RU178763U1 - ADAPTIVE CORRECTION DEVICE WITH FEEDBACK BY SOLUTION IN CHANNELS WITH INTER-CHARACTER INTERFERENCE - Google Patents

Abstract

The utility model relates to the field of electro-radio engineering, namely to radio communication technology, and can be used in single-frequency data transmission systems with adaptive signal correction on the receiving side. The technical result is to increase the noise immunity of data transmission with adaptive correction of signals at the receiving side by test signals. To this end, the device comprises a first unit for subtracting test signals, a first correction filter, a first demodulator, a modulator, a unit for convolution calculation, a unit for subtracting information signals, a unit for calculating the impulse responses of the channel and a correction filter, a memory unit, a second unit for subtracting test signals, a second correction filter, the second demodulator, the recipient of information. 3 ill.

Description

The utility model relates to the field of electro-radio engineering, namely to radio communication technology, and can be used in single-frequency data transmission systems with adaptive signal correction on the receiving side.

The essence of adaptive correction lies in constructing a correction filter (CF) that compensates for signal distortions resulting from multipath propagation in a communication channel, in particular, in a short-wavelength communication channel. The consequence of multipath propagation is intersymbol interference (MSI).

Closest to the claimed technical solution is the Adaptive correction device with feedback by decision, RF patent No. 147413 of 11/10/2014. The device contains a correction filter, a demodulator, the first block of subtracting test signals is introduced, in which the test is subtracted before and after the information signal, the first input of which is connected to the input of the device, which receives a signal containing sequentially transmitted segments consisting of a test and information signal, the second the input is connected to the first output of the memory block, which transmit the test signal obtained in the previous step, that is, with the same processing of the previous segment, and the output of the first block subtracting test signals, through which the information signal is transmitted after subtracting the tests, is connected to the first input of the first correction filter, the second input of which is connected to the second output of the memory block, where the pulse response of the correction filter calculated in the previous step comes from, and the output of the first correction filter, where receive a corrected information signal, connected to the input of the first demodulator, the output of which is connected to the input of the first modulator, the output of the first modulator is connected it is connected to the first input of the first convolution calculation unit, the second input of which is connected to the third output of the memory unit, which transmit the channel impulse response calculated in the previous step, while the output of the first convolution calculation unit, in which the reconstructed information signal is convoluted with the channel impulse response is connected to the third input of the information signal subtraction unit, the first input of which is connected to the input of the device, and the second input is connected to the fourth output of the memory unit, to which the information signal obtained in the previous step is transmitted, while the output of the information signal subtraction unit, where information signals are subtracted before and after the test, is connected to the first input of the channel impulse response calculation unit and the correction filter, where the channel impulse response and correction filter are calculated , the second input of which is connected to the fifth output of the memory unit, through which the undistorted test is transmitted, the first output of the channel impulse response calculation unit and a correction filter, through which the calculated impulse response of the channel is transmitted, connected to the first input of the memory unit and the second input of the second convolution calculation unit, as well as to the second input of the third convolution calculation unit, and the second output of the channel impulse response calculation unit and the correction filter, according to which transmit the calculated impulse response of the correction filter, connected to the second input of the memory block and the second input of the second correction filter, the first input of the second block is calculated convolution is connected to the fifth output of the memory block, and the output through which the result of convolution of the undistorted test and the calculated impulse response of the channel are transmitted is connected to the third input of the memory block and the second input of the second block of subtracting test signals, while the first input of the second block of subtracting test signals is connected to the input of the device, and the output of the second block of subtraction of test signals is connected to the first input of the second correction filter, the output of which is connected to the input of the second demodulator, the output of which By connecting the input recipient information and the input of the second modulator, whose output is connected to a first input of the third convolution calculation block, the output of which is connected to a fourth input of the storage unit, in which convolution calculation result is transmitted between the reconstructed information signal and the calculated impulse response.

The disadvantages of the prototype include the fact that when calculating convolutions in the second and third blocks of convolution calculation, an additional error is introduced associated with the inaccuracy of calculating the impulse response of the channel, as a result of which noise immunity is reduced.

The aim of the invention is to increase the noise immunity of the transmitted information.

This goal is achieved by the fact that in the adaptive correction device with feedback by decision in channels with intersymbol interference, containing the first block subtracting test signals, in which the test is subtracted before and after the information signal, the first input of which is connected to the input of the device to which the signal containing sequentially transmitted segments consisting of a test and an information signal, the second input is connected to the first output of the memory block, through which transmit the test signal received at the previous step, that is, with the same processing of the previous segment, the output of the first block of subtracting test signals, through which the information signal is transmitted after subtracting the tests, is connected to the first input of the first correction filter, the second input of which is connected to the second output of the memory block, from where the pulse the correction filter characteristic calculated in the previous step, and the output of the first correction filter, where the corrected information signal is received, is connected to the input of the first a modulator, the output of which is connected to the input of the modulator, the output of the modulator is connected to the first input of the convolution calculation unit, the second input of which is connected to the third output of the memory unit, which transmit the impulse response of the channel calculated in the previous step, while the output of the first convolution calculation unit which carry out the convolution of the restored information signal with the impulse response of the channel, is connected to the third input of the unit for subtracting information signals, the first input of which is connected to the input to the device, and the second input is connected to the fourth output of the memory block, through which the information signal obtained in the previous step is transmitted, while the output of the information signal subtraction unit, where information signals are subtracted before and after the test, is connected to the first input of the impulse response calculation block channel and correction filter, where the impulse characteristics of the channel and correction filter are calculated, the second input of which is connected to the fifth output of the memory block, through which the inverse is transmitted An important test, the first output of the channel impulse response calculation unit and the correction filter, through which the calculated channel impulse response is transmitted, is connected to the first input of the memory block, and the second output of the channel impulse response calculation unit and the correction filter, through which the calculated impulse response of the correction filter is transmitted, connected to the second input of the memory block and the second input of the second correction filter, while the first input of the second block subtracting test signals is accessible to the input of the device, and the output of the second block of subtraction of test signals is connected to the first input of the second correction filter, the output of which is connected to the input of the second demodulator, the output of which is connected to the input of the recipient of information, while the output of the block of subtraction of information signals is connected to the third input of the memory block and the second the input of the second block subtracting test signals, and the output of the second block subtracting test signals is also connected to the fourth input of the memory block.

The block diagram of the proposed device is shown in FIG. 1. It contains the first (1) unit for subtracting test signals 1, the first input of which is connected to the input of the device, the second input is connected to the first output of the memory unit 6, and the output of the first (1) unit for subtracting test signals 1 is connected to the first input of the first (1 ) correction filter 2, the second input of which is connected to the second output of the memory unit 6, and the output of the first (1) correction filter 2 is connected to the input of the first (1) demodulator 3, the output of which is connected to the input of modulator 4, the output of modulator 4 is connected to the first input verification unit ki 5, the second input of which is connected to the third output of the memory unit 6, while the output of the convolution calculation unit 5 is connected to the third input of the information signal subtraction unit 7, the first input of which is connected to the input of the device, and the second input is connected to the fourth output of the memory unit 6, the output of the subtraction unit of the information signals 7 is connected to the first input of the calculation unit for the channel IQ and KF 8, the third input of the memory unit 6 and the second input of the second (2) block for subtracting the test signals 9, the second input of the calculation unit for the IK channel and KF 8 is connected to by the output of the memory block 6, the first output of the calculation unit for the channel IQ and CF 8 is connected to the first input of the memory unit 6, and the second output of the calculation unit for the channel IQ and CF 8 is connected to the second input of the memory block 6 and the second input of the second (2) correction filter 10 while the first input of the second (2) block subtracting test signals 9 is connected to the input of the device, and the output of the second (2) block subtracting test signals 9 is connected to the first input of the second (2) correction filter 10, the output of which is connected to the input of the second (2 ) demodulator 11, the output of which I will connect en to the input data 12 of the recipient.

The operation of the device is as follows.

, из входного сигнала, до и после информационного сигнала с номером «1». При этом

известен с предыдущего шага, и поступает на второй вход первого (1) блока вычитания тестовых сигналов 1 с первого выхода блока памяти 6. Информационный сигнал с выхода первого (1) блока вычитания тестовых сигналов 1 подают на первый вход первого (1) корректирующего фильтра 2, на второй вход которого со второго выхода блока памяти 6 передают импульсную характеристику (ИХ) корректирующего фильтра (КФ) полученную на предыдущем шаге

. Откорректированный информационный сигнал с выхода первого (1) корректирующего фильтра 2 передают на вход первого (1) демодулятора 3, где получают последовательность информационных бит, которые передают на вход модулятора 4, где получают восстановленный информационный сигнал. Этот сигнал подают на первый вход блока вычисления свертки 5, на второй вход которого с третьего выхода блока памяти 6 передают ИХ канала, полученную на предыдущем шаге

. На выходе блока вычисления свертки 5 получают восстановленный информационный сигнал

, который передают на третий вход блока вычитания информационных сигналов 7. При этом на второй вход блока вычитания информационных сигналов 7 с четвертого выхода блока памяти 6 подают информационный сигнал предыдущего шага

, а на первый вход блока вычитания информационных сигналов 7 поступает входной сигнал. В блоке вычитания информационных сигналов 7 осуществляют вычитания соответствующих информационных сигналов до и после теста с номером «1». Сигнал

, соответствующий этому тесту с выхода блока вычитания информационных сигналов 7 передают на третий вход блока памяти 6, второй вход второго (2) блока вычитания тестовых сигналов 9, а также на первый вход блока расчета ИХ канала и КФ 8, на второй вход которого поступает неискаженный тест с пятого выхода блока памяти 6. В блоке расчета ИХ канала и КФ 8 осуществляют расчет ИХ канала и ИХ КФ известным способом, например, алгоритмом RLS (Recursive Least Squares) описанным в [В.И. Джиган. Адаптивная фильтрация сигналов: теория и алгоритмы. М.: Техносфера, 2013. - 528 с.]. На первом выходе блока расчета ИХ канала и КФ 8 получают ИХ канала

, которую передают на первый вход блока памяти 6. На втором выходе блока расчета ИХ канала и КФ 8 получают ИХ КФ

, которую передают на второй вход блока памяти 6 и второй вход второго (2) корректирующего фильтра 10. На первый вход второго (2) блока вычитания тестовых сигналов 9 поступает входной сигнал. Во втором (2) блоке вычитания тестовых сигналов 9 осуществляют вычитание теста

из входного сигнала, до и после информационного сигнала с номером «1». Информационный сигнал

с выхода второго (2) блока вычитания тестовых сигналов 9 подают на первый вход второго (2) корректирующего фильтра 10 и на четвертый вход блока памяти 6. Откорректированный информационный сигнал с выхода второго (2) корректирующего фильтра 10 передают на вход второго (2) демодулятора 11, где получают последовательность информационных бит, которые передают на вход получателя сообщений 12.At the input of the device, an input signal is received containing sequentially transmitted segments consisting of a test and an information signal, with each segment “test + information” conditionally numbered “0”, “1”, “2”, etc., as shown in FIG. 2. Suppose that information is received from the segment under the number "1". In the first (1) block subtracting test signals 1, subtract the test

, from the input signal, before and after the information signal with the number "1". Wherein

known from the previous step, and enters the second input of the first (1) block subtracting test signals 1 from the first output of the memory block 6. The information signal from the output of the first (1) block subtracting test signals 1 is fed to the first input of the first (1) correction filter 2 , to the second input of which from the second output of the memory block 6 transmit the impulse response (THEM) of the correction filter (CF) obtained in the previous step

. The corrected information signal from the output of the first (1) correction filter 2 is transmitted to the input of the first (1) demodulator 3, where a sequence of information bits is received, which are transmitted to the input of the modulator 4, where the restored information signal is received. This signal is fed to the first input of the convolution calculation unit 5, the second input of which from the third output of the memory unit 6 transmit their channel obtained in the previous step

. The output of the convolution calculation unit 5 receives the restored information signal

, which is transmitted to the third input of the unit for subtracting information signals 7. At the same time, the information signal of the previous step is fed to the second input of the unit for subtracting information signals 7 from the fourth output of the memory unit 6

, and the first input of the subtraction unit of information signals 7 receives an input signal. In the block for subtracting information signals 7, subtracting the corresponding information signals before and after the test with the number "1" is carried out. Signal

corresponding to this test from the output of the block of subtraction of information signals 7 is transferred to the third input of the memory block 6, the second input of the second (2) block of subtraction of the test signals 9, as well as to the first input of the block calculation of the channel and CF 8, the second input of which is undistorted test from the fifth output of the memory block 6. In the block calculation of their channel and KF 8, they calculate the channel and their KF in a known manner, for example, the RLS (Recursive Least Squares) algorithm described in [V.I. Dzhigan. Adaptive signal filtering: theory and algorithms. M .: Technosphere, 2013. - 528 p.]. At the first output of the block calculation of the channel and CF 8 receive the channel

which is transmitted to the first input of the memory block 6. At the second output of the block calculation of the channel and KF 8 receive them KF

which is transmitted to the second input of the memory block 6 and the second input of the second (2) correction filter 10. An input signal is received at the first input of the second (2) block of subtraction of test signals 9. In the second (2) block subtracting test signals 9 carry out the subtraction of the test

from the input signal, before and after the information signal with the number "1". Information signal

from the output of the second (2) block subtracting test signals 9 are fed to the first input of the second (2) correction filter 10 and to the fourth input of the memory block 6. The corrected information signal from the output of the second (2) correction filter 10 is transmitted to the input of the second (2) demodulator 11, where they receive a sequence of information bits that are transmitted to the input of the message recipient 12.

In the memory block 6 before receiving the next information signal, the following rewriting is performed:

,

,

,

,

.

.

The proposed device can be used for single-frequency data transmission systems with adaptive signal correction at the receiving side.

The proposed device provides an increase in the accuracy of calculation of IC KF by reducing the influence of MSI and reducing the error that occurs in the prototype when calculating convolutions. As a result, the inventive device provides a significant increase in noise immunity (in other words, reducing the probability of error per bit) compared with the prototype, which is demonstrated by the simulation results in FIG. 3.

Claims (1)

An adaptive correction device with feedback according to the decision in channels with intersymbol interference, containing the first block of subtracting test signals, in which the test is subtracted before and after the information signal, the first input of which is connected to the input of the device to which a signal containing sequentially transmitted segments consisting of from the test and the information signal, the second input is connected to the first output of the memory block, which transmit the test signal obtained in the previous step, that is, with a similar ar the previous segment, while the output of the first block of subtracting test signals, through which the information signal is transmitted after subtracting the tests, is connected to the first input of the first correction filter, the second input of which is connected to the second output of the memory block, from which the impulse response of the correction filter calculated from the previous one step, and the output of the first correction filter, where the corrected information signal is received, is connected to the input of the first demodulator, the output of which is connected to the modulator input, the modulator output is connected to the first input of the convolution calculation unit, the second input of which is connected to the third output of the memory unit, which transmit the channel impulse response calculated in the previous step, while the output of the convolution calculation unit, in which the reconstructed information signal is convolved from impulse response of the channel, connected to the third input of the unit for subtracting information signals, the first input of which is connected to the input of the device, and the second input is connected to the fourth the output of the memory block, through which the information signal obtained in the previous step is transmitted, while the output of the block of subtracting information signals, where the information signals are subtracted before and after the test, is connected to the first input of the channel impulse response block and the correction filter, where the pulse characteristics of the channel and the correction filter, the second input of which is connected to the fifth output of the memory block, through which an undistorted test is transmitted, the first output of the pulse calculation block channel characteristics and a correction filter through which the calculated impulse response of the channel is transmitted is connected to the first input of the memory unit, and the second output of the channel impulse response calculation block and the correction filter through which the calculated impulse response of the correction filter is transmitted is connected to the second input of the memory unit and the second input of the second correction filter, while the first input of the second block subtracting test signals is connected to the input of the device, and the output of the second block you test signal output is connected to the first input of the second correction filter, the output of which is connected to the input of the second demodulator, the output of which is connected to the input of the information recipient, characterized in that the output of the information signal subtraction unit is connected to the third input of the memory unit and the second input of the second test signal subtraction unit and the output of the second block of subtraction of test signals is also connected to the fourth input of the memory block.

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