time domain Direct Sequence Spread Spectrum Signal time domain RAKE receives: this is the method for reseptance that generally adopts at present, as shown in Figure 2, the L bar that it can make full use of in the radio communication channel realizes that directly rake receives, each bar branch road all is equivalent to the direct method of reseptance of above-mentioned time domain, the signal z after RAKE receiver will directly be handled through each bar _l(l=1,2 ..., L) be input to combiner, make judgement again according to the output of combiner, obtain the estimated value  (t) of information bit b (t).Detailed content is seen: " the Wireless CommunicationsPrinciples and Practice " that Rappaport.T.S writes, Electronic Industry Press, 1998.

(3) time domain Direct Sequence Spread Spectrum Signal frequency domain equivalent received: this receive mode can be described with Fig. 3, after reception antenna connects 6 signals process radio frequency processing 3 modules 15 processing of receiving, obtain signal r (t), then r (t) is input to discrete Fourier transform (DFT) (DFT:Discrete Fourier Transform) module 16, do the DFT computing (N is exactly the processing gain of direct sequence spread spectrum in the transmitter) that N is ordered, export N road signal after the DFT computing altogether, m (m=1 wherein, 2, ..., N) road signal X _mWith β _m({ β ₁, β ₂..., β _NBe by frequency expansion sequence { α in the transmitter ₁, α ₂..., α _NDo that DFT computing that N orders obtains) Y obtained after multiplying each other _m, then according to output H based on the channel estimation module 17 of guiding _mTo signal Y _mCarry out channel correction, proofread and correct back output W _m, at last by 19 couples of W of summation module _m(m=1,2 ..., N) suing for peace, the U as a result after the summation directly sends into judging module 14 and adjudicates, the estimated value  (t) of judgement back output information bit b (t).Detailed content is seen: 1. Shin-YuanWang, Chia-Chi Huang, " On the architecture and performance of an FFT-basedspread-spectrum downlink RAKE receiver; " IEEE Transactions on VehicularTechnology, Jan.2001, Vol.50, No.1, pp.234-243. 2. " FFT-based CDMA RAKEreceiver system and method, " United States Patent, No.6154443.

Existing Direct Sequence Spread Spectrum Signal method of reseptance (technology), the shortcoming that they exist is:

(1) above-mentioned first kind of method of reseptance, promptly time domain Direct Sequence Spread Spectrum Signal time domain directly receives, and can't differentiate multipath signal, disturbs greatly between the footpath, and the multipath fading of anti-channel and Doppler frequency shift effect are relatively poor;

(2) though adopt the RAKE reception technique can utilize the energy of multipath signal, distinguishable footpath number is limited, can't make full use of all energy of received signal, and each bar branch road all needs the acquisition and tracking module, and system is complexity too;

(3) RAKE receiver generally adopts the spreading code matched filter to discern different users, and the spreading code matched filter mainly contains two kinds of implementations: realize with surface acoustic wave (SAW) device at intermediate frequency (Intermediate Frequency), perhaps realize with digital matched filter in base band.But surface acoustic wave (SAW) device is not easy to integrated, and when the length of spreading code was very big, the base-band digital matched filter also was not suitable for realizing that with integrated circuit therefore, the application scenario of RAKE receiver is restricted;

(4) though the mode of time domain Direct Sequence Spread Spectrum Signal frequency domain equivalent received can make full use of all energy of received signal, but the pairing time span of frequency expansion sequence of working as transmitting terminal translational speed long or travelling carriage is very fast, make the pairing time span of frequency expansion sequence exceed the coherence time of channel, the channel estimation value confidence level that obtains by this method of reseptance is less so, therefore causes bit error rate performance relatively poor.In addition, when the points N of DFT computing is big, the DFT chip is had relatively high expectations, increased overhead, make the receiver cost improve.

Summary of the invention

The method of reseptance that the purpose of this invention is to provide a kind of Direct Sequence Spread Spectrum Signal, the Direct Sequence Spread Spectrum Signal receiver formed according to the inventive method have low system complexity, easy of integration, improved the error rate of system performance, the requirement of chip reduced, reduce overhead, waited characteristics cheaply.

The receiver system that the method for reseptance of a kind of Direct Sequence Spread Spectrum Signal provided by the invention is formed, it comprises: reception antenna 6, radio frequency processing 3 modules 15, synchronization module 20, DFT module 21, channel estimation module 22, multiplication module 2, channel correction module 23, summation module 19, time domain despreading module 24, judging module 14, as shown in Figure 4;

The method of reseptance of a kind of Direct Sequence Spread Spectrum Signal of the present invention comprises following step:

The signal that step 1 radio frequency processing step reception antenna 6 is received obtains signal r (t) after handling through radio frequency processing 3 modules 15, and the purpose of radio frequency processing makes signal r (t) can satisfy the processing requirements of late-class circuit exactly;

Step 2 synchronizing step is input to synchronization module 20 with the signal r (t) of step 1 output, synchronization module 20 extracts the needed synchronizing information of receiver from signal r (t), described synchronizing information can be time synchronization information, frequency synchronization information etc., then synchronization module 20 output synchronous control signal ε;

It is characterized in that it also comprises following step:

The synchronous control signal ε that signal r (t) that obtains after step 3 discrete Fourier transform (DFT) treatment step process step 1 radio frequency processing and process step 2 obtain all is input in discrete Fourier transform (DFT) (DFT:Discrete FourierTransform) module 21, and discrete Fourier transform module 21 is finished to count and is N _fThe DFT conversion, N _fBe the processing gain of receiver when Direct Sequence Spread Spectrum Signal is carried out the frequency domain despreading, N _fValue can be according to the concrete needs setting of the situation and the communication system of communication channel;

The m road signal X of step 4 frequency domain despreading step step 3 output _KmBy multiplication module 2 and β _Km, δ _KmProduct β _Kmδ _KmMultiply each other and obtain Y _Km, carry out the signal frequency-domain despreading then and handle β _KmRepresent the receiver frequency domain despreading factor, m=1,2 ..., N _f, $k=\mathrm{0,1},...,\frac{N}{N_f}-1,$ Wherein, { β _K1, β _K2..., β _KNfBe by { α _KNf+1, α _KNf2..., α _KNf+NfThrough N _fThe DFT conversion of point is resulting, as shown in Figure 6; δ _KmBe the weight factor on m road, m=1,2 ..., N _f, k=0,1 ..., N _t

The signal X that step 5 channel estimation steps obtains step 3 _KmBe input to channel estimation module 22, by channel estimation module output channel information H _Km, m=1,2 ..., N _f

The signal Y that step 6 channel correction step obtains step 4 _KmThe signal H that obtains with step 5 _KmTogether be input to channel correction module 23, by signal H _KmTo signal Y _KmCarry out channel correction, proofreading and correct the back output signal is W _Km, m=1,2 ..., N _f

Each road signal that step 7 summation step obtains step 6 is done summation by summation module 19 and is handled, and the signal of summation back output is Z _k

The signal Z that step 8 time domain despreading step obtains step 7 _kBe input to time domain despreading module 24 and do the time domain despreading and handle, Fig. 7 has provided a kind of concrete time domain despreading mode, and it is by to Z _kBeing weighted the signal U after the output time domain despreading that adds up, wherein N _tProcessing gain when representing the time domain despreading, λ _kRepresent the weight factor of k section, the signal that obtains after the time domain despreading is U;

The signal U that step 9 decision steps obtains step 8 is input to judging module 14 and adjudicates, the estimated value  (t) of judgement back output information bit b (t).

Through after the above step, just can finish reception and despreading to Direct Sequence Spread Spectrum Signal, obtain the estimated value  (t) of the information b (t) of transmitting terminal at receiving terminal.

Need to prove:

Described N _fConcrete value mode, can be that the frequency expansion sequence (length is N) with transmitting terminal is divided into Section contains N in each section _fThe element of individual frequency expansion sequence, the sequence number of each section is with alphabetical $k(k=\mathrm{0,1},...,\frac{N}{N_f}-1)$ Identify, after the DFT conversion, export N _fThe road signal, wherein m road signal is X _Km, m=1,2 ..., N _f, as shown in Figure 5; The points N of described DFT conversion _fValue depend on the performance index of transmitter and receiver and the factors such as situation of communication channel, Fig. 5 has just provided a kind of concrete set-up mode, wherein, Fig. 5 represents the frequency expansion sequence α with transmitting terminal _n(1≤n≤N) do segment processing is divided into

Section, if Be not positive integer, the element number of final stage may be less than N so _f, at this moment can adopt some signal processing methods to make signal processing unaffected, described signal processing method can be a tail of sequence zero padding method, also can be casting out, or the like.

Above-mentioned step 4 and step 5 be fixing precedence relationship on the life period not, here just, the convenience that illustrates narrated before for being placed on channel estimation steps with frequency domain despreading step, both carry out simultaneously, also can be successively to carry out according to concrete way of realization.

Described radio frequency processing 3 modules 15 can receive needs according to different receivers and do setting flexibly, and its effect is to make the processing needs that can satisfy late-class circuit through the signal after 15 processing of radio frequency processing 3 modules.

Described synchronization module 20 does not need to limit a certain specific method for synchronous (technology), and its effect provides the back level and handles needed system synchronous information.

Described discrete Fourier transform (DFT) (DFT:Discrete Fourier Transform) module 21 can adopt the discrete Fourier transform (DFT) technology, also can adopt fast fourier transform (FFT:Fast Fourier Transform) technology.

Described channel estimation module 22 does not need to limit a certain specific channel estimation methods (technology), and its effect is to provide channel information for system.

Described channel correction module 23 does not need to limit a certain specific channel correction method (technology), and its effect is to utilize channel information to carry out channel correction to received signal.

Described weight factor δ _Km(m=1,2 ..., N _f) and λ _k(k=0,1 ..., N _t-1) value depends on the merging method that is adopted, and described merging method can be a high specific merging method, also can be the equal gain combining method, or the like.

The time domain despreading processing gain N of described time domain despreading module 24 _tValue depend on the performance index of transmitter and receiver and the factors such as situation of communication channel, time domain spread processing gain N _tCan be to equal

Integer part, also can be to be not equal to

Integer part.

The present invention does not have the processing mode of information bit b (t) in the certain illustrated transmitter, if in transmitter to original information bit done some processing (as, encryption, source encoding, error correction coding, chnnel coding, interweave etc.), in receiver of the present invention, also can in late-class circuit, handle these processing are counter so (decipher, decode, deinterleave etc.), these do not influence the core concept of the method for reseptance of a kind of Direct Sequence Spread Spectrum Signal of the present invention.

The present invention is a kind of method of reseptance of Direct Sequence Spread Spectrum Signal, and it does not have special requirement to the transmitter of Direct Sequence Spread Spectrum Signal.

The course of work of the present invention: as shown in Figure 4, after the signal that reception antenna 6 is received in the receiver is handled through radio frequency processing 3 modules 15, obtain signal r (t), signal r (t) is input to synchronization module 20, synchronization module extracts the needed synchronizing information of receiver (such as time synchronization information, frequency synchronization information etc.) from r (t), synchronization module is exported synchronous control signal ε then, be input to DFT module 21 through the signal r (t) that obtains after the radio frequency processing, and under the assistance of synchronous control signal ε, finish N _fThe DFT conversion of point, output N _fThe road signal, m road signal is X _Km(m=1,2 ..., N _f), X then _KmBy multiplication module 2 and β _Kmδ _KmMultiply each other and obtain Y _Km(m=1,2 ..., N _f), channel estimation module 22 is by the X of input _Km(m=1,2 ..., N _f) carry out channel estimating, output channel information H _Km(m=1,2 ..., N _f), next, signal Y _KmWith signal H _KmTogether be input to channel correction module 23, by signal H _KmTo signal Y _KmCarry out channel correction, proofread and correct back output signal W _Km(m=1,2 ..., N _f), subsequently by 19 couples of signal W of summation module _Km(m=1,2 ..., N _f) doing the summation processing, the result of summation is Z _k(k=0,1 ..., N _l), then with Z _kSend into time domain despreading module 24, time domain despreading module output judgment variables U, last, judgment variables U is input to judging module 14 and adjudicates, the estimated value  (t) of judging module output information bit b (t).

Essence of the present invention: received signal is handled by discrete Fourier transform (DFT) among the present invention, needn't as RAKE receiver, all be furnished with the acquisition and tracking module at each bar branch road, therefore can reduce the complexity of receiving system, can also make full use of all energy of received signal, reduce the influence of disturbing between the footpath, in addition, method of reseptance of the present invention can also carry out channel estimating in the coherence time of channel, make that the channel estimation value confidence level is bigger, the bit error rate performance of whole system is improved.

The receiver system of forming according to the inventive method is compared with existing other Direct Sequence Spread Spectrum Signal receiver system, and following advantage is arranged:

(1) because the present invention does not need be furnished with the acquisition and tracking module for each bar branch road, reduced the complexity of system;

(2) because the present invention adopts fft algorithm, overcome shortcoming not easy of integration when adopting surface acoustic wave (SAW) device or base-band digital matched filter to realize in the RAKE receiver, and the FFT chip technology is quite ripe, helps the integrated realization of system like this;

(3) owing to adopt the FFT technology that signal is received, so the present invention can make full use of all energy of received signal, reduces the influence of disturbing between the footpath, helps the improvement of error rate of system performance;

(4) the present invention carries out N in step 3 _fThe DFT computing of point, and N _fValue can be less than the spread processing in transmitter gain N, with do the DFT computing that N orders in the existing time domain Direct Sequence Spread Spectrum Signal frequency domain equivalent received method and compare, DFT computing of the present invention requires lowly to chip, has reduced overhead, has reduced cost;

(5) the present invention carries out N in step 3 _fThe DFT computing of point, and N _fValue can be less than the spread processing in transmitter gain N, with do the DFT computing that N orders in the existing time domain Direct Sequence Spread Spectrum Signal frequency domain equivalent received method and compare, the pairing time span of signal of the disposable processing of DFT computing of the present invention can be controlled in the coherence time of channel, so just can in the coherence time of channel, carry out channel estimating, improve channel estimated accuracy, helped the improvement of error rate of system performance;

In sum, adopt the method for reseptance of a kind of new Direct Sequence Spread Spectrum Signal proposed by the invention, reduced the complexity of existing Direct Sequence Spread Spectrum Signal receiving system, adopt fft algorithm, utilize ripe FFT chip technology, help the integrated of system, and can make full use of all energy of received signal, reduce the influence of disturbing between the footpath, help the improvement of error rate of system performance.

What specify is, the present invention is to provide a kind of method of reseptance of new Direct Sequence Spread Spectrum Signal, and it has been broken more external major companies (as, U.S. Qualcomm company) and to the monopolization of this field patent, has helped the development of the national communications industry of China.

Accompanying drawing and description of drawings

Fig. 1 is the system model of Direct Sequence Spread Spectrum Signal transmitter

Wherein, the 1st, PN sequencer module, the 2nd, multiplication module, the 3rd, the local carrier module of transmitter, the 4th, radio frequency processing 1 module, the 5th, transmitting antenna, b (t) they are the information bits of emission, α _nBe the frequency expansion sequence element of transmitter, 1≤n≤N, d (t) are through the signal behind the spread spectrum.

Fig. 2 is the system model of RAKE receiver

Wherein, the 6th, reception antenna, the 7th, radio frequency processing 2 modules, the 8th, the local carrier module of receiver, the 2nd, multiplier, the 9th, filter, the 10th, acquisition and tracking, the 1st, PN sequencer, the 11st, integrator, the 12nd, combiner, the 13rd, RAKE receiver, the 14th, judgement, y (t) is the signal through filter module 9 outputs, τ _l(1≤l≤L) is the system synchronization signal of acquisition and tracking module output, α _{τ l}(1≤l≤L) is the despreading sequence of PN sequencer output, x _l(1≤l≤L) is through the signal of exporting behind the multiplier, w _l(1≤l≤L) is the weight factor of each branch road, and  (t) is the estimated value to the information bit b (t) of emission.

Fig. 3 is the system model of time domain Direct Sequence Spread Spectrum Signal frequency domain equivalent received

Wherein, the 6th, reception antenna, the 15th, radio frequency processing 3 modules, the 16th, DFT, 17 are based on the channel estimating of guiding, and the 2nd, multiplier, the 18th, the channel correction module, the 19th, summation module, the 14th, judging module, r (t) is the signal of radio frequency processing 3 outputs, X _m(1≤m≤N) is the output signal of DFT module, β _m(1≤m≤N) is the frequency domain despreading factor, Y _m(1≤m≤N) is the output signal of multiplication module, H _m(1≤m≤N) is based on the output signal of the channel estimation module of guiding, W _m(1≤m≤N) is the output signal of channel correction module, and U is the output signal of summation module, and  (t) is the estimated value to the information bit b (t) of emission.

Fig. 4 is a receiver system model of the present invention

Wherein, the 6th, reception antenna, the 15th, radio frequency processing 3, the 20th, synchronization module, the 21st, DFT module, the 22nd, channel estimation module, the 2nd, multiplication module, the 23rd, channel correction module, the 19th, summation module, the 24th, time domain despreading module, the 14th, judging module, r (t) is the signal of radio frequency processing 3 outputs, and ε is the output signal of synchronization module, X _Km(1≤m≤N _f) be the output signal of DFT module, β _Km(1≤m≤N _f) be the frequency domain despreading factor, δ _Km(1≤m≤N _f) be weight factor, Y _Km(1≤m≤N _f) be the output signal of multiplication module, H _Km(1≤m≤N _f) be the output signal of channel estimation module, W _Km(1≤m≤N _f) be the output signal of channel correction module, Z _k(0≤k≤N _t-1) be the output signal of summation module, U is the output signal of time domain despreading module, and  (t) is the estimated value to the information bit b (t) of emission.

Fig. 5 is the schematic diagram of the frequency expansion sequence segmentation method of transmitter among the present invention

Wherein, T is the shared time of an information bit b (t), T _cBe the time that chip shared of information bit b (t) through the signal d (t) of spread spectrum, α _n(1≤n≤N) is the element of transmitter frequency expansion sequence, and N is the direct sequence spread spectrum processing gain, N _fBe the processing gain of frequency domain despreading, k is the sequence number sign with each section after the segmentation of transmitter frequency expansion sequence.Fig. 6 is a parameter beta among the present invention _K1, β _K2..., β _KNfThe production method schematic diagram

Wherein, the 21st, DFT processing module, α _KNf+m(1≤m≤N _f, 0≤k≤N _t-1) is m element of k section in the transmitter frequency expansion sequence, β _Km(1≤m≤N _f, 0≤k≤N _t-1) is α _KNf+m(1≤m≤N _f, 0≤k≤N _l-1) through the output signal after the DFT processing.

Fig. 7 is a kind of concrete processing mode of time domain despreading module

Wherein, the 24th, time domain despreading module, Z _k(0≤k≤N _t-1) is the output signal of summation module, λ _k(0≤k≤N _l-1) be weight factor, U is the output signal of time domain despreading module.

Embodiment

The receiver system that Direct Sequence Spread Spectrum Signal method of reseptance of the present invention is formed, as shown in Figure 4, comprising: reception antenna 6, radio frequency processing 3 modules 15, synchronization module 20, DFT module 21, channel estimation module 22, multiplication module 2, channel correction module 23, summation module 19, time domain despreading module 24, judging module 14.

Below with transmitter spreading gain N=128, frequency domain despreading processing gain N _f=16, time domain despreading processing gain N _t=8, etc. the gain weight factor delta _Km(m=1,2 ..., N _f) and λ _k(k=0,1 ..., N _l-1) all value is 1, adopts the fast algorithm FFT of DFT, and carrying out channel estimating by pilot sequence is example, and signal processing step of the present invention is described.

The signal that step 1 radio frequency processing step reception antenna 6 is received obtains signal r (t) after handling through radio frequency processing 3 modules 15, and the purpose of radio frequency processing makes signal r (t) can satisfy the processing requirements of late-class circuit exactly;

Step 2 synchronizing step is input to synchronization module 20 with the signal r (t) of step 1 output, synchronization module 20 extracts the needed synchronizing information of receiver from signal r (t), described synchronizing information can be time synchronization information, frequency synchronization information etc., then synchronization module 20 output synchronous control signal ε;

It is characterized in that it also comprises following step:

The synchronous control signal ε that signal r (t) that obtains after step 3 discrete Fourier transform (DFT) treatment step process step 1 radio frequency processing and process step 2 obtain all is input in discrete Fourier transform (DFT) (DFT:Discrete FourierTransform) module 21, here we adopt the fast algorithm FFT of DFT to realize, discrete Fourier transform module 21 is finished and counted is 16 FFT conversion, through output 16 road signals after the FFT conversion, wherein m road signal is X _Km, m=1,2 ..., 16, k=0,1 ..., 7;

The m road signal X of step 4 frequency domain despreading step step 3 output _KmBy multiplication module 2 and β _Kmδ _KmMultiply each other and obtain Y _Km, carry out the signal frequency-domain despreading and handle β _KmRepresent the frequency domain despreading factor, m=1,2 ..., 16, k=0,1 ..., 7, wherein, { β _K1, β _K2..., β _K16Be by { α _16k+1, α _16k+2..., α _16k+16Resulting through 16 FFT conversion, as shown in Figure 6; δ _Km=1 is the weight factor on m road, m=1, and 2 ..., 16, k=0,1 ..., 7;

The signal X that step 5 channel estimation steps obtains step 3 _KmBe input to channel estimation module 22, carry out channel estimating according to pilot sequence, output channel information H by channel estimation module _Km, m=1,2 ..., 16, k=0,1 ..., 7;

The signal Y that step 6 channel correction step obtains step 4 _KmThe signal H that obtains with step 5 _KmTogether be input to channel correction module 23, by signal H _KmTo signal Y _KmCarry out channel correction, proofreading and correct the back output signal is W _Km, m=1,2 ..., N _f, k=0,1 ..., 7;

Each road signal that step 7 summation step obtains step 6 is done summation by summation module 19 and is handled, and the signal of summation back output is Z _k, k=0,1 ..., 7;

The signal Z that step 8 time domain despreading step obtains step 7 _kBe input to time domain despreading module 24 and be time domain despreading processing, the processing gain N during the time domain despreading _t=8, weight factor λ _k=1, k=0,1 ..., 7, the signal that obtains after the time domain despreading is U;

The signal U that step 9 decision steps obtains step 8 is input to judging module 14 and adjudicates, the estimated value  (t) of judgement back output information bit b (t).

Through after the above step, just can finish reception and despreading to Direct Sequence Spread Spectrum Signal, obtain the estimated value  (t) of the information bit b (t) of transmitting terminal at receiving terminal.

According to the method for reseptance that the specific embodiment of the invention provides, can reduce the complexity of existing receiving system, more make full use of all energy of received signal, reduce the influence of disturbing between the footpath, the bit error rate performance of whole system is improved.

Claims (6)

1, a kind of method of reseptance of Direct Sequence Spread Spectrum Signal comprises following step:

The signal that step 1 radio frequency processing step reception antenna (6) is received obtains signal r (t) after handling through radio frequency processing 3 modules (15), and signal r (t) can satisfy the processing requirements of late-class circuit;

Step 2 synchronizing step is input to synchronization module (20) with the signal r (t) of step 1 output, synchronization module (20) extracts the needed synchronizing information of receiver from signal r (t), described synchronizing information can be time synchronization information, frequency synchronization information etc., then synchronization module (20) output synchronous control signal ε; It is characterized in that it also comprises following step:

The synchronous control signal ε that signal r (t) that obtains after step 3 discrete Fourier transform (DFT) treatment step process step 1 radio frequency processing and process step 2 obtain all is input in the discrete Fourier transform module (21), and discrete Fourier transform module (21) is finished to count and is N _fThe DFT conversion, N _fBe the processing gain of receiver when Direct Sequence Spread Spectrum Signal is carried out the frequency domain despreading, N _fValue can be according to the concrete needs setting of the situation and the communication system of communication channel;

The m road signal X of step 4 frequency domain despreading step step 3 output _KmBy multiplication module (2) and β _Km, δ _KmProduct β _Kmδ _KmMultiply each other and obtain Y _Km, carry out the signal frequency-domain despreading and handle β _KmRepresent the frequency domain despreading factor, m=1,2 ... N _f, $k=\mathrm{0,1},...,\frac{N}{N_f}-1,$ Wherein, { β _K1, β _K2..., β _KNfBe by { α _KNf+1, α _KNf2..., α _KNf-NfThrough N _fThe DFT conversion of point is resulting; δ _KmBe the weight factor on m road, m=1,2 ..., N _f, k=0,1 ..., N _t

The signal X that step 5 channel estimation steps obtains step 3 _KmBe input to channel estimation module (22), by channel estimation module output channel information H _Km, m=1,2 ..., N _f

The signal Y that step 6 channel correction step obtains step 4 _KmThe signal H that obtains with step 5 _KmTogether be input to channel correction module (23), by signal H _KmTo signal Y _KmCarry out channel correction, proofreading and correct the back output signal is W _Km, m=1,2 ..., N _f

Each road signal that step 7 summation step obtains step 6 is done summation by summation module (19) and is handled, and the signal of summation back output is Z _k

The signal Z that step 8 time domain despreading step obtains step 7 _kBe input to time domain despreading module (24) and do time domain despreading processing, the signal that obtains after the time domain despreading is U;

The signal U that step 9 decision steps obtains step 8 is input to judging module (14) and adjudicates, the estimated value of judgement back output information bit b (t)

Through after the above step, just can finish reception and despreading to Direct Sequence Spread Spectrum Signal, obtain the estimated value of the information b (t) of transmitting terminal at receiving terminal

2, the method for reseptance of a kind of new Direct Sequence Spread Spectrum Signal according to claim 1 is characterized in that the processing gain N when described receiver carries out the frequency domain despreading to Direct Sequence Spread Spectrum Signal _fValue mode, can be that the frequency expansion sequence (length is N) with transmitting terminal is divided into

Section contains N in each section _fThe element of individual frequency expansion sequence, the alphabetical k of the sequence number of each section $(k=\mathrm{0,1},...,\frac{N}{N_f}-1)$ Identify, after the DFT conversion, export N _fThe road signal, wherein m road signal is X _Km, m=1,2 ..., N _fIf

Be not positive integer, the element number of final stage may be less than N so _f, at this moment can adopt some signal processing methods to make signal processing unaffected, described signal processing method can adopt tail of sequence zero padding method, also can adopt casting out.

3, the method for reseptance of a kind of new Direct Sequence Spread Spectrum Signal according to claim 1 is characterized in that described discrete Fourier transform module 21 can adopt the discrete Fourier transform (DFT) technology, also can adopt fast Fourier transform techniques.

4, the method for reseptance of a kind of new Direct Sequence Spread Spectrum Signal according to claim 1 is characterized in that described weight factor δ _Km(m=1,2 ..., N _f) and λ _k(k=0,1 ..., N _t-1) value depends on the merging method that is adopted, and described merging method can be a high specific merging method, also can be the equal gain combining method.

5, the method for reseptance of a kind of new Direct Sequence Spread Spectrum Signal according to claim 1 is characterized in that described time domain despreading mode, can be by to Z _kBeing weighted the signal U after the output time domain despreading that adds up, wherein N _tProcessing gain when representing the time domain despreading, λ _kRepresent the weight factor of k section.

6, the method for reseptance of a kind of new Direct Sequence Spread Spectrum Signal according to claim 1 is characterized in that the time domain despreading processing gain N of described time domain despreading module 24 _tValue depend on the performance index of transmitter and receiver and the factors such as situation of communication channel, time domain spread processing gain N _tCan be to equal

Integer part.

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