KR20000015270U - Adaptive Pulse and Tone Jamming Signal Generators - Google Patents

Abstract

The present invention relates to an adaptive pulse and tone jamming signal generator, and in particular, to minimize the jamming signal transmission power loss by adaptively transmitting a jamming signal having a JSR arbitrarily set according to the reception power.

To this end, the present invention includes a reception power detection (measurement and calculation) means for measuring the power of a communication signal received through an antenna and calculating the average power thereof; Tone signal generation means for generating a transmission jamming signal; Tone / pulse conversion means for converting the transmission jamming signal into a tone or pulse form by a timer using a counter; Signal ratio detection means for detecting a signal ratio of a received signal to a transmission jamming signal generated by a tone signal from the detected average power; Adaptive noise generating means for synthesizing the detected jamming ratio and the transmission jamming signal generated by the tone signal to produce noise having the same power as the signal received by the antenna; And an adaptive jamming signal generating means for amplifying the generated adaptive noise to a gain according to a arbitrarily set JSR to generate a transmission jamming signal adapted to the power of the received signal.

Description

Adaptive jamming signal generator for pulse and tone

The present invention relates to an adaptive pulse and tone jamming signal generator. In particular, when applying a jamming signal to a link of a wireless communication system, even if any modulator or spreader is communicating, An adaptive jamming signal generator for adaptively transmitting a pulse jamming signal or a tone jamming signal having a transmit jamming signal power to a received signal power ratio (hereinafter referred to as JSR). will be.

In a general wireless communication system, an arbitrary transmitting station and a receiving station wirelessly transmit and receive data within a frequency band promised to each other. Such a wireless communication system is continuously fixed through an arbitrary frequency band according to its communication method. When occupying a band and performing communication (frequency division multiple access method; FDMA), and when communicating with different occupancy time for a frequency band (time division multiple access method; TDMA), It can be divided into a case of communicating and a case of communicating through a spreader with different codes (code division multiple access method; CDMA).

Particularly in the case of electronic warfare, when a wireless communication system using any modulation and demodulation method or a spreader is transmitting and receiving data, a jammer system is shown as shown in FIG. 1 to prevent communication of this data. use.

These jammers are classified into wide band jammers, partial band jammers, tone jammers, pulse jammers, and multiple tone jammers. By transmitting the excitation frequency, the receiver does not properly recover the data.

In particular, the pulse and tone jamming signal generators of the jammer system are classified into two types according to whether or not the timer is controlled using a counter. One is a pulse jamming signal generator, which is periodically turned on and off under the control of a timer. The other is the tone jamming signal generator, in which the switch is always on.

FIG. 2 is a block diagram of a conventional pulse and tone jamming signal generator, which generates a tone signal having a center frequency capable of applying a jammer or disturbance signal from the tone signal generator 11, and then The tone signal is sent to the amplifier 12 and amplified to a strong noise signal, and then applied to the tone / pulse converter 14. The tone / pulse converter 14 is composed of a switch, and performs a tone / pulse conversion function in accordance with an operation in which the switch is turned on / off.

At this time, the switching operation of the tone / pulse converter 14 is controlled by a timer 13 using a counter. Thus, the switch is turned on / off to generate a tone jamming signal or a pulse jamming signal to the transmission antenna 15. It is configured to be.

However, these jamming signal generators have a predetermined output power to transmit strong noise, so that the transceiver output uses a predetermined output power regardless of what modulation / demodulation system, spreader or bit energy rate is used. Therefore, there was a problem causing loss of energy.

FIG. 3 is an advanced jamming signal generator proposed to improve the problem of FIG. 2 and generates a tone signal from the tone signal generator 11 and applies it to an amplifier 12A whose gain is variable. The modulation and demodulation method of the communication signal received through the antenna 16 and the modulation and demodulation method and bit energy processing unit 17 capable of processing bit energy according thereto are connected to the gain control terminal of the variable amplifier 12A. The complex jamming signal transmitted to the antenna by adjusting the gain of the variable amplifier 12A to the value obtained from the modulation and demodulation method and the bit energy rate by analyzing the hardware and complex processing through the scheme and the bit energy processor 17. Make. This signal is applied to the tone / pulse converter 14. The tone / pulse converter 14 is composed of a switch, and performs a tone / pulse conversion function according to an operation of switching on / off the switch so that the tone jamming signal or the pulse jamming signal is transmitted through the transmission antenna 15. Consists of.

However, the jamming signal generator of such a configuration can adjust the output power by adjusting the gain of the amplifier to the value obtained by finding the modulation and demodulation method and the bit energy rate through the hardware-complicated processing. There was a problem such that it was impossible to adapt to the communication by changing the modulation and demodulation method.

Therefore, the present invention has been devised to solve the above problems, and the present invention is arbitrarily set according to the received power even when communicating using any modulator or spreader in applying a jamming signal to a link of a wireless communication system. It is an object of the present invention to provide an adaptive tone and pulse jamming signal generator for adaptively outputting a jamming signal having a JSR.

In order to achieve the above object, the present invention provides a reception power detection (measurement and calculation) means for measuring the power of a communication signal received through an antenna and calculating the average power thereof; Tone signal generation means for generating a transmission jamming signal; Tone / pulse conversion means for converting the transmission jamming signal generated by the tone signal generation means into a tone or pulse form by a timer using a counter; Signal ratio detection means for detecting a signal ratio of a received signal to a transmission jamming signal generated by a tone signal from the detected average power; Adaptive noise generating means for synthesizing the detected jamming ratio and the transmission jamming signal generated by the tone signal to produce noise having the same power as the signal received by the antenna; And an adaptive jamming signal generating means for amplifying the generated adaptive noise to a gain according to an arbitrarily set JSR to generate a transmission jamming signal adapted to power of a received signal. to provide.

Further, another embodiment of the present invention further includes transmission noise power detection (measurement and calculation) means for measuring the noise power of the transmission jamming signal generated by the tone signal and calculating the average power thereof; Calculating a power ratio of the signal power and the transmission noise power from the average power of the detected received signal and the average power of the transmission noise, and detecting a signal ratio of the received signal and the transmission jamming signal from the calculated result. An adaptive tone and pulse jamming signal generator is provided.

1 is a conceptual diagram illustrating a general wireless communication system and a jammer system.

2 is a block diagram illustrating an example of a conventional jamming signal generator.

3 is a block diagram showing another example of a conventional jamming signal generator.

4 is a block diagram illustrating an adaptive pulse and tone jamming signal generator according to an embodiment of the present invention.

5 is a detailed view for explaining a redundant structure of the power measurement and detection means of FIG.

** Description of symbols for the main parts of the drawing **

41: tone signal generator 42: receiving antenna

43: reception power measurement and calculation unit 44: transmission noise power measurement and calculation unit

45: divider 46: pulse / tone conversion unit

47: timer unit 48: signal ratio detection unit

49: multiplier 50: amplifier

51: transmit antenna

Hereinafter, the configuration of the adaptive tone and pulse jamming signal generator according to each embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 4 is a block diagram showing the configuration of the adaptive tone and pulse jamming signal generator according to the present invention, as shown in the figure, by measuring the power of the communication signal received through the antenna 42 to calculate the average power Receiving power detecting (measuring and calculating) means 43; Tone signal generating means (41) for generating a transmission jamming signal; Transmission noise power detection (measurement and calculation) means (44) for measuring the noise power of the transmission jamming signal generated by the tone signal generation means and calculating the average power thereof; Tone / pulse conversion means (46) for converting the two average power ratios into a tone or pulse form by a timer using a counter; A signal ratio for calculating the power ratio of the signal power and the transmission noise power from the average power of the detected received signal or the two detected average powers, and detecting the signal ratio of the received signal and the transmitted jamming signal from the calculated result. Detection means (45) (48); Adaptive noise generating means (49) for synthesizing the detected signal ratio and the transmission jamming signal generated by the tone signal to produce noise having the same power as the signal received by the antenna; And an adaptive jamming signal generating means (50) for amplifying the generated adaptive noise to a gain according to a randomly set JSR to generate a transmission jamming signal adapted to the power of the received signal.

The signal ratio detecting means may be composed of a divider 45 for obtaining a power ratio with two average power signals, and a square root calculator 48 for converting the power ratio into a signal ratio.

The adaptive jamming signal generating means may generate a transmission jamming signal adapted to the power of the reception signal by multiplying the transmission jamming signal generated by the tone signal by the generated adaptive noise.

In particular, in the present invention, the tone jamming signal generator and the pulse jamming signal generator are classified according to the switch terminal setting state of the tone / pulse conversion unit operating according to the control signal of the timer unit, and in the adaptive jamming signal generator as shown in FIG. If the tone / pulse converter is kept on, the adaptive tone jamming signal generator outputs a tone jamming signal from the output stage.If the tone / pulse converter switches the on / off state in a repetitive manner, An adaptive pulse jamming signal generator may be configured to output a pulse jamming signal at an output terminal.

Fig. 5 is a detailed circuit diagram of the reception power detecting means, which is duplicated by a plurality of power measurement and calculation units 43a and 43b to always detect a stable average power, and calculates an average value from the received power measurement. The average power predicting section 43c is provided. In particular, the plurality of power measurement and calculation units 43a and 43b are connected to each other by a jamming drive signal Jam on via the inverter 43d and a jamming drive signal Jam on without an inverter for the duplication of the configuration. It is desirable to configure to work alternately.

Although not shown in the drawing, the transmission noise power detection means is duplexed like the reception power detection means of FIG. 5 so that the noise power of the transmission jamming signal generated by the tone signal generator 41 can always be detected in a stable state. Can be configured.

Referring to the operation of the present invention and the resulting effects that are configured as described above are as follows.

First, after arbitrarily setting the required JSR, the receiving power detecting means 43 firstly measures and calculates the communication signal of the wireless communication system received through the antenna so as to provide a stable average power at all times. 43a) and measure the power of the signal received through any one of the second power measurement and calculation unit 43b, and again use the average estimator 43c to average the received signal power (A). Will be obtained.

On the other hand, the first power measurement and calculation unit (not shown) and the second power measurement and calculation unit (not shown) of the tone noise jamming signal generated by the tone signal generator 41, the transmission noise power detection means 44 The power of the transmission jamming signal is measured by using any one of (not shown), and the average power B of the transmission noise power is again obtained by using an average power predictor (not shown).

The divider 45 is used to calculate the power ratio A / B of the signal power A and the transmission noise power B from the two average powers, and provide the power ratio A / B to the tone / pulse converter 46. . The tone / pulse conversion section 46 generates a tone jamming signal or a pulse jamming signal in accordance with the switching operation controlled by the timer section 47 using a counter, and provides the tone jamming signal or pulse jamming signal to the signal ratio detecting means (48 on the drawing). In the signal ratio detecting means (square root calculator) 48, the signal ratio for the received signal and the transmitted jamming signal is calculated from the power ratio for the pulse type jamming signal (or tone type jamming signal) and the received signal. ).

The detected signal ratio is again combined with the transmission jamming signal by the adaptive noise generating means (multiplier 49 in the drawing), thereby making noise of the same power as the communication signal received by the reception antenna.

Accordingly, the adaptive jamming signal generating means 49 (amplifier in the figure) amplifies the generated adaptive noise to a gain according to a randomly set JSR, so that the transmission jamming signal is always adapted to the power of the received signal so that the transmission antenna 50 Can be sent through.

Meanwhile, in another embodiment of the present invention, when the average power of the received signal detected by the reception power detecting means is set to a predetermined reference power (for example, the output of the transmission noise power detecting means is set to an arbitrary value ("1")). By comparing with), the power ratio is detected, and the signal ratio of the received signal to the transmitted jamming signal is detected from the power ratio, whereby a transmission jamming signal adapted to the received signal can be transmitted.

Therefore, in the present invention, when the power of the transceiver to communicate is low, the jamming signal generator also reduces the output power, and when the power is large, the output power is increased accordingly to transmit the efficient jamming signal.

Therefore, according to the present invention, the tone jamming signal and the pulse jamming signal can be easily generated according to the communication signal strength of the wireless communication system, thereby minimizing the loss of the jamming signal transmission power, and in any system using any demodulation or spreader. Since all can be applied, there is an advantage that can be applied to all systems for jamming the wireless communication system.

Claims (7)

Receiving power detecting means for measuring power of a communication signal received through an antenna and calculating an average power thereof; Tone signal generating means for generating a jamming signal to be transmitted; Tone / pulse conversion means for converting the transmission jamming signal generated by the tone signal generation means into a tone or pulse form by a timer using a counter; Signal ratio detection means for detecting a signal ratio of a reception signal to a transmission jamming signal from the detected average power; Adaptive noise generating means for synthesizing the detected jamming ratio and the transmission jamming signal generated by the tone signal to produce noise having the same power as the signal received by the antenna; And an adaptive jamming signal generating means for amplifying the generated adaptive noise to a gain according to an arbitrarily set JSR to generate a transmission jamming signal adapted to the power of the received signal. The method of claim 1, wherein the receiving power detecting means Adaptive tone and pulse jamming signal generator, characterized in that it is redundant by a plurality of power measuring and calculating section for measuring the signal power received by the antenna to always detect a stable average power. 3. The adaptive tone and pulse jamming signal generator according to claim 2, wherein the plurality of power measuring and calculating units are redundantly alternately operated by the jamming driving signal. The method of claim 1, wherein the adaptive jamming signal generating means generates a transmission jamming signal adapted to the power of the reception signal by multiplying the transmission jamming signal generated by the tone signal by the generated adaptive noise. Adaptive tone and pulse jamming signal generator. 2. The apparatus of claim 1, further comprising transmission noise power detection means for measuring the noise power of the transmission jamming signal generated by the tone signal and calculating the average power thereof; An adaptive tone and pulse jamming signal, characterized in that the power ratio for the signal power and the transmission noise power is calculated from the detected two average powers, and the signal ratio for the received signal and the transmission jamming signal is detected from the calculated result. generator. The method of claim 5, wherein the transmission noise power detecting means An adaptive tone and pulse jamming signal generator characterized in that it is redundant by a plurality of power measuring and calculating units for measuring the transmission jamming signal power so as to always detect a stable average power. 7. The adaptive tone and pulse jamming signal generator of claim 6, wherein the plurality of power measuring and calculating units are dualized to alternately operate by a jamming driving signal.