EA008021B1 - Device for identification of objects - Google Patents

Abstract

The invention relates to telemetric systems and can be used for identification of moving objects, in particular, to transport means.The technical result of the invention is aimed at enhanced reliability of reading of on-board sensors.This is achieved by using in the known device of objects identification a read-out facility and a sensor comprising information about the identification object and including an antenna connected through a power supply to a synchronization unit, a memory unit and a coder of coding pulses connected in series and the read-out facility comprises a transceiving antenna, a transmitting path of which is connected via a circulator to the first output of a frequency carrying generator and a receiving path via a circulator to the first input of the multiplexer, the second input of which is connected to the second output of the frequency carrying generator a multiplexer output is connected to demodulator input, the demodulator output is connected to the first input of a signal processing block, the second input output of the signal processing block is connected to the first output of the control device, the second output of which is connected to the control input of the frequency carrying generator and the control device input is connected to the device of the read-out activator, according to the invention the transceiving antenna of the read-out facility is designed with a narrow directional pattern and the sensor additionally comprises a matching transformer connected to the antenna before the power source device, an integrator connected to its output and a peaker of voltage built-up front, the input of which is connected to the integrator output, the output to the power inputs of the synchronization unit, the memory unit and the coder of data codings.

Description

The invention relates to the field of telemetry systems and can be used to identify moving objects, in particular vehicles.

A device is read information from moving objects of trains, containing a fixed reading device connected to the line of communication and having passive transponders for identifying an object with a fixed code, placed on the locomotive, platform, car, wheel pairs, which for information retrieval are spaced apart, passive code container identification sensors and a closing locking device on the opening parts of the container. Passive code sensors of containers are made with the possibility of reprogramming the code that allows the reader to distinguish it from the transponder codes of the locomotive, platform, car, wheel sets, locking devices and other containers of this platform, and each locking device is equipped with a transponder that issues a code when the integrity of the locking device is violated recorded by a reader (RF patent № 2191127, cl. В61Ь 25/02, 2002)

The disadvantages of this device are the need for placing on the vehicle a large number of sensors, which is caused by the antenna pattern of the readout point antenna, and the low azimuth resolution.

The object identification system is also known, which contains a reader and a sensor in which information on the identification object is recorded and consists of an antenna connected to a modulator and a memory device, and the reader contains a transceiver antenna whose transmitting path is connected via a circulator to the first output of a carrier frequency generator, and the receiving path through the circulator - with the first input of the mixer, the second input of which receives a signal from the second output of the carrier frequency generator, and the output of the mixer is connected to in The amplifier's amplifier, the output of which is connected to the input of the demodulator, and the output of the demodulator - with the signal processing unit. A control device is entered into the reader, the input of which is the reader input, and the first, second and third outputs are connected to the control inputs of the carrier frequency generator, the signal processing unit and the data line matching device. A power coupler, a power supply device, a synchronization device and a code parser coder are entered into the sensor, and the carrier frequency signal is fed through the second output of the power coupler to the input of the power device, the output of which is connected to the power inputs of the synchronization device, memory device, and code coder encoder whose output is connected to the modulator input, the output of which is connected to the first output of the coupler, and the input to the information output of the storage device, the input of which is connected to the output of the device synchronization Islands (RF patent number 2,222,030, Cl. 6018 13/82, 2004)

The disadvantages of this system are the low resolution in azimuth and the cumbersome design of the on-board sensor, which does not allow realizing the capabilities of the modern element base.

The objective of the invention is to create a device for the identification of objects with greater reliability of reading codes on-board sensors.

The technical result of the invention is to increase the reliability of reading codes on-board sensors.

This is achieved by the fact that in a known object identification device consisting of a reader and a sensor containing information about the identification object and consisting of an antenna connected through a power device to a synchronization device, a memory device and an encoder of code packets connected in series, and the reader contains a transceiver antenna , the transmitting path of which is connected via a circulator to the first output of a carrier frequency generator, and the receiving path through a circulator to the first input of a mixer, secondly A swarm whose input is connected to a second output of a carrier generator, and a mixer output is connected to a demodulator input, a demodulator output to a first input of a signal processing unit, a second input of a signal processing unit to a first output of a control device, the second output of which is connected to a control input of a carrier generator frequency, and the input of the control device is connected to the reader switch-on device according to the invention, the reader’s transceiver antenna is structurally designed with a narrow directivity pattern and the sensor additionally contains a matching transformer connected to the antenna in front of the power supply device, an integrator connected to its output, and a sharpening front of the rising voltage of the supply voltage, the input of which is connected to the integrator's output, and the output to the power inputs of the synchronization device, memory device and coder code parcels

The technical result is achieved by changing the design of the sensor and antenna, which allows to improve the resolution in azimuth and increase the accuracy of reading.

FIG. 1 shows a block diagram of a sensor of an object identification device, where an antenna 1, a power device 2, a synchronization device 3, a memory device 4, a code parcel encoder 5, a matching transformer 14, an integrator 15, a rising voltage front peg 16.

FIG. 2 shows a block diagram of a reader of an object identification device, where a transceiver antenna 6, a circulator 7, a carrier frequency generator 8, a mixer 9, a demodulator 10, a signal processing unit 11, a control device 12, a reader activation device 13.

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Object identification device consists of a sensor and a reader.

The sensor contains a power supply device 2, the input of which is connected to the antenna 1 via a quarter-wave matching transformer 14, and the outputs to the integrator 15 and the encoder of code parcels 5. At the same time, the output of the integrator 15 is connected to the inputs of the synchronization device 3, which stores device 4 and encoder code parcels 5 connected to each other in series.

The reader contains a transceiver antenna 6, the transceiver path of which is connected through a circulator 7 to the first output of the carrier frequency generator 8, and the receiving path through the circulator 7 to the first input of the mixer 9. The second input of the mixer 9 is connected to the second output of the carrier frequency generator 8, and the output of the mixer 9 - with the input of the demodulator 10, the output of which is connected to the first input of the signal processing unit 11. The second input of the signal processing unit 11 is connected to the first output of the control device 12, the second output of which is connected to the control their entrance carrier generator 8. A control input device 12 is connected to the switching device reader 13. The output signal processing unit 11 may be connected to the devices located nearby, e.g., signal.

As a transceiver antenna 6 of the reader use an antenna having a narrow radiation pattern in the azimuth and elevation plane.

The device identification of objects works as follows.

Before the advent of the sensor in the area of the radiation pattern of the transceiver antenna 6, the device for switching on the reader 13 generates a signal for switching on the radiation.

The carrier frequency is generated in the carrier frequency generator 8 and is activated by a signal from the control device 12. The carrier frequency through the circulator 7 is fed to the transceiver antenna 6 and to the first input of the mixer 9. After the signal from the reader 13 turns on, the transceiver antenna 6 irradiates the sensor with a non-modulated carrier frequency. A modulated response signal arriving at the transceiver antenna 6 then passes through the circulator 7 to the second input of the mixer 9. From the output of the mixer 9, the signal goes to the demodulator 10. The useful signal selected by the demodulator 10 goes to the signal processing unit 11. The signal processing unit 11 decides on the authenticity of the identification code. The signal processing unit 11 processes information in the presence of a signal from the control device 12.

When a sensor appears in the working area of the radiation pattern of the transceiver antenna 6 of the reader, an unmodulated signal is induced at the sensor antenna 1, which through a quarter-wave matching transformer 14 enters the input of power supply device 2, where the energy of the carrier frequency is converted to a constant voltage. The rectified voltage is supplied to the encoder of the code parcels 5 and to the input of the integrator 15. When the sensor moves in the joint working area of the antenna patterns 1 and 6, a voltage drop occurs at the output of the integrator 15, the front tilt angle of which increases in the peaking edge of the supply voltage 16. This transformed the voltage edge difference, which serves as a synchronization signal, is fed to the inputs of the synchronization device 3, the storage device 4, and the encoder of the code parcels 5. The impulse voltage from the device output The synchronization events 3 are fed to the control input of the memory device 4, which ensures the reading of the identification code previously recorded in it. This code is fed to the input of the coder 5 encoder, which modulates the signal reflected from the antenna 1.

The information read and decoded in the signal processing unit 11 can be used both to initiate user automation devices and to save on any type of media, including computers, for subsequent processing.

The proposed device for the identification of objects showed in the process of testing a high degree of accuracy of identification, in particular of railway cars, which made it possible to use it in the identification of rolling stock of the company “Kazakhstan Tem1r Zholy”.

Claims (2)

CLAIM An object identification device consisting of a reader and a sensor containing information about the identification object and consisting of an antenna connected through a power device to a synchronization device, a memory device and an encoder of code parcels connected in series, and the reader contains a transceiver antenna whose transmitting path is connected through a circulator with the first output of the carrier generator, and the receiving path through a circulator with the first input of the mixer, the second input of which is connected to the second in the carrier frequency and the output of the mixer is connected to the input of the demodulator, the output of the demodulator to the first input of the signal processing unit, the second input of the signal processing unit to the first output of the control device, the second output of which is connected to the control input of the carrier frequency generator, and the input of the control device connected to a reader switch-on device, characterized in that the reader's transmitter-receiver antenna is structurally made with a narrow radiation pattern, and the sensor further comprises popping a transformer connected to the antenna device before - 2 008021 power supply, an integrator connected to its output, and a sharpener of the rising edge of the supply voltage, the input of which is connected to the output of the integrator, and the output - to the power inputs of the synchronization device, the memory device and the encoder of the code sends.