SU811290A1 - Correlation device - Google Patents

Description

The aim of the invention is to improve the accuracy of the selection signal from the additive mixture with a normal correlated interference.

The goal is achieved by the fact that a correlation device containing two Laguerre filters, the input of the first of which is the first input of the device, and the outputs are connected to the first input group of the first multi-channel multiplication unit, the second input group of which is connected to the corresponding outputs of the multi-channel averaging unit The inputs of which are connected to the corresponding outputs of the second multi-channel multiplication unit, the first group of inputs of which is connected to the corresponding outputs of the second Laguerre filter, you ode first multi-channel multiplying unit connected to the respective inputs of the adder, one input of which is the second input device introduced averaging unit multiplying unit and the filter, the input of which is combined with the first input of the multiplier and is a third input device. The second input of the multiplication unit is connected to the output of the adder, and the output is connected to the input of the second filter ärepp: i. The inputs of the second group of the second multi-channel multiplication unit are combined and connected to the output of the filter.

The drawing shows the functional diagram of the correlation device.

The correlation device contains the multiplication unit 1, the first Laguerre filter 2, the multichannel multiplication unit 3, the multichannel multiplication unit 4, the second Laguerre filter 5, the adder 6, the filter 7, the averaging unit 8, the multichannel averaging unit 9.

The first input of multiplier 1 is connected to the input of the device and the input of filter 7. The output of the averaging block 8 is the output of the device and simultaneously connected to the input of the Laguerre filter 2, the outputs of which are loaded on the second group of inputs of the multiplication block 3. The outputs of the averaging block 9 are connected to the first group inputs of a multi-channel multiplication unit 4, the second group of inputs of which is connected to the corresponding outputs of the Laguerre filter 5. The input of the Laguerre filter 5 is the first input of the device. The outputs of multiplier 4 are connected to the inputs of adder 6, one of the inputs of which is an input for the desired signal. The output of the adder 6 is connected to the second input of the multiplier 1. The output of the filter 7 is connected to the combined inputs of the second group of the multiplication unit 3.

The device works as follows.

The input signal and interference mixture is fed to the first input of multiplier 1, the second input of which receives the reference

signal. The signal from the output of averaging unit 8 is fed to the output of the device and simultaneously to the input of the Laguerre filter 2. In units of multiplication 3 and averaging 9, the implementation of the noise coming to its first input and separated beforehand with the filter 7 from the input additive mixture of signal and noise, multiplied by the current value of the correlation function decomposition coefficient and averaged. At the outputs of averaging unit 3, the coefficients of the decomposition of the mutual correlation function are formed. At the first input of the device, short pulsed signals are applied, which create voltages at the outputs of the Laguerre filter 5 proportional to the values of the orthogonal Laguerre functions. These voltages are multiplied in the multiplication unit 4 with the voltages from the outputs of the averaging unit 9, are added together in a multi-pass adder 6 and are inverted. In adder 6, the voltage of the useful signal from the first input of the device is also summed. At the output of the adder 6, a reference signal is generated. When changing from the implementation to the implementation of the autocorrelation function of the interference, it is necessary to use an adaptive filter to separate the implementation of the interference from the input mix.

The described device allows for optimal signal processing with additive fluctuation normal noise, varying from implementation to implementation of the autocorrelation function.

Claims (2)

1. Radio engineering and electronics, t. 19, 1974, No. 11, p. 2415. 2. Zhoviisky V. N. Arkhovsky V. F. Correlation devices. M., "Energy, 1974, p. 46. Ucrniti