RU1840923C - Apparatus for controlling radar station carrier frequency tuning - Google Patents

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: apparatus comprises series-connected interference analyser, interference frequency-time feature generating unit and interference characteristic recognition unit, and a radar station carrier frequency tuning control unit, the input of which is connected to the second output of the interference analyser, and the outputs are connected to corresponding inputs of the interference frequency-time feature generating unit. The apparatus also includes a blanking signal generating unit and a storage device and an extrapolation unit connected in series. The input of the storage device is connected to the additional output of the interference analyser and the first input of the blanking signal generating unit, the second input of which is connected through the extrapolation unit to the outputs of the interference characteristic recognition unit, and the output is connected to the additional input of the carrier frequency tuning control unit.

EFFECT: improved noise-immunity of radar stations.

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Description

The invention relates to elements of multi-frequency radio systems and can be used to automatically select the operating frequency in the setting of moving noise interference.

The most promising application of the proposed device in multi-frequency radars with the tuning of the carrier frequency from pulse to pulse.

A device is known consisting of an interference analyzer connected at one of the inputs to the output of the video detector and the input of the switch, and at the other end to the output of the first separation circuit, the input of which is connected to the second input of the switch, the input of the random number sensor and the ban circuit, the first output of the analyzer through the inhibit circuit, it is connected to one of the inputs of the second separation circuit and the second output is to the input of the comparison circuit, its output is connected to the third input of the switch, the output of which is connected to the input of the register, and its output to the input of the second comparison circuits, the output of which is connected to the control inputs of the matching circuit and the storage device; the outputs of the random number sensor are connected to the information inputs of the memory, and the outputs of the memory are connected to the second inputs of the second comparison circuit and the matching circuit, the output of the matching circuit is connected to the second input of the second separation circuit, the outputs the control device is connected to the inputs of the interference analyzer, random number sensor and the second separation circuit, its output is connected to the 4th input of the switch.

The disadvantage of this device is that in a rapidly changing interference environment, the operator cannot quickly track the change in the type of interference by switching the tuning mode.

The closest in technical essence to the proposed one is a radar carrier frequency control control unit with recognition of the type of active noise interference (ACP) according to copyright certificate No. 76908 (class G01S 7/36, published in 1978), in which there is an interference analyzer, tuning adjustment node, ACP time-frequency sign formation node, operator panel, ACP type recognition node, the outputs of which through the operator panel are connected to the input of the interference analyzer and the input of tuning adjustment node, the recognition node input A type of ACP is connected through the node generating the time-frequency characteristics of the ACP with the second output of the interference analyzer and the outputs of the tuning control unit, the second input of which is connected to the output of the interference analyzer.

As a result of tuning the receiver at a non-working range and detecting an ACW, a frequency-time interference matrix is formed at each radar frequency in each sounding period, which is the initial information for subsequent recognition of the type of ACW. Information about the ACP type is sent to the input of the operator’s console, where a decision is made on the algorithm for tuning the radar carrier frequency (either the tuning of the radar carrier frequency to a minimum of the average interference power level is provided, or the frequency tuning according to a random law. Information about the current interference situation displayed on the remote control display operator, can be used to control some parameters of the radar (view type, parameters of the probing signal, etc.).

The disadvantage of this device is the lack of automatic selection of the carrier frequency of the radar in the setting of creeping interference.

The aim of the present invention is to improve the noise immunity of the radar and automation of its operation in terms of setting creeping interference.

This goal is achieved by the fact that in the control device for the adjustment of the carrier frequency with recognition of the ACP type, containing an interference analyzer, the adjustment control unit, the node for generating the time-frequency characteristics of the ACP, the operator panel, the recognition unit for the type of ACP, the outputs of which are connected through the operator panel to the analyzer input interference and the input of the adjustment control node, the input of the ACP type recognition node is connected through the frequency-time characteristics of the ACP node to the second output of the interference analyzer and the output and a tuning control node, the second input of which is connected to the output of the interference analyzer, a frequency channel prohibition station forming unit, an extrapolation unit and an interference memory (ZU) are introduced, the input of which is connected to the third output of the interference analyzer and the first input of the frequency channel prohibition station forming unit, and the output - with the first input of the extrapolation unit, the second input of which is connected to one of the outputs of the recognition unit of the ACP type, the output of the extrapolation unit is connected to the second input of the unit for generating the blank a frequency channel, the output of which is connected to the input of the tuning control node.

By introducing the memory of the interference and the extrapolation unit, the number of the frequency channel is determined, which can be covered by a moving noise in the next sounding period, and a form is generated in the node for generating the prohibition of frequency channels, which excludes the choice of channels occupied by the interference during frequency tuning.

The essence of the proposed solution is illustrated in figure 1, which presents a structural diagram of a device for controlling the frequency adjustment.

Figure 1 presents:

- interference analyzer 1;

- node 2 management adjustment;

- remote control 3 operators;

- node 4 for the formation of time-frequency signs of ACP;

- ACP type recognition unit 5;

- memory 6 interference;

- node 7 extrapolation;

- node 8 for the formation of a prohibition form for frequency channels.

In the frequency adjustment control device (Fig. 1), the first input of the interference analyzer 1 is the input of the device, the control signal from the operator panel 3 is supplied to the second input of the interference analyzer 1, the first output of the interference analyzer 1 is connected to the input of the tuning control unit 2, the second output to the first the input of the node 4 of the shaper of the frequency-time signs of the ACP, the third output of the interference analyzer 1 is with the first input of the interference memory 6 and with the first input of the node 8 for generating the prohibition form for frequency channels, the second input of the node 8 for forming the prohibition form and the frequency channels are connected to the output of the extrapolation unit 7. The output of the interference memory 6 is connected to the first input of the extrapolation unit 7, and one of the outputs of the ACP type recognition unit 5 is connected to the second input. The outputs of the ACP type recognition unit 5 are connected to the inputs of the operator panel 3, the output of the operator panel 3 is connected to the input of the tuning control unit 2, the outputs of which are connected to the inputs of the memory 6 interference and the inputs of the node 4 generating the frequency-time signs of the ACP, the output of which is connected to the input of the unit 5 recognition of the ACP type.

The proposed control device frequency adjustment works as follows.

An analysis of the interference situation is carried out on a non-working range portion in the current period so that the next radar carrier frequency is selected. When setting barrage, response, sight interference or noise-free situation, the algorithm for tuning the carrier frequency of the radar is selected automatically, as in the device of the prototype under consideration.

If at the output of the ACP type recognition unit 5 a signal is generated indicating the presence of moving interference, then permission is issued for the operation of the extrapolation unit 7. The following tuning algorithm based on linear extrapolation of creeping interference can be adopted.

According to the results of the interference analysis in the previous and current sensing periods from the output of the register included in the interference analyzer 1, the corresponding binary codes of the numbers of the frequency channels occupied by the interference are entered into the interference memory 6.

In the extrapolation unit 7, the binary code of the frequency channel number is calculated from this data, which, in accordance with the adopted model of creeping interference, can be covered by interference in the next sounding period. The linear extrapolation formula is given in the book by Yu. M. Korshunov and Bobikova A.I. "Digital smoothing and transforming systems", M. "Energy", 1969:

X ₃ = 2X ₂ -X ₁ ,

where X ₁ is the number of the channel occupied by the interference in the analysis section in the previous period;

X ₂ - channel number occupied by interference in the analysis section in the current period;

X ₃ is the number of the channel occupied by the interference in the analysis section in the next period.

In the node 8 of forming the blank of the prohibition of frequency channels, a blank is formed that excludes the choice for sounding the frequency channels within the frequency interval - from the current one occupied by the interference to extrapolated to the next repetition period. The rest of the frequency channels can be tuned, for example, according to a random law.

Assessment of the positive effect can be based on the following assumptions. We assume that the steepness of the tuning of the moving interference is equally distributed in the range from the minimum, when the interference during the period of sounding the radar is shifted in frequency by one channel, and to the maximum, when during the period the interference is shifted to all N working channels of the radar. In this case, the average value of the tuning slope corresponds to an offset of N / 2 frequency channels.

Thus, if there is a director of creeping interference and the radar operates in accordance with the prototype algorithm, for example, according to a random law, a channel will be selected with a probability of 0.5, which will be covered by creeping interference, which will lead to an increase in the number of false alarms and a deterioration in the quality of detection of useful signals.

Using the proposed device allows to increase the radar noise immunity in terms of setting creeping interference by determining the direction and steepness of the slip interference and excluding from sounding those frequency channels that can be covered by creeping interference.

The simulation results carried out on a BESM-6 computer confirm the efficiency of the proposed device.

Claims (1)

A device for controlling the tuning of the carrier frequency of a radar station, containing a series-connected interference analyzer, a unit for generating frequency-time signs of interference and a block for recognizing interference characteristics, as well as a control unit for tuning the carrier frequency of a radar station, the input of which is connected to the second output of the interference analyzer, and the outputs, corresponding to different frequency channels, with the corresponding inputs of the block for the formation of time-frequency signs of interference, characterized in that, in order to improve the quality of frequency tuning under the influence of moving noise, a blanking signal generation unit, as well as a sequentially connected storage device and an extrapolation unit, are introduced into it, while the input of the storage device is connected to an additional output of the interference analyzer and to the first input of the blanking signal generating unit, the second input of which through the extrapolation unit is connected to the outputs of the interference characteristics recognition unit, and the output is connected to an additional input of the control unit Carrier frequency tuning.

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