RU2551132C1 - System of remote information reading from moving objects and their components - Google Patents

Abstract

FIELD: measurement equipment.

SUBSTANCE: invention relates to systems of remote code identification of railway and automobile vehicles and automated accounting of cargo transportation by these devices. In the ISO 10374 standard reader path the channel of demodulation of reflected carrier signal in the ERS Gen2 format reflected from the ISO 18000-6c standard sensor, modulated by its code is formed, and request radiation is formed common for the reader of the programmable generator of the carrier frequency by means of the operating controller providing by results of demodulation of the sensor code in channels the operation of the reader generator in the conditions of ISO 10374 standard with continuous radiation of the carrier, or ISO 18000-6c standard with the modulated polling signal of the carrier according to ISO 18000-6c standard requirements. The sensors on moving object and the container (or object component) are spatially installed excluding the possibility of simultaneous occurrence in the reader visibility range.

EFFECT: expansion of functionality of existing remote radio-frequency identification of railway and motor transport objects and logistics objects at transit movement.

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Description

The invention relates to systems for remote code identification of rail and road vehicles and automated accounting of freight transport by these means.

A known request and detection system comprising a reader, an ISO 103374 standard sensor identifying an object (US patent 4739328, class G01S 13/00, NKI 342/44: 342/51, 1988). The reader includes a non-modulated oscillator, a transceiver antenna, a transmission line, two directional couplers, two mixers, a 90 ° high-frequency delay line, two low-frequency amplifiers and a low-frequency delay line and a demodulator. Directional couplers are included in the transmission line towards each other, and their outputs are connected to the inputs of the mixers. The local oscillator signal is connected to one mixer with a delay of 90 °. The signal from the mixers is fed to two bass amplifiers. The low-frequency signals are phase-shifted by 90 ° and after the limiter amplifiers are fed to the input of the demodulator.

The reader requests an object equipped with a sensor that provides an identifying sequence of "ones" and "zeros" in binary code, individual for a particular object. This code modulates the reflection from the sensor antenna.

The sensor includes a transceiver antenna, a rectifier, a variable load, and a modulated oscillator.

A known system for remote monitoring of moving objects and their nodes (RF patent No. 2291468). The system contains an information reader consisting of a transceiver antenna, a bandpass filter, a circulator, a carrier frequency generator, a mixer, an amplifier, a demodulator, a signal processing unit, two memory blocks and a program-controlled modulation device, as well as sensors, each of which contains a modulator that changes the characteristic antenna resistance, rectifier, code generator, demodulator, decoder, pulse shaper, two keys and an antenna.

This invention proposes a solution to the problem through the use of a sensor structure that provides interaction with the reader, vaguely reminiscent of the nature of the exchange according to ISO 18000-6s, but, strictly speaking, not corresponding to this standard. Therefore, the practical prospect of the implementation of this patent at the present level of development of standardization of the processes of exchange of the reader with the identification sensors of moving objects and the existing range of sensors of this standard is not clear.

At the same time, the ability to read the actual sensors of the ISO 10374 standard disappears.

Known adopted for the prototype system for remote reading of sensors of standard ISO 10374 (RF patent No. 2222030), containing a code sensor signal reader for remote identification of objects, including a transmitting and receiving path, a carrier frequency generator, a mixer, the output of which is connected to the input of the amplifier, the output which is connected to the input of the demodulator of signals of the ISO 10374 standard, and the output of the demodulator of signals of the ISO 10374 standard is connected to one of the inputs by the signal processing unit, implemented on Russian the roads.

In the prototype, a reader containing a transceiver antenna, the transmitting path of which is connected to the output of the carrier frequency generator, and the receiving path is connected to the first input of the mixer, the second input of which receives a signal from the output of the carrier frequency generator, and the mixer output is connected to the input of the amplifier, the output of which connected to the input of the demodulator, made in the form of a microprocessor unit, and the output of the demodulator with the signal processing unit, it is proposed to introduce into the reader a control device that implements the enable function and radiation of the reader by the reader enable signal at time intervals in which the sensor is in the antenna pattern. In addition, in order to increase the functionality of the system and save an array of identified object numbers, a memory device is inserted into the reader, from which an array of information is transmitted to the central information processing device through a device for matching the data line through the data line.

The prototype does not provide recognition of signals from sensors of the ISO 18000-6c standard (UHFGen2). The technical result to which the claimed invention is directed is to expand the functionality of the reader, namely, to ensure the identification of movable objects with mixed configuration, when, for example, a vehicle is identified by a sensor in ISO 10374, and transported goods (for example, containers) are identified by a sensor in the ISO 18000-6s standard.

The technical result of the invention is achieved in that a code sensor signal reader for remote identification of objects, including a transmitting and receiving path, a carrier frequency generator, a mixer, the output of which is connected to an amplifier input, the output of which is connected to an input of a code demodulator of ISO 10374 standard, and the output of the ISO 10374 standard code demodulator is connected to one of the inputs of the signal processing unit, equipped with two devices for signal separation, a controller that controls the operation of the generator carrier frequency, a second mixer, amplifier and demodulator of the ISO 18000-6s standard code, while the transmit-receive path is divided into a receive channel with a receive antenna and the transmit channel with a transmit antenna, the carrier frequency generator common to both channels is programmable, as mixers used quadrature demodulators, the transmitting antenna is directly connected to the first output of the programmable generator, the second output of which is connected to the input of the first device for signal separation, and the first the course of this device is connected to the input signal of the local oscillator of the first mixer, and the second output of the device is connected to the input of the local oscillator signal of the second mixer, while the signal input of the first mixer is connected to the first output of the second device for signal separation, the input of which is connected directly to the receiving antenna, and the second output the second device is connected to the signal input of the second mixer, the outputs of the first mixer are connected to the inputs of the first intermediate frequency amplifier, the output of which is connected to the demodulator the code of the ISO 10374 standard, and the outputs of the second mixer are connected to the inputs of the second intermediate frequency amplifier, the output of which is connected to the demodulator of the ISO 18000-6c code, the output of which is connected to the other input of the signal processing unit, one of the outputs of which is connected to the controller input, and the control output of the controller is connected to the programming inputs of the carrier frequency generator.

The other output of the signal processing unit is connected to the input of the storage device, the output of which is intended to be connected, via the corresponding matching device, to the communication line, and the third input of the signal processing unit is designed to connect to the device that fixes the object’s entrance into the reader’s field of view - the wheel sensor.

Also, the signal processing unit is configured to extend the code format of the ISO 18000-6s standard to the size of the code format of the ISO1374 standard, providing processing of the output information from the reader with a single software.

Fig. 1 shows a block diagram of a reader according to the claimed invention with possible implementation components, Fig. 2 shows a fragment of a reader reading the claimed structure of codes of identification sensors of rolling stock of a mixed configuration of ISO 10374 and ISO 18000-6c standards (ЕРС UHF Gen2). The reader includes the following elements:

1 - transmitting antenna, 2 - receiving antenna, 3 - programmable carrier frequency generator, 4 - control controller, 5, 6 - signal separation devices, 7, 8 - mixers (quadrature demodulators), 9, 10 - intermediate frequency amplifiers, 11, 12 - demodulators (signal processors) of the sensor codes, 13 - signal processing unit (central processor), 14 - storage device, 15 peripheral matching devices, 16 - transmission line (modem), 17 - device for fixing the object's entrance to the reader visibility zone ( wheel sensor).

The figure shows the elements of a possible implementation of the reader. At the same time, positions 3, 8, 10, 12 and partially 6 can be implemented by one AS3992 integrated circuit.

A code sensor signal reader for remote identification of objects includes a transmitting and receiving path, divided into a transmitting channel with a transmitting antenna 1 and a receiving channel with a receiving antenna 2. The mixer 7, by the output of which is connected to the input of the amplifier 9, the output of which is connected to the input of the code demodulator 11 ISO 10374. The output of the latter is connected to one of the inputs of the signal processing unit 13. The reader is equipped with two devices for separating signals 5 and 6, a controller 4, which controls the operation of the carrier frequency generator 3, a second mixer 8, and a demodulator 10 of the ISO 18000-6s standard code. The carrier frequency generator 3, common to both channels, is programmable. As mixers 7 and 8, quadrature demodulators were used. The transmitting antenna is directly connected to the first output of the generator 3. whose second output is connected to the input of the signal separation device 6, and the first output of this device 6 is connected to the first input of the mixer 7. The second output of the signal separation device 7 is connected to the first input of the mixer 9. Second the input of the mixer 8 is connected to the first output of the signal separation device 5, the input of which is connected directly to the receiving antenna 2. The second output of the device for signal separation 5 is connected to the second input of the mixture 8. The outputs of the mixer 7 are connected to the inputs of the first intermediate frequency amplifier 9, the output of which is connected to the demodulator 11 of the ISO 10374 code. The outputs of the mixer 8 are connected to the inputs of the second intermediate frequency amplifier 10, the output of which is connected to the demodulator 12 of the ISO 18000-6s standard code the output of which is connected to another input of the signal processing unit 13. One of the outputs of the latter is connected to the input of the controller 4. The control output of the controller is connected to the programming inputs of the generator 3 of the carrier frequency.

The other output of the signal processing unit 13 is connected to the input of the storage device 14, the output of which is intended to be connected, through the corresponding matching device contained in the device 15 matching with the periphery, to the communication line 16 (to the modem). The third input of the signal processing unit 13 is intended to be connected to a device 17 for fixing the object’s entrance into the reader’s field of view — a wheel sensor (also through the corresponding matching device contained in the peripheral matching device 15).

The signal processing unit 13 is configured to extend the format of the ISO 18000-6c standard to the size of the code format of the ISO1374 standard, providing processing of output information from the reader with a single software.

The operation of the device is carried out under the conditions of installing sensors on a moving object and a container (or object node), which excludes the possibility of simultaneously falling into the reader's field of view and occurs as follows.

When a movable object enters the reader's field of vision by a signal from an external source (a wheel sensor for a train or a signal of a protective barrier for vehicles to enter the arrival zone), the signal processing unit 13 issues a command to the control controller 4, by which the control controller 4 includes a programmable carrier generator 3 frequency in the carrier frequency generation mode of the ISO 18000-6s standard for detecting a single sensor in the field of view of the sensor of the ISO 18000-6s standard. In this mode, the reader’s high-frequency radiation cyclogram contains a continuous radiation zone for pumping the sensor power, a pulse-width modulation zone of carrier frequency radiation, containing an address recognition mechanism for the sensor and, when the sensor identifies whether the sensor generates an ISO 18000-6s identification code, the subsequent continuous radiation zone, from which a signal is emitted from the sensor antenna, modulated by its identification code. In the initial mode, the continuous radiation zone for recognition of the sensor code is expanded in the interests of the ISO 10374 standard by reducing the technically possible number of readings per unit time of the sensor codes of the ISO 18000-6s standard.

If the sensor of the ISO 18000-6s standard falls into the visibility range of the reader, the reader recognizes the sensor code by the demodulator 12 (digital signal processor) of the ISO 18000-6s standard code, and the lower-frequency demodulator 11 (digital signal processor of the ISO 10374 code fixation channel) does not pass the duration of the higher-frequency code sequence of the sensor standard ISO 18000-6s. When the ISO 18000-6c code is recognized by the command of the signal processing unit 13, the control controller 4 puts the programmable generator 3 into the mode of an increased number of sensor readings per unit time and saves this mode for the entire time the sensor is visible. When the sensor leaves the visibility range and there is no sensor signal in the reader channels for a predetermined time, the signal processing unit 13 issues a command to the control controller 4 to return the generator 3 to the extended continuous-emission mode of the carrier frequency of the ISO 18000-6s standard.

If the sensor of ISO 10374 standard falls into the visibility zone, then according to the radiation pattern of the ISO 18000-6c standard in the sensor in the pump zone, the power of its circuit is formed, which is stored in the address modulation zone, and in the zone of extended continuous radiation of recognition of the sensor code, an undistorted modulated sensor code sequence is generated reflected signal.

In the process of signal demodulation in the ISO 10374 code recognition channel, the nature of the sequence of ones and zeros is fixed in duration, including the code sequence marker of the ISO 10374 standard sensor, which differs significantly from the demodulated code sequence of the ISO 18000-6s standard. At the same time, the demodulator 13 in the recognition channel of the sensor codes of the ISO 18000-6c standard does not pass pulse signals of the sensor code of the ISO 10374 standard. When the code of the ISO 10374 standard is recognized, the control controller 4 sets the programmable generator 3 into the mode of continuous radiation of the carrier frequency and saves this mode until the sensor leaves the reader’s field of view, after which it returns the carrier frequency generator 3 to the operating mode of the ISO 18000-6c standard with an extended continuous radiation zone.

As a result, the task of identifying a moving object with mixed configuration of RFID sensors of ISO 10374 and ISO 18000-6s standards is solved.

Since the format of the code sequence of the ISO 10374 standard is 128 bits, and the format of the code sequence of the ISO 18000-6s standard is 96 bits, when the reader is operating as part of an automated system for remote reading of information from moving objects in the format of sensors of the ISO 10374 standard (for example, an automated identification system vehicles on the Russian Railways) in the signal processing unit 13, it is possible, if necessary, to add the standard sensor code to the required format with zeros ISO 18000-6s mouth.

This allows you to keep unchanged the interaction software of the reader with the information receiver.

This reader structure also allows you to set the reader in the operating mode only in the ISO 10374 standard or only in the operating mode in the ISO 18000-6c standard, while ensuring, for logistics purposes, recognition of a group of sensors of the ISO 18000-6c standard (EPCGen2) simultaneously located in the reading zone reader.

As sensors of the ISO 10374 and ISO 18000-6c standards, the widely used RFH sensors of the UHF range can be used, including the sensor of the ISO 10374 standard described in the prototype, with the corresponding encoding of the identified object and container. An AS3992-UHF Gen2 Reader chip can be used as a channel for allocating the sensor code of the ISO 18000-6c standard through a mixer, amplifier, and programmable carrier frequency generator in ISO 18000-6c and ISO 10374.

Microchip-PIC24EP512GP806, PIC18F26J11, PIC24EP512GU814 microcontrollers can be used as the controller controlling the generator, demodulators (signal processors) of the sensor codes, signal processing unit (central processing unit).

A device for dividing the signal from the antenna in the receiving path in half into two channels, for example, in the form of a symmetric divider of the signal power into two can be implemented on capacitors, and a device for dividing the signal from the output of the programmable generator to the input of the local oscillator of the channel mixer for the signal of ISO 10374 standard - on a directional coupler ADC-20-4. As a mixer with splitting the control signal of the carrier frequency into two signals shifted by 90 degrees, the U2794MFS quadrature demodulator.

Claims (3)

1. A code sensor signal reader for remote identification of objects, including a transmit-receive path, a carrier frequency generator, a first mixer, a first amplifier, a signal demodulator of ISO 10374 standard, the output of the first mixer is connected to the input of the first amplifier, the output of which is connected to the input of the demodulator signals of the ISO 10374 standard, and the output of the signal demodulator of the ISO 10374 standard is connected to one of the inputs of the signal processing unit, characterized in that it is equipped with two devices for signal separation, the controller controlling the operation of the carrier frequency generator, the second mixer, the second amplifier and the demodulator of the sensor code signals of the ISO 18000-6c standard, while the transmitting and receiving path is divided into a receiving channel with a receiving antenna and a transmitting channel with a transmitting antenna, a carrier frequency generator common to of both channels, is programmable, quadrature demodulators are used as the first and second mixers, intermediate frequency amplifiers are used as the first and second amplifiers, transmitting the tenn is directly connected to the first output of the programmable generator, the second output of which is connected to the input of the first device for signal separation, and the first output of this device is connected to the input signal of the local oscillator of the first mixer, and the second output of the device is connected to the input of the local oscillator signal of the second mixer, while the signal input the first mixer is connected to the first output of the second device for signal separation, the input of which is connected directly to the receiving antenna, and the second output of the second device connected to the signal input of the second mixer, the outputs of the first mixer are connected to the inputs of the first intermediate frequency amplifier, the output of which is connected to the signal demodulator of the ISO 10374 standard, and the outputs of the second mixer are connected to the inputs of the second intermediate frequency amplifier, the output of which is connected to the signal demodulator of the ISO 18000- standard 6c, the output of which is connected to another input of the signal processing unit, one of the outputs of which is connected to the input of the controller, and the control output of the controller is connected to the programmer yuschim inputs the carrier frequency generator. 2. The reader according to claim 1, characterized in that the other output of the signal processing unit is connected to an input of a storage device, the output of which is intended to be connected via a corresponding matching device to a communication line, and the third input of the signal processing unit is intended to be connected to a latching device Entrance of the object into the reader's field of view - to the wheel sensor. 3. The reader according to any one of paragraphs. 1 and 2, characterized in that the signal processing unit is configured to extend the format of the ISO 18000-6s standard to the size of the code format of the ISO 1374 standard, providing processing of the output information from the reader with a single software.

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