KR101017590B1 - Method and apparatus for measuring distance deception jamming - Google Patents

Abstract

Detects a radar signal reflected from a target and input to the radar system, detects a distance deception jamming signal input to the radar system after detecting the radar signal, and then detects the radar signal and the detection time of the jamming signal A method and apparatus for measuring distance deception jamming by calculating a time delay between are disclosed.

Description

Method and apparatus for measuring distance deception jamming {Method and apparatus for measuring range gate Pull-Off}

The present invention relates to a method and apparatus for measuring jamming of a radar system, and more particularly, to a method and apparatus for measuring distance deception jamming.

In general, a radar system transmits a continuous wave or a modulated continuous wave to a target and measures the distance to the target and the speed of the target based on the signal reflected from the target.

To cope with radar systems, the targets are radio jamming techniques, ranging from Range Gate Pull-Off (RGPO), Velocity Gate Pull-Off (VGPO), Velocity Stepping (VSO) and noise techniques. Etc.

The purpose of jamming for a radar system is to simulate a target by adding a radiation signal similar to the radar signal to the radar signal, in response to which the radar system can retrace the target by removing the jamming signal through a predetermined filter.

SUMMARY OF THE INVENTION The present invention has been made in an effort to provide a method and apparatus for measuring a jamming signal added to a radar signal for distance deception, and to provide a computer readable recording medium having recorded thereon a program for executing the method. have.

According to an aspect of the present invention, there is provided a method of measuring a distance deception jamming of a radar system, the method comprising: detecting a radar signal reflected from a target and input to the radar system; Detecting a distance deception jamming signal input to the radar system after the detection of the radar signal; And calculating a time delay between the detection time of the radar signal and the detection time of the jamming signal.

According to another embodiment of the present invention, detecting the radar signal includes repeatedly detecting a radar signal periodically input to the radar system, and detecting the jamming signal comprises: And repeatedly detecting a distance deception jamming signal input to the radar system after detection.

According to another embodiment of the present invention, continuing the time delay includes repeatedly calculating a time delay between the radar signal and the distance deception jamming signal.

According to another embodiment of the present invention, the distance deception jamming measuring method further comprises the step of repeatedly storing the information about the time delay repeatedly calculated in a predetermined memory, distance deception jamming measuring method.

According to another embodiment of the present invention, the detecting of the radar signal comprises detecting an envelope of the radar pulse.

According to another embodiment of the present invention, detecting the jamming signal includes detecting an envelope of the jamming signal.

An apparatus for measuring distance deception jamming of the radar system according to an embodiment of the present invention for solving the technical problem comprises a radar signal detector for detecting a radar signal reflected from a target input to the radar system; A jamming signal detector for detecting a distance deception jamming signal input to the radar system after the detection of the radar signal; And a delay calculator for calculating a time delay between the detection time of the radar signal and the detection time of the jamming signal.

In order to solve the above technical problem, the present invention provides a computer-readable recording medium having recorded thereon a program for executing the above-described method of measuring distance deception.

According to the present invention, the radar signal and the jamming signal are separated and detected, and the delay time can be repeatedly measured based on the detection result, so that the performance of jamming due to the distance deception can be accurately measured.

1 illustrates an apparatus for measuring distance deception jamming in accordance with an embodiment of the present invention.
2 shows a timing diagram of a method for measuring distance deception jamming according to an embodiment of the present invention.
3A and 3B illustrate a method of measuring distance deception jamming in accordance with an embodiment of the present invention.
4 is a flowchart illustrating a method of measuring distance deception jamming according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 illustrates an apparatus for measuring distance deception jamming in accordance with an embodiment of the present invention.

Referring to FIG. 1, the jamming measuring apparatus 100 according to an exemplary embodiment of the present invention includes a radar signal detector 110, a jamming signal detector 120, a delay calculator 130, and a memory 140. .

The radar signal detector 110 detects a radar signal reflected from the target and input to the radar system. When the radar signal emitted by the radar system for the target search is reflected from the target and input to the radar system, the radar signal detector 110 detects the input radar signal. The modulated sustained wave repeatedly input at predetermined intervals can be detected.

The input pulse envelope measuring unit 112 measures an envelope of the radar signal input to the radar system. As described above, the radar signal input to the radar system may be a modulated continuous file, thereby measuring the envelope of the modulated continuous wave. The radar signal, which is modulated according to the envelope measurement result, is converted into a pulse signal.

The D flip-flop 114 generates an enable signal of the delay calculator 130 based on the pulse signal converted by the input pulse envelope measuring unit 112. When the radar signal is detected, the output of the input pulse envelope measuring unit 110 becomes '1', '1' is applied to the D terminal of the D flip-flop 114, and the D flip-flop 114 connects the Q terminal. By outputting '1' through, the delay calculator 113 controls to start calculating the time delay.

The jamming signal detector 120 detects a jamming signal input to the radar system after the detection of the radar signal. The jamming signal is a signal input to the radar system in addition to the radar signal for range deception. The jamming signal may be a modulated continuous file that is repeatedly input at intervals equal to or different from the period of the radar signal. Like the radar signal detector 110, the jamming signal detector 120 may measure an envelope of the jamming signal.

When the jamming signal detector 120 measures the envelope of the jamming signal and converts the jamming signal into a pulse signal, the pulse signal is input to the delay calculator 130 as a reset signal to control the delay calculator 130. Can be. When the jamming signal is detected, the output of the jamming signal detector 120 becomes '1', and the delay calculator 113 recognizes this as a reset signal and ends the calculation of the time delay.

The radar signal detector 110 and the jamming signal detector 120 may repeatedly output a signal for controlling the delay calculator 130. As described above, the radar signal may be repeatedly inputted to the radar system at predetermined periodic intervals, and the jamming signal may be repeatedly input to the radar system at the same or different periodic intervals as the radar signal. At this time, the radar signal detector 110 repeatedly detects the radar signal every time the radar signal is input and transmits the enable signal to the delay calculator 130, and the jamming signal detector 120 also receives the jamming signal. Each time, the jamming signal is repeatedly detected and the reset signal is transmitted to the delay calculator 130.

The delay calculator 130 calculates a time delay between the detection time of the radar signal and the detection time of the jamming signal based on the control signals of the radar signal detector 110 and the jamming signal detector 120.

The calculation of the time delay is started based on the enable signal generated by the radar signal detection unit 110 in accordance with the detection of the radar signal, and the time based on the reset signal generated by the jamming signal detection unit 120 in accordance with the detection of the jamming signal. End the calculation of the delay. The time delay can be calculated by measuring the number of clocks from the input of the enable signal to the input of the reset signal.

When the radar signal detector 110 and the jamming signal detector 120 repeatedly detect the radar signal and the jamming signal, the enable signal of the radar signal detector 110 and the reset signal of the jamming signal detector 120 are repeatedly received. Iteratively calculates the time delay based on

The memory unit 140 stores the time delay value calculated by the delay calculator 130.

The memory write controller 142 controls the memory write under the control of the jamming signal detector 120. When the jamming signal is detected by the jamming signal detector 120, the time delay calculation of the delay calculator 130 is terminated. At this time, the information on the time delay calculated until the jamming signal is detected is stored in the memory 146, and the memory write control unit 142 transmits a control signal instructing the writing to the memory 146 for this purpose.

The memory 146 stores the time delay value received from the delay calculator 130 under the control of the memory write controller 142. The memory address in which the time delay value is stored is set by the address calculator 144.

When the address calculation unit 140 repeatedly calculates the time delay, the memory address is determined such that the time delay values are stored in different addresses. As described above, when the radar signal detection unit 110 and the jamming signal detection unit 120 repeatedly detect the radar signal and the jamming signal, the address so that the repeatedly measured time delay values can be stored in different addresses of the memory 146. The calculator 140 repeatedly determines the memory address. According to one embodiment of the present invention, by determining a different memory address based on the number of times of detection of the jamming signal, it is possible to store information about a time delay in different memory addresses. Since the calculation of the time delay is terminated when the jamming signal is detected, if the memory address is repeatedly determined based on the number of times the jamming signal is detected, the calculated time delay value can be stored repeatedly in different memory addresses.

The memory read controller 148 generates and transmits a control signal to the memory 146 to read the time delay value stored in the memory 146 in the memory 146. A read control signal is generated and transmitted to the memory 146 to read the time delay value (s) stored in the memory 146 for performance analysis of the distance deception jamming.

2 shows a timing diagram of a method for measuring distance deception jamming according to an embodiment of the present invention.

Referring to FIG. 2, the clock 210 represents a reference clock used by the delay calculator 130 to calculate a time delay.

The radar signal may be an input radar signal 210 of FIG. 2 as a modulated continuous wave input periodically to the radar system. The input pulse envelope measuring unit 112 measures the envelope of the input radar signal 210 and outputs the input radar signal envelope 230 of FIG. 2.

In addition, the jamming signal detector 120 receives the jamming signal 240 of FIG. 2, which is a modulated continuous wave periodically input to the radar system, and measures an envelope. The envelope is measured to output the jamming signal envelope 250.

The delay calculator 130 repeatedly calculates a time interval between the radar signal pulse of the input radar signal envelope 230 and the jamming signal pulse of the jamming signal envelope 250 to time delay # 1, time delay # 2, and time delay. Calculate # 3, ...

The number of clocks between the detection time of the radar signal pulse and the detection time of the jamming signal pulse is measured like the time delay counter 260, and the number of pulses is output as the time delay value 270 and stored in the memory unit 140.

3A and 3B illustrate a method of measuring distance deception jamming in accordance with an embodiment of the present invention.

When the detected radar signal pulses and the jamming signal pulses are as shown in FIG. 3A, an error distance may be calculated as shown in FIG. 3B. The time delay is first calculated by subtracting the jamming signal pulse arrival time from the radar signal pulse arrival time. The time delay can be calculated by measuring the number of clocks between the radar signal pulse arrival time and the jamming signal pulse arrival time and multiplying the clock number by the clock period.

The actual distance of the target and the distance produced by the distance deception jamming signal can be calculated by (error distance) = 3 * 10 ⁸ * delay time * 1/2. The unit of delay time is seconds, and 3 * 10 ⁸ (m / sec) represents the speed of propagation. Since the radio waves are sent to the target and then reflected by the target and input back to the radar system, multiply by 1/2 to allow for round trip of the radio waves.

FIG. 3B illustrates the error distance according to the delay time as a function when the jamming signal is repeated as shown in FIG. 3A. As shown in Fig. 3A, the distance between the radar signal pulse and the jamming signal pulse continues to increase, so that the error distance gradually increases whenever the time delay from A to C is repeatedly calculated. If the time delay is increased by the period of the radar signal pulse, a maximum time delay occurs, thereby reaching the maximum error distance.

4 is a flowchart illustrating a method of measuring distance deception jamming according to an embodiment of the present invention.

Referring to FIG. 4, in operation 410, the apparatus 100 for measuring distance deception jamming according to an embodiment of the present invention detects a radar signal reflected from a target and input to a radar system. The radar signal pulse can be detected by measuring the envelope of the modulated continuous wave input to the radar system. If the radar signal pulse is repeatedly input at predetermined intervals, the radar signal may be detected repeatedly.

In operation 420, the apparatus 100 for measuring distance deception jamming detects an input jamming signal in addition to the radar signal. After detection of the radar signal additionally detects a jamming signal input to the radar system. Like the radar signal, the jamming signal pulse can be detected by measuring the envelope of the modulated continuous wave of the jamming signal input to the radar system. If the jamming signal is repeatedly input at predetermined intervals, the jamming signal may be detected repeatedly. The repetition period of the jamming signal may be the same or different from the radar signal.

In operation 430, the apparatus 100 for measuring distance deception jamming calculates a time delay between the detection time of the radar signal and the detection time of the jamming signal. The number of clocks between the detection time of the radar signal pulse and the detection time of the jamming signal pulse can be measured, and the time delay can be calculated based on the measured clock number.

When the detection of the radar signal and the jamming signal is performed in steps 410 and 420, the time delay may be repeatedly calculated whenever the radar signal and the jamming signal are detected.

In operation 440, the apparatus 100 for measuring distance deception jamming stores the information on the time delay calculated in operation 430 in a predetermined memory. The number of clocks between the detection time of the jamming signal pulses and the detection time of the jamming signal pulses may be stored in the memory as information on the time delay as it is, or the time delay in seconds calculated based on the number of clocks may be stored in the memory. It may be.

If the time delay is repeatedly calculated in step 430, the calculated time delay is repeatedly stored in the memory. At this time, the repeatedly calculated time delay may be stored in different memory addresses determined based on the number of times of detecting the jamming signal.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited to the above-described embodiments, which can be modified by those skilled in the art to which the present invention pertains. Modifications are possible. Accordingly, the spirit of the invention should be understood only by the claims set forth below, and all equivalent or equivalent modifications will fall within the scope of the invention. In addition, the system according to the present invention can be embodied as computer readable codes on a computer readable recording medium.

For example, a distance deception jamming measuring apparatus according to an exemplary embodiment of the present invention may include a bus coupled to respective units of the apparatus as shown in FIG. 1, and at least one processor coupled to the bus. Can be. It may also include a memory coupled to the bus for storing instructions, received messages or generated messages and coupled to at least one processor for performing instructions as described above.

The computer-readable recording medium also includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of the recording medium include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage device and the like. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

Claims (13)

In the method of measuring the distance deception jamming of the radar system,
Detecting a radar signal reflected from a target and input to the radar system;
Detecting a distance deception jamming signal input to the radar system after the detection of the radar signal; And
Calculating a time delay between the detection time of the radar signal and the detection time of the jamming signal,
Detecting the radar signal comprises repeatedly detecting a radar signal periodically input to the radar system,
The detecting of the distance deception jamming signal includes detecting a distance deception jamming signal input to the radar system after the detection of the radar signal. delete The method of claim 1, wherein continuing the time delay
And repeatedly calculating a time delay between the radar signal and the distance deception jamming signal. The method of claim 3, wherein
And repeatedly storing information on a repeatedly calculated time delay in a predetermined memory. The method of claim 4, wherein the storing step
And storing the information on the repeatedly calculated time delay at a memory address determined based on the number of times of repeatedly detected distance deception jamming signal. The method of claim 1, wherein detecting the radar signal
And detecting an envelope of the radar pulse. The method of claim 1, wherein the detecting of the jamming signal comprises:
And detecting an envelope of the jamming signal. In the apparatus for measuring the distance deception jamming of the radar system,
A radar signal detector for detecting a radar signal reflected from a target and input to the radar system;
A jamming signal detector for detecting a distance deception jamming signal input to the radar system after the detection of the radar signal; And
A delay calculator for calculating a time delay between the detection time of the radar signal and the detection time of the jamming signal,
The radar signal detection unit repeatedly detects a radar signal periodically input to the radar system,
And the jamming signal detection unit repeatedly detects a distance deception jamming signal input to the radar system after the detection of the radar signal. delete The method of claim 8, wherein the delay calculation unit
And a time delay jamming measuring device repeatedly calculating the time delay between the radar signal and the distance deception jamming signal. The method of claim 10,
And a memory unit for repeatedly storing information about a time delay repeatedly calculated. The method of claim 11, wherein the memory unit
And storing the information about the repeatedly calculated time delay at a memory address determined based on the number of times of the repeatedly detected distance deception jamming signal. A computer-readable recording medium having recorded thereon a program for executing the method of claim 1.

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