CN1649290A - Space-time spectrum extending method and circuit using generalized complementary matching filter - Google Patents

Abstract

This invention relates to space time spread spectrum CDMA system applying a generalized complement and matched filter. At the emit end, the base-band signals are expanded to two paths of same synchronous data streams, a pair of mutual orthogonal spread frequency codes c1, and c2 are applied its form two paths of synchronous spread frequency signals are emitted by two antennas applying same carrier frequencies after RF modulation. At the mobile station receiving end, one antenna is applied to receive emit signals to get base-band signals via front end RF process to be sent to different filter sets separately, corresponding to c1 and c2 separately, which de-spreads the received signals to acquire the sum of two paths of initial de-spread signals to recover the original data after judgment.

Description

Adopt the space-time spectrum extending method and the circuit of generalized complementary matching filter

Technical field

The present invention relates to the space-time spectrum extending method and the related circuit of cdma mobile communication base station transmitter and travelling carriage reception technique, especially cdma mobile communication.

Background technology

Existing C DMA system down link, the receiver of each travelling carriage use a matched filter that the spread spectrum signal that receives is separated spread spectrum and handle.The matched filter that each user uses in CDMA sub-district direct sequence (direct sequence-DS) spread-spectrum codes exclusive with each user is corresponding, is different from the spread-spectrum codes of other all community users; And at existing C DMA system up-link, the base station adopts the matched filter banks of one group of multidiameter delay to detect different mobile stations user's spread spectrum signal, referring to: Xiao Yang, Wang Yachen, Hu Shaohai, reach the clouds in the Shandong, adopt the performance of cdma system under the multi-user multi-path condition of space-time spectrum extending technology, electronics and information journal, 2004,26 (12): 1944-1950.

Usually exist time dispersive and frequency dispersion phenomenon in the cdma mobile communication channel, autocorrelation and different spread-spectrum codes the cross correlation all postpone under of same spread-spectrum codes under difference postpones, these factors have all caused complicated signal fadeout, intersymbol interference and multiple access to disturb, and have increased the realization difficulty of CDMA mobile station receiver.It then is the main interference mode of cdma system community user that multiple access under the multi-user multi-path situation disturbs.

The multipath that the space-time spectrum extending transmit diversity techniques that has proposed at present can resist in the cdma system to a certain extent disturbs, existing problem is: (1) travelling carriage need carry out modeling to the dynamic frequency selective channel, this realizes bringing very big difficulty for the technology of travelling carriage, has increased travelling carriage cost and volume.(2) two time slots, odd and even data stream spread spectrum are adopted in the base station, have reduced transmission rate and the realization complexity that has increased receiver circuit.(3) along with increase, error rate of system performance and the signal interference ratio performance rapid deterioration of user in the sub-district.

Summary of the invention

The space-time spectrum extending method of employing generalized complementary matching filter disclosed by the invention and circuit can effectively solve multi-user interference and the multipath interference problem under the mobile communication environment.Be different from existing cdma system, the present invention uses in the base station and enjoys a double blessing to antenna, travelling carriage uses common single omnidirectional antenna, base station transmitter is to the Walsh sign indicating number spread spectrum that baseband signal is mutually orthogonal with two, length is L of each travelling carriage, produce two-way quadrature spread spectrum signal, two transmitting antennas by the base station are sent to travelling carriage respectively.The generalized complementary matching filter constructive method of mobile station receiver of the present invention is: two matched filters use the Walsh sign indicating number of identical with the base station mutually orthogonal, length as L, received signal is by the despreading respectively of two matched filters, and summation reconvicts after the despreading.The generalized complementary matching filter of travelling carriage can carry out the time diversity matched filtering to received signal.Because the output of the generalized complementary matching filter of travelling carriage has stronger auto-correlation selectivity characteristic to this user's signal, and being had complementation at random, other user's signal offsets characteristic, so effectively cancellation multi-user and multipath disturb, reduce error rate of system, improve the availability of frequency spectrum simultaneously, reduce the transmitting power of cdma base station.

Implementation of the present invention is:

Adopt the cdma system space-time spectrum extending method of generalized complementary matching filter, this cdma system comprises the travelling carriage of at least one base station and a plurality of and base station communication, and wherein, the base station generates according to following steps and transmits:

1) baseband signal to each user adopts mutually orthogonal Walsh sign indicating number (c respectively ₁And c ₂) carry out spread spectrum, obtain the two-way spread spectrum signal, further carry out rf modulations respectively, obtain the t that transmits ₁And t ₂

2) base station is by two antennas t that transmits respectively ₁And t ₂

Travelling carriage obtains restoring data according to following steps:

3) adopt an omnidirectional antenna received signal, handle obtaining the base band spread spectrum signal and being extended to two same signals through front radio-frequency;

4) adopt a pair of and c ₁Corresponding matched filter MF11 of sign indicating number and MF12, the two phase place difference, c respectively to receiving ₁Two main footpath signal despreadings of code channel signal obtain two initial despread signal in path, merge this two paths signal and obtain c ₁The initial despread signal of code channel; Similar, with another to c ₂Corresponding matched filter MF21 of sign indicating number and MF22 are to c ₂The despreading of code channel signal also finally obtains c ₂The initial despread signal of code channel;

5) with c ₁Code channel and c ₂Initial despread signal stack of code channel and detection, judgement obtain restoring data.

In step 4), with c ₁The corresponding matched filter MF11 of sign indicating number and MF12 and and c ₂Sign indicating number corresponding matched filter MF21 and MF22 constitute the generalized complementary matching filter of mobile station receiver of the present invention, and constructive method is: matched filter MF11 and MF21 use the Walsh sign indicating number c of identical with the base station mutually orthogonal, length as L ₁And c ₂The first main footpath time-delay, matched filter MF12 and MF22 use the Walsh sign indicating number c of identical with the base station mutually orthogonal, length as L ₁And c ₂The second main footpath time-delay, received signal is by the despreading respectively of four matched filters, summation reconvicts after the despreading.

Different with existing C DMA system, the present invention is based on the space-time spectrum extending method of generalized complementary matching filter, base station transmitter and mobile station receiver all use two quadrature Walsh sign indicating numbers, and two matched filter is to obtain required auto-correlation and cross-correlation generalized complementary characteristic.

The beneficial effect that is had compared with prior art:

Different with existing space-time spectrum extending cdma system scheme, cdma system of the present invention base station only need be used two and be enjoyed a double blessing to antenna, and travelling carriage uses single omnidirectional antenna.The base station adopts the present invention that multi-user's data flow is carried out biorthogonal spread spectrum transmit diversity in base band, the single antenna travelling carriage adopts generalized complementary matching filter of the present invention to receive data can obtain diversity gain, significantly improves the information transmission quality of wireless communication system on the whole.In addition, different with existing space-time spectrum extending cdma system scheme, adopt the solution of the present invention, travelling carriage generalized complementary matching filter restoring data, do not need to carry out matrix operation, only need follow the tracks of and synchronous two main footpath signals, the initial despread signal summation of two-way obtains despread signal.The mobile station receiver circuit is realized simple, and then reduces the travelling carriage volume and save cost.

Description of drawings

Fig. 1 is base station diversity circuit of the present invention and mobile station receiver circuit theory diagrams

Fig. 2 is base station diversity circuit figure of the present invention.

Fig. 3 is the flow chart of base station applies cdma system space-time spectrum extending method of the present invention among Fig. 1.

Fig. 4 is a mobile station receiver circuit diagram of the present invention.

Fig. 5 is the flow chart that travelling carriage is used cdma system space-time spectrum extending method of the present invention among Fig. 3.

Fig. 6 is the travelling carriage ber curve figure that adopts in the cdma system of the present invention.

Fig. 7 is the travelling carriage ber curve figure that does not adopt in the cdma system of the present invention.

Embodiment

The present invention will be described in detail below by accompanying drawing.

With reference to Fig. 1, the present invention is the space-time spectrum extending method to the cdma system down link.System of the present invention comprises base station and a plurality of travelling carriage, and there are two omnidirectional antennas the base station, and each travelling carriage has only an omnidirectional antenna.

(1) the cdma system base station transmitter of employing generalized complementary matching filter space-time spectrum extending method

The base station is carried out transmit diversity to each customer traffic b in base band, and its transmitting diversity circuit comprises, frequency mixer M1, M2 and modulator MD1 and MD2.With reference to Fig. 2, the present invention uses two spread-spectrum codes to the space-time spectrum extending of cdma system down link to each user's data stream.

In conjunction with Fig. 2 and Fig. 3, the cdma base station transmitter to the step that each customer traffic b carries out Base-Band Processing is:

1) step S11: the Walsh sign indicating number that to adopt two mutually orthogonal length be L to carrying out spread spectrum according to stream b, obtains spread spectrum signal bc respectively ₁And bc ₂

2) step S12: adopt modulator MD1 and MD2 respectively to base band spread spectrum signal bc ₁And bc ₂Carry out rf modulations and obtain the t that transmits ₁And t ₂

3) step S13: adopt two antennas t that transmits respectively ₁And t ₂

Spread-spectrum codes c ₁And c ₂Can regard the real vector of unit as, and have $c_i^H{c}_j={\mathrm{\δ}}_{\mathrm{ij}}(i,j\∈[\mathrm{1,2}\left]\right),$ " H " represents complex-conjugate transpose.

t ₁＝bc ₁ (1)

t ₂＝bc ₂

Above-mentioned is handling process in the cdma base station baseband circuit.

(2) the cdma system mobile station receiving circuit of employing generalized complementary matching filter space-time spectrum extending method

Below in conjunction with Fig. 4 and Fig. 5, introduce the processing to received signal of CDMA mobile station receiver circuit.Under multipath fading, suppose that the channel from base station transmit antennas to the travelling carriage reception antenna comprises J different path.The J paths that comes out from m bay in the base station is used channel parameter h through independently Rayleigh fading _MjExpression (m=1,2, j=1,2......J).Particularly, the channel fading channel parameter h of the signal of first antenna emission _1jExpression; The channel fading channel parameter h of the signal of second antenna emission _2jExpression.Travelling carriage is estimated fading channel and multipath delay according to the downward guide signal that the base station sends.

The mobile station receiving circuit baseband portion embodiment of employing generalized complementary matching filter space-time spectrum extending method of the present invention is: two groups of matched filters that received signal is imported respectively and connect carry out despreading, the initial despread signal of two-way is sent into the adder stack and is obtained final despread signal, despread signal is sent into decision device, recovers primary signal.

The mobile station receiver circuit comprises matched filter MF11, MF12, MF21 and MF22, and wherein the above two are one group, and both are another group for the back, adder A1, A2 and A3.

The base station is from the t that transmits of first and second antenna transmission ₁, t ₂, respectively through multipath fading h ₁, h ₂After, the signal that obtains at the travelling carriage receiving terminal is

$r=\sqrt{\mathrm{\ρ}}(\underset{j=1}{\overset{J}{\mathrm{\Σ}}}{h}_{1j}b{c}_{1j}+\underset{j=1}{\overset{J}{\mathrm{\Σ}}}{h}_{2j}b{c}_{2j})+v=\sqrt{\mathrm{\ρ}}{C}_1{h}_{1}b+\sqrt{\mathrm{\ρ}}{C}_2{h}_{2}b+n---\left(2\right)$

Wherein, C _l=[c _L1..., c _LJ], h _l=[h _L1..., h _LJ] ^T, l ∈ 1,2}; N is multi-user interference and interchannel noise sum for disturbing vector, represents the expectation SNR (signal to noise ratio) of each multipath component with ρ, $\mathrm{\&rho;}=1/{\mathrm{\&sigma;}}_{\mathrm{<figure-callout\; id="2"\; label="v"\; filenames="A20051001129800121.png"\; state="\{\{state\}\}">v</figure-callout>}}^2.$

Travelling carriage carries out following processing by an omnidirectional antenna (as shown in Figure 3) received signal r:

1) step S21: adopt two groups and spread-spectrum codes c ₁And c ₂Corresponding matched filter banks is carried out spread spectrum to two paths of data respectively, obtains the initial spread spectrum signal of two-way;

Though MF11 and MF12 all with c ₁Corresponding, but and c ₁The phase place difference, two main footpaths of adopting amplitude in the multipath reception signal or energy maximum respectively are c down ₁Phase place (travelling carriage is estimated multipath delay according to the downward guide signal that the base station sends, need not the estimated path decay factor, only need relatively calculate the time of delay in two the strongest main footpaths, thereby obtain postponing the spread-spectrum codes phase place, different different time of delay of phase place representative, this moment is through the c of different time of delays ₁Become c ₁₁And c ₁₂); In like manner, MF21 and MF22 respectively corresponding c ₂Amplitude or two inhibit signal c of energy maximum ₂₁And c ₂₂

Received signal r is respectively at filter MF11 and the spread-spectrum codes c of MF12 with the different delays of process ₁Relevant, output despread signal d ₁₁And d ₁₂, d ₁₁And d ₁₂Obtain initial despread signal d in accumulator A1 summation ₁=d ₁₁+ d ₁₂In like manner, obtain initial despread signal d after the processing of received signal r through filter MF21 and MF22 ₂=d ₂₁+ d ₂₂, d ₁₁, d ₁₂, d ₂₁And d ₂₂Mathematic(al) representation be respectively

$d_{11}=c_{11}^{H}r=\sqrt{\mathrm{\&rho;}}{R}_{11}{h}_{11}b+c_{11}^H{n}_{11}$

${\mathrm{<figure-callout\; id="12"\; label="d"\; filenames="A20051001129800101.png"\; state="\{\{state\}\}">d</figure-callout>}}_{12}=c_{12}^{H}r=\sqrt{\mathrm{\&rho;}}{R}_{12}{h}_{12}b+c_{12}^{\mathrm{<figure-callout\; id="12"\; label="H\; n"\; filenames="A20051001129800101.png"\; state="\{\{state\}\}">H</figure-callout>}}{n}_{}{}_{12}$

${\mathrm{<figure-callout\; id="21"\; label="d"\; filenames="A20051001129800101.png"\; state="\{\{state\}\}">d</figure-callout>}}_{21}=c_{21}^{H}r=\sqrt{\mathrm{\&rho;}}{R}_{21}{h}_{21}b+c_{21}^{\mathrm{<figure-callout\; id="21"\; label="H\; n"\; filenames="A20051001129800101.png"\; state="\{\{state\}\}">H</figure-callout>}}{n}_{}{}_{21}$

${\mathrm{<figure-callout\; id="22"\; label="d"\; filenames="A20051001129800101.png"\; state="\{\{state\}\}">d</figure-callout>}}_{22}=c_{22}^{H}r=\sqrt{\mathrm{\&rho;}}{R}_{22}{h}_{22}b+c_{22}^{\mathrm{<figure-callout\; id="22"\; label="H\; n"\; filenames="A20051001129800101.png"\; state="\{\{state\}\}">H</figure-callout>}}{n}_{}{}_{22}$

Here $R_{11}=c_{11}^H{c}_{11},{\mathrm{<figure-callout\; id="12"\; label="R"\; filenames="A20051001129800101.png"\; state="\{\{state\}\}">R</figure-callout>}}_{12}=c_{12}^{\mathrm{<figure-callout\; id="12"\; label="H\; c"\; filenames="A20051001129800101.png"\; state="\{\{state\}\}">H</figure-callout>}}{c}_{}{}_{12},{\mathrm{<figure-callout\; id="21"\; label="R"\; filenames="A20051001129800101.png"\; state="\{\{state\}\}">R</figure-callout>}}_{21}=c_{21}^{\mathrm{<figure-callout\; id="21"\; label="H\; c"\; filenames="A20051001129800101.png"\; state="\{\{state\}\}">H</figure-callout>}}{c}_{}{}_{21}{,\mathrm{<figure-callout\; id="22"\; label="R"\; filenames="A20051001129800101.png"\; state="\{\{state\}\}">R</figure-callout>}}_{22}=c_{22}^{\mathrm{<figure-callout\; id="22"\; label="H\; c"\; filenames="A20051001129800101.png"\; state="\{\{state\}\}">H</figure-callout>}}{c}_{}{}_{22},$ And n ₁₁, n ₁₂, n ₂₁, n ₂₁Be interference and the noise sum in each matched filter output.

2) step S22: with the initial despread signal stack of two-way, obtain final despread signal d, send into follow-up decision circuit judgement, decision method is: if d＞0, restoring data bit b=1, otherwise restoring data bit b=0.

Adopt the link simulation checking to adopt the validity of the space-time spectrum extending technology of generalized complementary matching filter, simulated conditions: there is a base station sub-district, 128 online travelling carriages; The base station sends data 10 ⁵Bit is surveyed the bit error rate that travelling carriage receives data, with it with do not adopt a single aerial system performance of this technology to compare; Emulation does not add the channel error correction coding/decoding; The spread-spectrum codes c that base station and travelling carriage use ₁And c ₂Be that length is 256 quadrature Walsh sign indicating number; Generalized complementary matching filter is only followed the tracks of synchronous two main multipaths, c ₁And c ₂Through the form after the multipath channel delay is C ₁=[c ₁₁c ₁₂], C ₂=[c ₂₁c ₂₂], postpone to get 10 chips.Fading channel is at random.

Fig. 6 adopts the link simulation result of the error rate of cdma system of the present invention with the SNR (signal interference ratio) of expectation, and Fig. 7 represents not adopt the link simulation result of the error rate of cdma system of the present invention with the SNR of expectation.

As can be seen, when the error rate be 2 * 10 ^-2The time, the SNR that has adopted cdma system of the present invention is than not adopting the system SNR of this technology to increase 3dB.

Effect comparison by Fig. 6 and Fig. 7, illustrate that generalized complementary matching filter space-time spectrum extending method of the present invention is effective: under identical spread-spectrum codes length and identical number of users condition, use each mobile subscriber of cdma system of the present invention to reduce the error rate of system, improved communication quality.

Though above described the present invention by embodiment, those of ordinary skills know, the present invention has many distortion and variation and does not break away from spirit of the present invention, appended claim will comprise these distortion and variation.

Claims (8)

1. cdma system space-time spectrum extending method that adopts generalized complementary matching filter, this cdma system comprises the travelling carriage of at least one base station and a plurality of and base station communication, it is characterized in that,

The base station is transmitted according to following steps:

1) adopt mutually orthogonal spreading code respectively data stream spread spectrum to be formed the two-way spread-spectrum signal to each user's data stream;

2) with the spread-spectrum signal modulation, obtain the t that transmits ₁And t ₂

3) base station is by two antennas t that transmits respectively ₁And t ₂

Travelling carriage obtains restoring data according to following steps:

4) baseband signal that receives is adopted the despreading respectively of two groups of matched filters, and with the superimposed initial despread signal of two-way that obtains of despread signal of same group of matched filter output;

5) initial despread signal strict synchronism of two-way and merging are obtained final despread signal;

6) final despread signal is sent into the detection judgement, obtained restoring data.

2. the cdma system space-time spectrum extending method of employing generalized complementary matching filter as claimed in claim 1 is characterized in that, in the step 1), mutually orthogonal spread-spectrum codes c is used to each mobile subscriber's data flow in the base station ₁And c ₂Spread spectrum, and by two antennas of base station t that transmits respectively ₁And t ₂

3. the cdma system space-time spectrum extending method of employing generalized complementary matching filter as claimed in claim 1 is characterized in that, in the step 4) travelling carriage need not to estimate and the two antennas emissions in base station between channel parameter h ₁And h ₂, only need intensity or the maximum main footpath of energy signal in the contrast selective reception signal, and synchronous with it, and its method is: the spread-spectrum codes c that matched filter MF11 and MF12 and base station send ₁Two main time delayed signal c ₁₁And c ₁₂Synchronously, the spread-spectrum codes c of matched filter MF21 and MF22 and base station transmission ₂Two main time delayed signal c ₂₁And c ₂₂Synchronously.

4. the cdma system space-time spectrum extending method of employing generalized complementary matching filter as claimed in claim 2, it is characterized in that, the synchronous implementation method of the spread-spectrum codes that travelling carriage matched filter MF11, MF12, MF21 and MF22 and base station send is that travelling carriage is estimated multipath delay according to the downward guide signal that the base station sends, need not the estimated path decay factor, only need relatively calculate the time of delay in two the strongest main footpaths, thereby obtain postponing the spread-spectrum codes phase place, different different time of delay of phase place representative.

5. the cdma system space-time spectrum extending method of employing generalized complementary matching filter as claimed in claim 1, it is characterized in that, step 5) matched filter MF11 and MF12 output summation, matched filter MF21 and MF2 output summation, its function is disturbed and interchannel noise for offseting multiple access.

6. the cdma system space-time spectrum extending method of employing generalized complementary matching filter as claimed in claim 1 is characterized in that, decision method is if final despread signal d=d in the step 6) ₁+ d ₂＞0, restoring data bit b=1, otherwise restoring data bit b=0.

7. the cdma system space-time spectrum extending method of employing generalized complementary matching filter as claimed in claim 2 is characterized in that, final despread signal d=d ₁+ d ₂Middle d ₁And d ₂Acquisition methods be to obtain initial despread signal d after the processing through filter MF11 and MF12 ₁₁And d ₁₂, obtain initial despread signal d in accumulator A1 summation ₁=d ₁₁+ d ₁₂In like manner, obtain initial despread signal d after the processing through filter MF21 and MF22 ₂₁And d ₂₂, obtain initial despread signal d in accumulator A21 summation ₂=d ₂₁+ d ₂₂, d wherein ₁₁, d ₁₂, d ₂₁And d ₂₂Mathematic(al) representation be respectively

$d_{11}=c_{11}^{H}r=\sqrt{\mathrm{\&rho;}}{R}_{11}{h}_{11}b+c_{11}^H{n}_{11}$

$d_{12}=c_{12}^{H}r=\sqrt{\mathrm{\&rho;}}{R}_{12}{h}_{12}b+c_{12}^H{n}_{12}$

$d_{21}=c_{21}^{H}r=\sqrt{\mathrm{\&rho;}}{R}_{21}{h}_{21}b+c_{21}^H{n}_{21}$

$d_{22}=c_{22}^{H}r=\sqrt{\mathrm{\&rho;}}{R}_{22}{h}_{22}b+c_{22}^H{n}_{22}.$

8. the cdma system space-time spectrum extending method of employing generalized complementary matching filter as claimed in claim 1, it is characterized in that, the travelling carriage of cdma system only has an omnidirectional antenna, in order to received signal and be input to RF processing unit, but this travelling carriage has 4 matched filter MF11 and MF12 and MF21 and MF22, handles received signal.

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