SU1465927A1 - Multichannel device for adaptive treatment of signals - Google Patents

Abstract

The invention relates to radio engineering and m. used in various radar systems. The purpose of the invention is to increase the S / N ratio under unsteady interference conditions. The device contains a control unit, adder 2, main filter 3, antenna elements 4, quadrature dividers 5, weight multipliers 6, multipliers 7, channel adders 8, integrating filters 9. The goal is achieved by introducing additional filters 10 into the device 2N-1 Filters 10 must be identical to filter 3-. As a result of the correlation in each channel of the output signal of the device with the signal subjected to filtering by filter 10, which allows to realize a time advance in the control circuit, the S / N ratio at the output of the device is maximized under unsteady conditions. stationary interference. 1 il. cl

Description

The invention relates to radio engineering and can be used in various radar systems using a phased array antenna as a receiving antenna system.

The purpose of the invention is to increase the signal-to-noise ratio under conditions of non-stationary interference.

The drawing shows a structural diagram of a multi-channel device adaptive signal processing.

The multi-channel adaptive signal processing device comprises a control unit 1, an adder 2, a main filter 3, antenna elements 4, quadrature dividers 5, weight multipliers 6, multipliers 7, channel adders 8, integrating filters 9, additional filters 10.

A multi-channel adaptive signal processing device operates as follows.

The input signals received by the antenna elements 4 are fed to quadrature dividers 5, which makes it possible to realize complex (amplitude-phase) weighting of signals in each channel using weight multipliers 6 for each quadrature component.

In the weight multiplier 6, the signal is multiplied by the weight coefficient., After which the weighted signals are summed. are summed in adder 2. Next, the total signal is filtered in the main filter 3.

Weights are produced by correlating the input signal in the multiplier 7 with the signal from the output of the main filter 3 (feedback circuit), followed by subtracting the correlation result from the corresponding component of the useful signal vector in the channel adder 8 and integrating it in the integrating filter 9. Control signals that specify the initial amplitude the phase distribution in the aperture of the antenna array, enter the channel adder 8 from the control unit 1.

Since under the conditions of non-stationary interference when filtering the signals with the main filter 3, their shape changes significantly, which leads to a shift in the quality index gradient when controlling the weighting of the input signals of the adaptation system, to compensate for distortion of the signals at the output of the multipliers 7 of the same Filtering using an additional filter 10 the signals from the outputs of the quadrature dividers 5 are exposed when they are fed to the inputs of the multipliers 7.

Additional filters 10 should be identical to the main filter. 3.

The output of the main filter 3 is the output of a multi-channel adaptive signal processing device.

Thus, as a result of the correlation in each channel of the output signal of the device with the signal subjected to filtering by an additional filter 10, which makes it possible to implement time advance in the control circuits, the signal-to-noise ratio at the output of the device is maximized under conditions of unsteady interference.

Claims (1)

Claim A multi-channel device for adaptive signal processing, comprising a control unit, an adder whose output is connected to the main filter, the output of which is the output of a multi-channel device for adaptive signal processing, an additional filter, N channels, each of which consists of a series-connected antenna element and a quadrature divider, to the outputs which is connected to the first inputs of the weight multipliers, two chains of series-connected multipliers, a channel adder and an integrating Filter RA, the output of which is connected to the second input of the weight multiplier, the outputs of both weight multipliers of each channel are connected to the inputs of the adder, the outputs of the control unit are connected to the second inputs of the channel adders of each channel, characterized in that, in order to increase the signal-to-noise ratio under non-stationary conditions interference, 2N-1 additional sub-filter is introduced, and additional filters are included between the outputs of each quadrature divider and the first inputs of the multipliers of each channel, the output of the main filter is connected to the second inputs of the respective multipliers.