RU2639689C1 - Device for detecting and recognizing objects - Google Patents

Abstract

FIELD: physics.SUBSTANCE: device for detecting and recognizing objects contains a detection antenna with a wide unilateral radiation pattern, an antenna with a phased array with a narrow radiation pattern, a dual receiver consisting of a detection unit and a scan unit that secures the presence of the radiation signal exceeding a predetermined threshold, and scanning the surface on which the object is located, the detection unit including a comparison circuit and a data bank, where a comparison is made of the received electromagnetic array of the object points to arrays of the data bank, a signal transmitter of the object consisting of a signal processing unit and a radiation antenna.EFFECT: increasing the sensitivity of the detection device and the classification of objects that have points of electromagnetic radiation.2 dwg

Description

The invention relates to the field of detection and recognition, in particular to electronic systems for detecting electromagnetic radiation, and can be used to recognize hidden objects using power supply and transmission lines of electromagnetic signals.

A device [1] is known that characterizes a passive method for evaluating target data moving in water and continuously emitting signals in the sound range. However, this analogue does not allow detecting and recognizing complex objects that are unmasked by points with electromagnetic radiation.

Closest to the present invention is a device for detecting and recognizing objects [2], the principle of which is that the electromagnetic radiation generated at the object is received, the parameters of the received electromagnetic radiation are measured, the measured parameters are compared with predetermined standards and if they coincide with a given accuracy make a decision to recognize the object. As the electromagnetic radiation generated at the object, radiation from electric discharges arising during the operation of the object is taken, as well as radiation from the parts of the object from which these discharges occur.

The disadvantage of this method is the fact that it does not allow to detect and recognize complex objects according to the topology of the points of electromagnetic radiation, and the lack of ability to analyze input data for ownership and classification of the object.

The use of such a device is limited by the parameters of the power of the side electromagnetic radiation from the points of the object, the sensitivity of the detection and scanning antennas.

The objective of the invention is to provide a device for detecting and classifying objects having points of electromagnetic radiation.

The required technical result is achieved by the fact that the device, consisting of blocks of electronic equipment including an antenna, a recognition unit, which includes interconnected parameter comparison circuit and a data bank, a two-loop receiver, which includes a detection unit and a scanning unit, a phased scanning antenna by a grating, a signal transmitter about the presence of an object, which consists of a signal conditioning unit and a transmitting antenna, and links of the output of the detection antenna receiving radio emission from a point object connected to the input of the detection unit, which is part of the dual-circuit receiver, the output of the detection unit, connected to the input of the scan unit, which is part of the dual-circuit receiver, the output of the phased array antenna connected to the second input of the scan unit, the output of the scan unit connected to the input a comparison circuit included in the recognition unit, and a second input of the comparison circuit connected to the input of the data bank included in the recognition unit, the output of the comparison circuit, connected to the input of the signal generation unit, which is part of the signal transmitter, the output of the signal transmitter, connected to the input of the radiation antenna, which is part of the signal transmitter, allows you to detect and recognize the radiation points of the power lines due to the presence of secondary electromagnetic radiation from these lines. Because Since the power lines and, in particular, the connecting plugs have parasitic capacitances and inductors, which cannot be eliminated, the transmission of electricity will inevitably lead to electromagnetic radiation at the position of a complex object. This radiation makes up 5-7% of the load of the fed units. Therefore, the device initially detects the possible presence of an object, and then scans the surface on which the radiation was detected. Scanning the surface creates a portrait of the radiation points of the surface, which is compared with other portraits from the data bank of the device. When fixing the similarity of portraits, the device transmits a radio signal about the detection of an object.

The invention is illustrated in the drawing, where in FIG. 1 shows a possible embodiment of the device, where:

1 - detection antenna

2 - phased array antenna

3 - dual-circuit receiver

4 - detection unit

5 - scanning unit

6 - recognition unit

7 is a comparison diagram

8 - data bank

9 - signal transmitter

10 - block signal generation

11 - radiation antenna

In FIG. 2 shows an algorithm for the operation of a device for detecting and recognizing objects. The device operates as follows. At the initial time, the device is in standby mode (block 1). The signal received by the detection antenna 1 starts the device from standby mode (block 2) and enters the dual-loop 3 receiver detection unit 4, where it is compared with the detection threshold (block 3). If the signal exceeds the threshold, then 4 sends a signal to the scanning unit 5 of the dual-circuit 3 receiver to turn on the operation (block 4), otherwise the operation goes into standby mode (block 1). Block 5 using an antenna 2 with a phased array scans the surface of the possible radiation and sends an array of the topology of the radiation points of the object to the comparison circuit 7 of the recognition unit 6 (block 5). Further, the comparison circuit 7 determines the degree of difference between the current array and the data array of recognition unit 6 of points of various objects stored in advance in the data bank 8, and the recognition result is generated at the output of block 8 (block 6), namely, it determines the presence or absence of an object. The recognition unit 6 is expediently implemented in the form of a programmable logic matrix operating according to the corresponding program. If a match of arrays was detected (block 7), then the comparison circuit 7 of the recognition block 6 generates a command to transmit an object detection signal, otherwise, an object mismatch signal (block 8). The command is sent to the signal generating unit 10, which is part of the signal transmitter 9, where a message is generated, which is transmitted to the radiation antenna 11, which is part of the signal transmitter 9. The generated message about the presence / absence of the search object is sent from the transmitter (block 9). After completion of the signal transmission, the device goes into standby mode (block 1).

Bibliography

1. EPO Patent No. 0253277, G01S 11/00, 1988.

2. Patent RU 2096829, 1997.

Claims (1)

A device for detecting and recognizing objects, which contains blocks of electronic equipment, including a detection antenna that receives radio emission from points on the object, a recognition unit, which includes interconnected parameter comparison circuits and a data bank, characterized in that a two-loop receiver is added, which includes a block the detection unit and the scanning unit, a scanning antenna with a phased array, a signal transmitter about the presence of an object, which consists of a signal conditioning unit and transmitting the antenna, the output of the detection antenna receiving radio emission from the points of the object is connected to the input of the detection unit, which is part of the dual-circuit receiver, and the output of the detection unit is connected to the input of the scan unit, which is part of the dual-circuit receiver, the output of the antenna with a phased array is connected to the second input of the scanning unit, the output of the scanning unit is connected to the input of the comparison circuit included in the recognition unit, the second input of the comparison circuit is connected to the input of the data bank included in recognition unit, the output of the comparison circuit is connected to the input of the signal generation unit, which is part of the signal transmitter, the output of the signal transmitter is connected to the input of the radiation antenna, which is part of the signal transmitter.

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