SU832763A1 - Method of demodulation of discrete signals - Google Patents

Description

(54) METHOD OF DEMODULATION OF DISCRETE SIGNALS

The invention relates to radio and can be used in systems for transmitting discrete information via communication channels with the energy dissipation of received signals in time and frequency. A known method for demodulating discrete signals in communication channels with scattering, which means that at each clock interval, the impulse response of the communication channel is measured, the combination of packages of the expected signal is formed, predistortion signals are generated, determined. the difference signal by subtracting the predistortion signal 1 from the demodulated signal. However, the known method does not have sufficient accuracy. The purpose of the invention is to improve accuracy. The goal is achieved by the fact that in the method of demodulation of discrete signals in communication channels With scattering, which means that at each clock interval the impulse response of the communication channel is measured, a combination of the expected signal is formed, predistortion signals are generated, The difference signal is obtained by subtracting the signal of the prediction signal from the demodulated signal; at each time interval the difference signal is compared with the sending signal combinations of the expected signal, the sending signal is extracted. a, which coincides with the difference signal and the sign of the first premise of which is recorded. FIG. 1 shows the structural electrical circuit of the device for the implementation of the proposed method; in fig. 2 - time diagrams that show his work. A device for implementing the method: a communication channel impulse response measurement unit 1, a predistortion signal generating unit 3 2, a reference signal generating unit 3, a subtracting unit 4, a comparison unit 5, a decision unit 6 and an output register 7. The method is carried out as follows. The signal from the output of the communication channel is fed to the input of block 1 and the first input of the subtractive block 4. At the output of block 1, the impulse response of the communication channel is obtained (Fig. 2. Chart b); corresponding to one of the positions of the transmitted binary message (Fig. 2, diagram a), the other position (-1) corresponds to the inverted response. The diagram about (Fig. 2) represents an example of a binary message at the input of the communication channel. It means that by the time A the signs of the preceding message parcels are already registered (shown in solid lines stored in the output register 7. The task of the device is to determine the sign of the next parcels (the first one shown by the dotted line). Diagram 2 (Fig. 2) shows the channel response and a binary message, i.e. a signal at the device input. The AB signal segment with a length of TCI MT completely contains the channel response to the message being analyzed and The response to the first (analyzed) signal sending is made by the signal on the basis of the processing of the signal AB segment by the time B of the end of this segment. 1 impulse response of the channel is fed to block 2 and block 3. In block 2, according to the known impulse response of the channel, taking into account the preceding signs, the incoming signals from the output register 7, an intersymbol interference signal from the M-1 preceding messages, which serves to the second entrance deduct block 4. Diagram Op (FIG. 2 / shows the result of the subtraction. In the interval of time preceding the time A, the result of the subtraction is identical zero (there is no interference, the reaction measurement is made exactly, the signs of the previous feed are determined without errors), after time B the signal does not change from, and AB remains the sum of responses to the analyzed and subsequent parcels. The differential signal is fed to the first input of block 5. From the output of block 3 to the second inputs of block 5 serves t possible implementations -.the reference signal in the AB interval, obtained from the measured impulse response of the channel. The diagram t (Fig. 2) for the case shows all 2 16 implementations of the reference signal corresponding to the impulse response given by the diagram (. B block 5 compares the difference signal with all implementations of the reference signal, finding the distance (according to the selected optimality criterion) between them and the formation of signals, characterizing these distances - the received signals are sent to block 6, in which the minimum distance and the combination of t-ary premises, which it corresponds to, is determined. If there is no interference, and the measurement is If the optimality criterion, as the closest implementation, determines the one that is identical to the analyzed difference signal, this realization is shown by a solid line (Fig. 2 diagram.). It corresponds to some combination of binary characters. To the receiver (for example, decoder) and Only the first characters of this combination are supplied to the device memory (to the input of the output register 7). Thus, the final decision is made only on the current symbol from the transmitted message, the response of the channel to which it is wholly Adds on the AB scatter interval. After that, the device proceeds to the analysis of the next package. The analysis interval of the AB is shifted by T to the right, and the registered record, about which the final decision was made, becomes the antecedent and takes part in the formation of the deductible. The segment of the signal is excluded from the analysis (Oh, but a new segment (5) of the same length T is added (Fig. 2, CI diagram). The described sequence of operations is repeated at each clock interval. Thus, the entire processing is performed at the reception not only 5 work packets of a signal, but only that part containing M packages, over which the channel response is placed on one message analyzed at a given clock interval. At the same time, the channel responses to subsequent events in general do not fit parts si and the decision taken regarding the positions of these parcels may turn out to be incorrect. Therefore, only the position of the first of the M parcels forming the combination registered by block 6 is outputted to the output. Using the proposed method ensures higher transmission accuracy information at high speed over communication channels.

Claims (1)

Invention Formula The method of demodulation of discrete signals in communication channels with scatter 1. Klovsky D.D. and Nikolaev B.I. Engineering implementation of radio engineering schemes. M., St. Don, 1975, 25 p. 189-190 (the prototype, which is that at each clock interval, the impulse response of the communication channel is measured, a combination of the expected signal is formed, predistortion signals are formed, the difference signal is determined by subtracting the predistortion signal from the demodulated signal that, in order to increase the accuracy, a difference signal is compared at each clock interval with the combinations of the expected signal's bursts, a combination of the expected signal's bursts, which coincides with the difference signal, is selected. om and the sign of the first parcel is registered. Sources of information taken into account in the examination