CN1694372A - Construction and receiving method of superwide band pulse wave signal - Google Patents

Abstract

This invention discloses a structure of a super-wide band pulse waveform signal and receive method, which sets up a pulse first, then compresses said pulse for times then carries out translation on time finally to weigh the original waveform and compressed waveform to make up of a new combined waveform to transmit data in terms of the present super wide band wireless communication way, besides, various modulations and multiple address ways are added.

Description

A kind of building method of superwide band pulse wave signal and method of reseptance

Technical field:

The present invention relates to the wireless communication technology of a kind of ultra broadband (Ultra Wide-Band), be specifically related to a kind of structure and method of reseptance of superwide band pulse wave signal.

Background technology:

The generation that is applied to radar and the super-broadband tech of communicating by letter can be traced back to the sixties in 20th century.Since the restriction of technology and industrial development level, the super-broadband tech slower development.The U.S. has developed multiple super wideband wireless telecommunication, radar, imaging and high-accuracy position system since the mid-90 in 20th century, and communication location, communication radar etc. have the radio ultra wide band system of comprehensive function.Ultra-wide band radio systems as army and government department's special equipment has obtained practical application.But up to 1993, the Scholtz of American South University of California communication science research institute publishes thesis on the Armada International communication conference, proved the multiple access technology of modulation when adopting impulse to jump, just opened up the new way of impulse as the radio communication information carrier, it also is one of most important research direction that UWB also becomes the most popular in the communication.UWB (ultra broadband) is an important breakthrough of wireless communication field, and it has broad application prospects at numerous areas such as radar tracking, radio communication (particularly military radio communication, indoor radio communication and individualized WLAN (wireless local area network) etc.), mobile communication, range finding, accurate location.The UWB technology that is in the research and development stage has at present become the human following preferred option that realizes the medium or short range high-speed radiocommunication.Since use the burst transmissions data of nanosecond or subnanosecond level, the non-constant width of the frequency spectrum that ultra broadband takies, and the source of its title just is this.A kind of definition mode of ultra broadband is more than the 500MHz or surpasses the bandwidth of centre frequency more than 25%.As shown in Figure 1, with respect to common communication system, the non-constant width of bandwidth that radio ultra wide band system uses, according to the mountain farming formula that calculates channel capacity in the communication theory: $C={B\log }_2(1+\frac{S}{N}),$ Wide bandwidth means high transmission rate, thereby ultra broadband has the message transmission rate up to tens M～several Gbit/s.Advantages such as the power spectral density of ultra-broadband signal is also low especially, and it is little that this makes that it has power consumption, and safe, equipment is simple, but the difficulty that detects has simultaneously also increased.Transmitted waveform be not both main difference part between UWB and the traditional wireless communication system, UWB not only can be with the sine and cosine carrier wave in the legacy communications system as transmitted waveform, also can be with a series of very sharp-pointed nanosecond or the ultrashort pulse of subnanosecond level as transmitted waveform, come beared information, so UWB is also referred to as impulse radio sometimes.At present the basic pulse that often uses in the ultra-wideband communication system is originate from pulse, Gaussian monocycle pulse, Rayleigh monocycle impulse or a rectangular pulse etc. of Gauss, multiple access (being the multi-user) mode adopts when being mostly to jump (TH) or direct sequence spread spectrum (DS) mode.Wherein time-hopping sequence is a kind of pseudo random sequence, and it mainly contains two effects: the one, differentiate different user; Be the pseudo-randomness smooth spectrum that utilizes sequence more in addition.But a problem that exists in the present super broad band radio communication is owing to different user in the same system uses identical basic pulse, sending under the normalized prerequisite of signal energy, when considering the interference of multi-user and multipath, the energy value of basic pulse auto-correlation function is higher, thereby causes error rate of system also very high.

Summary of the invention:

The building method and the method for reseptance that the purpose of this invention is to provide a kind of superwide band pulse wave signal, to overcome in the existing super broad band radio communication when considering the interference of multi-user and multipath, the energy value of basic pulse auto-correlation function is higher, thus the also very high defective of error rate of system.Technical scheme of the present invention realizes as follows: one, pulse generator 1 sends original burst signal (t), pulse compression delayer 2 carries out original burst signal (t) respectively to be weighted stack with original burst signal (t) after i compression and the time-shifting, thereby forms a combined waveform; Simultaneously, in time-hopping sequence follower 4, finish different time delays with the clock signal that produces by frame information clock 6, generate time-hopping sequence by the time-hopping sequence sign indicating number that time-hopping sequence code generator 3 generates; Two, the information data by information source 7 generations that is input in the transmitted pulse signal former 5 is modulated mutually with combined waveform, finish the informationization of combined waveform, again the time-hopping sequence control information change in being input to transmitted pulse signal former 5 the moment of combined waveform by transmitting antenna 8 emission; Three, receiving terminal pulse generator 11 sends original burst signal (t), receiving terminal pulse compression delayer 12 carries out pulse signal (t) respectively to be weighted stack with original burst signal (t) after i compression and the time-shifting, thereby forms a combined waveform; Simultaneously, by the time-hopping sequence sign indicating number of receiving terminal time-hopping sequence code generator 13 generations and the clock signal deadline delay in receiving terminal time-hopping sequence follower 14 that produces by receiving terminal frame information clock 16, generate time-hopping sequence, the combined waveform that produces in the combined waveform that this step produces and the step 1 is identical, and the time-hopping sequence that produces in the time-hopping sequence of this step generation and the step 1 is identical; Four, combined waveform and time-hopping sequence synthetic template signal in template signal maker 15 is input in the pulse correlation device 19, and it is relevant that template signal and the signal that receives from reception antenna 18 carry out, and obtains the output valve of pulse correlation device 19; Five, the output valve of pulse correlation device 19 input data decision device 20, input information follower 17 after by data decision device 20 information data being reduced.

The present invention changes into information data the positive phase waveform or anti-phase waveform (or the out of Memory modulation system) transmission of combined waveform, because combined waveform is the stack of waveform after original waveform and self the compression translation, both be convenient to realize multiple access (promptly realizing the multi-user of system), and the energy value of the auto-correlation function of combined waveform and cross-correlation function is all very low by change compression, translation coefficient.Do relevant with the template signal that transmits with received signal in receiving terminal usefulness with same waveform as shape, other user's signal is not because waveform and template signal waveform are complete homophases, so can in pulse correlation device 19, not obtain very big result, thereby effectively promote the bit error performance of system.The equipment of the inventive method is realized comparatively simple, only needs a pulse generator (or a few) to produce (or an a few) pulse, again it is carried out in various degree compression and translation, and then a series of superimposed pulses that will obtain gets final product.The generation of pulse can be based on existing pulse generating technique.Compare with existing communication system, the carrier wave that has reduced system produces and link such as mixing, has simplified system configuration; The present invention can realize the control to spectral shape by the change of stacked system and overlaid waveforms, promptly soft spectrum self adaptation (SSA).During combined waveform, the compression of the pulse of adopting is different with stacked system, and obvious pairing spectral shape also is different.Therefore can reach the purpose of design frequency spectrum by combined waveform, with the coexistence of realization and existing communication system.The present invention is owing to have multiple with the available waveform of the superimposed mode of different wave, and also can be designed to mutually orthogonally between the different wave, therefore also can utilize these a plurality of waveforms to realize that PSM (impulse waveform modulation) joins together to improve jointly the number of users that system can hold with the raising message transmission rate or with other multiple access technology (as TH, DS etc.).That the present invention has is reasonable in design, the advantage of reliable operation, has bigger promotional value.

Description of drawings:

Fig. 1 is the structural representation of embodiment of the present invention one and execution mode two, and Fig. 2 is a ultra broadband spectral range schematic diagram, and Fig. 3, Fig. 4 and Fig. 5 are the schematic diagrames of tectonic association waveform process, and Fig. 6 is the structural representation of embodiment of the present invention three.

Embodiment:

Embodiment one: specify present embodiment below in conjunction with Fig. 1.Present embodiment realizes as follows: one, pulse generator 1 sends original burst signal (t), pulse compression delayer 2 carries out original burst signal (t) respectively to be weighted stack with original burst signal (t) after i compression and the time-shifting, thereby forms a combined waveform; Simultaneously, in time-hopping sequence follower 4, finish different time delays with the clock signal that produces by frame information clock 6, generate time-hopping sequence by the time-hopping sequence sign indicating number that time-hopping sequence code generator 3 generates; Two, the information data by information source 7 generations that is input in the transmitted pulse signal former 5 is modulated mutually with combined waveform, finish the informationization of combined waveform, again the time-hopping sequence control information change in being input to transmitted pulse signal former 5 the moment of combined waveform by transmitting antenna 8 emission; Three, receiving terminal pulse generator 11 sends original burst signal (t), receiving terminal pulse compression delayer 12 carries out pulse signal (t) respectively to be weighted stack with original burst signal (t) after i compression and the time-shifting, thereby forms a combined waveform; Simultaneously, by the time-hopping sequence sign indicating number of receiving terminal time-hopping sequence code generator 13 generations and the clock signal deadline delay in receiving terminal time-hopping sequence follower 14 that produces by receiving terminal frame information clock 16, generate time-hopping sequence, the combined waveform that produces in the combined waveform that this step produces and the step 1 is identical, and the time-hopping sequence that produces in the time-hopping sequence of this step generation and the step 1 is identical; Four, combined waveform and time-hopping sequence synthetic template signal in template signal maker 15 is input in the pulse correlation device 19, and it is relevant that template signal and the signal that receives from reception antenna 18 carry out, and obtains the output valve of pulse correlation device 19; Five, the output valve of pulse correlation device 19 input data decision device 20, input information follower 17 after by data decision device 20 information data being reduced.Pulse correlation device 19 is the devices of quadraturing again after signal that reception antenna 18 is received and template signal multiply each other.The data decision device is that the output valve of correlator is adjudicated, thereby obtains the device of original transmission data message, in the time of in being applied in the TH-BPSK system, is simple zero-crossing comparator, in the time of in being applied in the PSM system, is the maximum decision device.

Embodiment two: the difference of present embodiment and execution mode one is: it also comprises mapper 21, mapper 21 is transferred to transmitted pulse signal former 5 after the binary data of information source 7 outputs is mapped as " 1 " and " 1 ", data decision device 20 is set to the numerical value judgement greater than 0 of pulse correlator 19 outputs is " 0 ", the numerical value judgement less than 0 is " 1 ".Data decision device 20 is exactly a zero-crossing comparator in the present embodiment.So be provided with, " 1 " or " 1 " of mapper 21 outputs and combined waveform multiply each other, and what directly obtain is the combined waveform of positive and anti-phase combined waveform, is beneficial to transmission and demodulation.Other composition is identical with execution mode one with connected mode.Present embodiment is suitable for the TH-BPSK system.As shown in Figure 1, contain N _uIn individual user's the system, what pulse generator 1 produced is according to the concrete designed original pulse (t) of applied environment, and what pulse compression delayer 2 produced is i compression and the different pulse of translation coefficient: (generally speaking, i is " 1 " or " 2 ").These pulses and original pulse stack back form a combined waveform:

Then the signal that this moment, k user sent is:

Wherein, T _fBe a frame duration, or be called pulse-recurrence time, therefore

For the time interval is T _fPulse train.For fear of the colliding pulse that produces because of the multiple access access, each user uses a specific time-hopping sequence c _j ^(k), and have $0\≤c_j^{\left(k\right)}\≤N_h-1.$ T _cBe the lasting time of each time slot, and T _f〉=N _hT _cN _hT _c/ T _fBe illustrated in time T _fIn time scale when allowing to jump. The integer part that z is got in expression; N _sThe umber of pulse that will send for each Bit data. The modulation intelligence that to be k user transmit at the j frame, its corresponding input data the ( ) position.The input traffic of user k is b ₀ ^(k)b ₁ ^(k)b ₂ ^(k),

With the input data The pass be

By (2) formula as seen, need to use N _sThe 1bit data of individual UWB pulse modulation input, k user's input data produce data after the BPSK modulation

Sending pulse with UWB multiplies each other after aerial radiation is gone out.Multipath and signal attenuation are not considered in k user's reception, suppose that noise is an additive white Gaussian noise, and then the signal that receives of reception antenna 18 is

$r\left(t\right)=\underset{k=1}{\overset{N_u}{\mathrm{\Σ}}}{r}^{\left(k\right)}(t-{\mathrm{\τ}}_k)+n\left(t\right)---\left(4\right)$

Wherein, τ _kBe the transmission delay between k subscriber signal emission and the reception, k user's received signal is

N (t) is that bilateral power spectral density is N ₀/ 2 additive white Gaussian noise.The effect of Synchronization Control is that template signal is alignd with received signal.The same Bit data of user k is at N _sBe output as after the frame addition

Of user k Position decision rule is

By changing α _i, β _i,

Value, can obtain different pulse w (t), to adapt to different requirements.Present embodiment just illustrates the building method and the application thereof of this impulse waveform at a kind of concrete system, also can use similarly for the system that adopts other modulation system and multi-access mode.

Embodiment three: specify present embodiment below in conjunction with Fig. 6.The difference of present embodiment and execution mode one is: it also comprises two, quaternary data converter 22, delayer 23, a reverser 24, No. two reversers 25, receiving terminal delayer 26, No. three reversers 27, No. four reversers 28, No. 0 correlator 30, a correlator 31, No. two correlators 32, No. three correlators 33 and four binary data transducers 40, the original burst signal (t) that pulse generator 1 produces is the orthogonal wavelet signal, original burst signal (t) input time delay device 23 back outputs 0 time delayed signal (t), a time delayed signal (t-1) and secondary time delayed signal (t-2), original burst signal (t) input pulse compression delayer 2 back output signal (2t), secondary time delayed signal (t-2) forms one road combined waveform W0 with the superimposed back of signal (2t), secondary time delayed signal (t-2) forms two road combined waveform W1 with the superimposed back of signal (2t) after through the paraphase of a reverser 24, a time delayed signal (t-1) forms three road combined waveform W2 with the superimposed back of 0 time delayed signal (t) after through the paraphase of No. two reversers 25,0 time delayed signal (t) forms four road combined waveform W3 with the superimposed back of a time delayed signal (t-1), one road combined waveform W0, two road combined waveform W1, three road combined waveform W2 and four road combined waveform W3 import four inputs of transmitted pulse signal former 5 respectively, binary information data is input to two from information source 7, be converted into quaternary number behind the quaternary data converter 22 according to being input in the transmitted pulse signal former 5, each number of quaternary number certificate respectively with one road combined waveform W0, two road combined waveform W1, three road combined waveform W2 shine upon mutually with four road combined waveform W3, thereby finish the selection of four kinds of combined waveforms; Reception antenna 18 is input to correlator 30 respectively No. 0 after receiving the signal r (t) of transmitting antenna 8 emission, a correlator 31, in No. two correlators 32 and No. three correlators 33, one road combined waveform W0, two road combined waveform W1, three road combined waveform W2 and four road combined waveform W3 are respectively at No. 0 correlator 30, a correlator 31, after the time-hopping sequence time-delay, do relevant in No. two correlators 32 and No. three correlators 33 with signal r (t), obtain the first correlation W01 respectively, the second correlation W11, third phase pass value W21 and the 4th correlation W31, the first correlation W01, the second correlation W11, third phase pass value W21 and the 4th correlation W31 import in the data decision device 20, data decision device 20 is made the maximum judgement, rule out the pairing way of the highest correlation, restore the binary message data by four binary data transducers 40 again.Described No. 0 correlator 30, correlator 31, No. two correlators 32 and No. three correlators 33 are that relevant device is done with signal r (t) in combined waveform and the time-hopping sequence back that combines.Other step is identical with execution mode one.

For this waveform design method of combined waveform, the equipment of structure different wave is realized comparatively simple, therefore this method can be applied to waveform modulated, present embodiment is selected the quaternary for use, promptly represents quaternary number according to 00 (0), 01 (1), 10 (2), 11 (3) respectively with different waveforms.Each pulse that require to send when being applied to PSM (impulse waveform modulation) should be mutually orthogonal, so needs some extra conditions during the application combination waveform.Promptly require original waveform (t) will have flexible orthogonal property of yardstick and time-shifting orthogonal property, and it seems that at present orthogonal wavelet is a selection that meets this requirement, therefore be that example illustrates flexible orthogonal property of yardstick and time-shifting orthogonal property below with the orthogonal wavelet.

Make that ψ (t) is an orthogonal wavelet, then { ψ must be arranged _{K, j}(t)=2 ^K/2ψ (2 ^kT-j) } _{(k, j) ∈ Z * Z}Be L ²(R) one of the space group of orthonormal basis, flexible orthogonal property of its corresponding yardstick and time-shifting orthogonal property are respectively so:

<ψ _k，j(t)，ψ _m，j(t)>＝δ _k＝m (7)

<ψ _k，j(t)，ψ _k，n(t)>＝δ _j＝n (8)

Get our original waveform (t)=ψ _0,0(t), ψ then _0,0(t), ψ _0,1(t), ψ _0,2(t) ..., ψ _1,0(t), ψ _1,1(t), ψ _1,2(t) ... all being mutually orthogonal, forming a vectorial ψ by the part in above-mentioned a series of functions, when we get fixed orthogonal matrix T, also is mutually orthogonal between each element of the vectorial w=ψ T that obtains.Corresponding to different requirements, as long as the different orthogonal matrix T of design.Provide two examples of this orthogonal matrix T below:

$T=\left[\begin{array}{c}\frac{\sqrt{2}}{2},-\frac{\sqrt{2}}{2},\mathrm{0,0}\\ \frac{\sqrt{2}}{2},\frac{\sqrt{2}}{2},\mathrm{0,0}\\ \mathrm{0,0},\frac{\sqrt{2}}{2},-\frac{\sqrt{2}}{2}\\ \mathrm{0,0},\frac{\sqrt{2}}{2},\frac{\sqrt{2}}{2}\end{array}\right]$ Or $T=\left[\begin{array}{c}\frac{1}{2},-\frac{1}{2},-\frac{1}{2},\frac{1}{2}\\ \frac{1}{2},\frac{1}{2},-\frac{1}{2},-\frac{1}{2}\\ \frac{1}{2},-\frac{1}{2},\frac{1}{2},-\frac{1}{2}\\ \frac{1}{2},\frac{1}{2},\frac{1}{2},\frac{1}{2}\end{array}\right]---\left(9\right)$

As shown in Figure 6, for N is arranged _uIndividual user's system, if the basic pulse waveform of selecting for use is (t),

Matrix T above then corresponding can obtain

All the other and Fig. 1 are similar, difference only is that different transmission data are corresponding to different transmission pulses, select corresponding time-hopping sequence according to different users during reception, and with going to do relevant with received signal with corresponding four the masterplate signals of four pulses in when emission, under the condition of transmitted waveform energy normalized, obtain four following group inte gration values

Order Then of user k

Position decision rule is

The combined waveform that utilizes method construct of the present invention also can be when jumping or direct sequence spread spectrum skill combine and realize multiple access together, the number of users that inserts simultaneously with the raising system.Method described in its concrete grammar and the execution mode one is similar, and only the pulse that this moment, different user sent is inequality, and promptly different user is not only to judge that according to time-hopping sequence or direct sequence waveform also will be as one of Rule of judgment.This moment, k user's transmission signal was

At receiving terminal, can be expressed as through the later signal of correlator

The decision rule of this moment is

Because the present embodiment different user adopts different waveforms, when receiving, can utilize this feature to judge its pairing user according to the difference of the signal that receives, therefore can improve the multiple access performance of system.

Provide the example of concrete strobe pulse waveform (t) below: elect (t) as an orthogonal wavelet, as the meyer small echo, daubechies small echo etc., advance to stretch in their two and the integer translation all is mutually orthogonal.During the tectonic association waveform, the wave form of stack is (2 ^jX-k) k, j ∈ Z.When other user's interference signals and local template signal were made integration like this, because some is a quadrature in their superposed signal of formation, integrated value surely can be less than the integrated value of template signal and correct signal.Other users' interference value can be estimated and control like this.

Claims (3)

1, a kind of building method of superwide band pulse wave signal and method of reseptance, it is characterized in that it realizes as follows: one, pulse generator (1) sends original burst signal ( (t)), pulse compression delayer (2) carries out original burst signal ( (t)) respectively to be weighted stack with original burst signal ( (t)) after i compression and the time-shifting, thereby forms a combined waveform; Simultaneously, in time-hopping sequence follower (4), finish different time delays with the clock signal that produces by frame information clock (6), generate time-hopping sequence by the time-hopping sequence sign indicating number that time-hopping sequence code generator (3) generates; Two, the information data by information source (7) generation that is input in the transmitted pulse signal former (5) is modulated mutually with combined waveform, finish the informationization of combined waveform, again the time-hopping sequence control information change in being input to transmitted pulse signal former (5) the moment of combined waveform by transmitting antenna (8) emission; Three, receiving terminal pulse generator (11) sends original burst signal ( (t)), receiving terminal pulse compression delayer (12) carries out pulse signal ( (t)) respectively to be weighted stack with original burst signal ( (t)) after i compression and the time-shifting, thereby forms a combined waveform; Simultaneously, by the time-hopping sequence sign indicating number of receiving terminal time-hopping sequence code generator (13) generation and the clock signal deadline delay in receiving terminal time-hopping sequence follower (14) that produces by receiving terminal frame information clock (16), generate time-hopping sequence, the combined waveform that produces in the combined waveform that this step produces and the step 1 is identical, and the time-hopping sequence that produces in the time-hopping sequence of this step generation and the step 1 is identical; Four, combined waveform and time-hopping sequence synthetic template signal in template signal maker (15) is input in the pulse correlation device (19), and it is relevant that template signal and the signal that receives from reception antenna (18) carry out, and obtains the output valve of pulse correlation device (19); Five, the output valve of pulse correlation device (19) is imported data decision device (20), input information follower (17) after by data decision device (20) information data being reduced.

2, the building method of a kind of superwide band pulse wave signal according to claim 1 and method of reseptance, it is characterized in that it also comprises mapper (21), mapper (21) is transferred to transmitted pulse signal former (5) after the binary data of information source 7 outputs is mapped as " 0 " and " 1 ", the numerical value judgement greater than 0 that data decision device (20) is set to pulse correlator (a 19) output is " 1 ", and the numerical value judgement less than 0 is " 1 ".

3, the building method of a kind of superwide band pulse wave signal according to claim 1 and method of reseptance, it is characterized in that it also comprises two, quaternary data converter (22), delayer (23), a reverser (24), No. two reversers (25), receiving terminal delayer (26), No. three reversers (27), No. four reversers (28), No. 0 correlator (30), a correlator (31), No. two correlators (32), No. three correlators (33) and four binary data transducers (40), the original burst signal ( (t)) that pulse generator (1) produces is the orthogonal wavelet signal, original burst signal ( (t)) input time delay device (23) back output 0 time delayed signal ( (t)), a time delayed signal ( (t-1)) and secondary time delayed signal ( (t-2)), original burst signal ( (t)) input pulse compression delayer (2) back output signal ( (2t)), secondary time delayed signal ( (t-2)) forms one road combined waveform (W0) with the superimposed back of signal ( (2t)), secondary time delayed signal ( (t-2)) is through forming two road combined waveforms (W1) with the superimposed back of signal ( (2t)) after the paraphase of a reverser (24), a time delayed signal ( (t-1)) is through forming three road combined waveforms (W2) with the superimposed back of 0 time delayed signal ( (t)) after the paraphase of No. two reversers (25), 0 time delayed signal ( (t)) forms four road combined waveforms (W3) with the superimposed back of a time delayed signal ( (t-1)), one road combined waveform (W0), two road combined waveforms (W1), three road combined waveforms (W2) and four road combined waveforms (W3) are imported four inputs of transmitted pulse signal former (5) respectively, binary information data is input to two from information source (7), be converted into quaternary number behind the quaternary data converter (22) according to being input in the transmitted pulse signal former (5), each number of quaternary number certificate respectively with one road combined waveform (W0), two road combined waveforms (W1), three road combined waveforms (W2) shine upon mutually with four road combined waveforms (W3), thereby finish the selection of four kinds of combined waveforms; Reception antenna (18) is input to No. 0 correlator (30) respectively after receiving the signal (r (t)) of transmitting antenna (8) emission, a correlator (31), in No. two correlators (32) and No. three correlators (33), one road combined waveform (W0), two road combined waveforms (W1), three road combined waveforms (W2) and four road combined waveforms (W3) are respectively at No. 0 correlator (30), a correlator (31), after the time-hopping sequence time-delay, do relevant in No. two correlators (32) and No. three correlators (33) with signal (r (t)), obtain first correlation (W01) respectively, second correlation (W11), third phase pass value (W21) and the 4th correlation (W31), first correlation (W01), second correlation (W11), third phase pass value (W21) and the 4th correlation (W31) are all imported in the data decision device (20), data decision device (20) is made the maximum judgement, rule out the pairing way of the highest correlation, restore the binary message data by four binary data transducers (40) again.

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