RU2387017C2 - System for interfacing devices for preventing false data entry into monitored objects - Google Patents

Abstract

FIELD: information technology.

SUBSTANCE: invention can be used for designing and scaling systems for preventing false data entry into monitored objects. There is an interfacing device connected in series with a sensor and an information processing unit. The interfacing device consists of three signal selection units, three matching devices, two demodulators, two units for converting a serial combination into an n-bit parallel combination, two memory cells, a comparator unit 9, a unit for converting an n-bit parallel combination into a serial combination and a modulator.

EFFECT: broader functionalities of systems for preventing false data entry into monitored objects owing to the possibility of using several sensors of the same type.

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Description

FIELD OF THE INVENTION

The device relates to techniques for security and fire alarms and can be used to create and scale imitation protection systems of controlled objects, created on the basis of a device for simulating protected objects.

State of the art

A known system for centralized notification of violation of a guarded object, including object devices installed on objects and connected to the subscriber line using signal relay contacts, a switching and broadcast device installed on the cross of an automatic telephone exchange and containing a distribution and control unit, an amplitude unit selections and linear kits connected to subscriber communication lines using the contacts of linear relays, and a receiving device installed in pu nte of protection (see USSR author's certificate No. 383091, class G08B 25/02).

This system provides security for facilities with individual telephone sets. The system, after taking the object under protection, monitors the subscriber line connecting the protected object with the device for switching and broadcasting to the open and short circuit. If a violation occurs at the facility, the signal relay contact included in the subscriber line opens and thereby sends an alarm signal to the switching and broadcasting device, which then arrives at the receiving device, but this system does not provide operational control.

A device for signaling the status of monitored objects, containing communication lines installed on the objects of the transmission units, each of which consists of a code lock connected to the input of the control unit, a translator containing a linear unit, amplifier, selector, decoder, the first output of which connected to the first input of the linear block, a counter, a notification type memory block, an information transmission permission block and a pulse generator, the output of which is connected to a counter containing a print block, an indication block and an electric clock (see USSR author's certificate No. 374646, class G08B 25/02).

The device provides the issuance of security and fire alerts, allows the materially responsible person to automatically arm the object and disarm it with an electrocode lock, acknowledging the performance of these functions both at the object and at the receiving device at the security point, but does not provide operational control.

The closest technical solution to the proposed invention is a device for signaling the state of controlled objects, consisting of a transmission unit containing a code lock, a control and reception unit, a high-frequency generator, a signal selection unit, communication lines, a translator containing a clock generator, serial binary counter, decoder, memory block of the type of notices, block of permission to transmit information, amplifier, pulse width selector, comparison block, analyzer a, a buffer memory unit, a control unit, a transceiver, linear units, a control unit, an information receiving unit containing a print unit, an electric clock unit, a control unit, a transceiver, a buffer memory unit, a random access memory unit, a memory unit, a light panel, an indication unit the status of the communication line with the translator (see USSR author's certificate No. 691906, class G08B 25/02, 1979).

The device provides the issuance of security and fire notices, allows the materially responsible person to automatically arm the object and disarm it with an electrocode lock, acknowledging the performance of these functions both at the object and at the receiving device at the security point, and round-the-clock security of the object telephone communications, but also does not provide operational management and system reliability.

However, these systems do not allow detecting the substitution of the transmission unit when introduced into the communication line between the transmission unit and the translator.

A device for imitating controlled objects is known, which allows to increase the reliability of monitoring of protected objects and expand the functionality of known devices for signaling the status of controlled objects (see RF patent No. 2310236, class G08B 25/02 2007.11.10.).

However, this device is designed to work with only one sensor and does not provide for the expansion of the system for use with multiple sensors.

Disclosure of invention

The objective of the invention is to develop a device that allows you to organize a system consisting of many devices for the protection of monitored objects that provide operational control.

The technical result, which can be obtained using the proposed invention, is to expand the functionality of the device for the protection of monitored objects due to the possibility of using many of the same sensors, operational management.

The technical result is achieved using a device that is an intermediate node, through which the transmission units containing sensors are connected to a common bus. The device contains two memory cells, a signal comparison unit, three signal selection blocks, three matching devices, a modulator, two demodulators, a block for converting a parallel n-bit combination to a serial, two blocks for converting a serial combination to an n-bit parallel combination, and the input from the block the transmission containing the sensor is connected to the input of the first block of signal selection, the output of the first block of signal selection is connected to the input of the first matching device, the output of the first matching the device is connected to the input of the first demodulator, the output of the first demodulator is connected to the input of the first block for converting the serial combination to n-bit parallel combination, the output of the block for converting the serial combination to n-bit parallel combination is connected to the first memory cell, the input from the common bus is connected to the input of the second signal selection unit, the output of the second signal selection unit is connected to the input of the second matching device, the output of the second matching device is connected to the input to the second demodulator, the output of the second demodulator is connected to the input of the second unit for converting the serial combination to n-bit parallel combination, the output of the second unit for converting the serial combination to n-bit parallel combination is connected to the second memory cell, the outputs of both memory cells are connected to the input of the comparison unit, the output of the comparison unit is connected to the input of the conversion unit of the parallel n-bit combination into serial, the output of the conversion unit of parallel n-bit Combinations serialization connected to an input of the modulator, the modulator output is connected to the third input of the matching device, the third output matching device is connected to the input of the third unit electing signals electing unit output signal is connected to the common bus.

Brief Description of the Drawings

Figure 3 shows a device for simulating controlled objects (see RF patent No. 2310236, class G08B 25/02 2007.11.10.).

Figure 2 is the same, the pairing device.

Figure 1 is given a system for interfacing devices for simulating controlled objects, a general view.

The implementation of the invention

The interface system of devices for simulating controlled objects consists of at least one interface device 1 connected in series with a transmission unit 2 and an information processing unit 3, while the interface device 1 consists of a first signal selection unit 4, a first matching device 5, and the first demodulator 6, the first block for converting the serial combination to n-bit parallel 7, the first memory cell 8, the comparison unit 9, the second block for selecting signals 10, the second matching device VA 11, a second demodulator 12, a second block for converting a serial combination to n-bit parallel 13, a second memory cell 14, a block for converting an n-bit parallel combination to serial 15, a modulator 16, a third matching device 17, a third election block 18, and the output the sensor is connected to the input of the first block of signal selection 4, the output of the first block of signal selection is connected to the input of the first matching device 5, the output of the first matching device 5 is connected to the input of the first demodulate 6, the output of the first demodulator 6 is connected to the input of the first block for converting the serial combination to n-bit parallel combination 7, the output of the block for converting the serial combination to n-bit parallel combination 7 is connected to the first memory cell 8, the input from the common bus is connected to the input of the second block selection of signals 10, the output of the second block of selection of signals 10 is connected to the input of the second matching device 11, the output of the second matching device 8 is connected to the input of the second demodulator 12 of the first demodulator 12 is connected to the input of the second block for converting the serial combination to n-bit parallel combination 13, the output of the second block for converting the serial combination to n-bit parallel combination 13 is connected to the second memory cell 14, the outputs of both memory cells 8 and 14 are connected to the input of the block comparison 9, the output of the comparison unit 9 is connected to the input of the conversion unit of the parallel n-bit combination to serial 15, the output of the conversion unit of the parallel n-bit combination in the sequential The dummy 15 is connected to the input of the modulator 16, the output of the modulator 16 is connected to the input of the third matching device 17, the output of the third matching device 17 is connected to the input of the third block of signal selection 18, the output of the block of signal selection 18 is connected to a common bus.

A device interface for simulating controlled objects works as follows.

All transmission units 2 are connected to a common bus via interface devices 1.

In the information processing unit 3, when a start signal is supplied from the control unit 46, which is part of the information reception unit 47, to the input of the start sequence memory unit 30, a command to initialize the control device 29 is received from the second output of the start sequence memory unit 30, for this through the generator 34 of the key to the reset inputs to the initial state of the generator 35 of the binary pseudo-random sequence PSP-1, the memory block 36 of the control value, the generator 37 of the binary pseudo-random sequence In the case of PSP-2, the block of the first storage device 38, a binary sequence (key) is supplied, which is perceived as a “reset” command; simultaneously, from the first output of the start sequence memory block 30, the binary start sequence stored in the block is supplied to the first input of the parallel combination conversion unit 31 into consistent. When the binary start sequence passes through the parallel-to-serial conversion unit 31, the modulator 32, the matching device 33, the signal selection unit 44 included in the translator 45, the signal containing the value of the start sequence is transmitted from the information processing unit 3 via a common bus to each transmission unit 2, where it is received by the signal selection block 43 and transmitted to the sensor 19, when passing through the matching device 28, demodulator 26, the sequence conversion unit 25 In the parallel combination, the binary start sequence is written to the memory block 24. From the memory block 24, the binary start sequence is sent to the comparison block 21, where it is compared with the sequence stored in the memory block 20 of the start sequence (the memory blocks of the start sequence 20, 30 contain the same same starting sequence), and in case of coincidence of the sequences, the comparison unit 21 generates a signal for initialization of the memory unit 24 and the generator 22 PSP-2, th preparing generator 22 SRP-2 each sensor 19 to receive parcels from generator 35 CAP-1. At the same time, the start sequence received from the start sequence memory unit 30 starts the key generator 34, which generates the start combination of the PSP-1 generator 35.

Formed in the generator 35 PSP-1, the first value of the binary first pseudo-random sequence (PSP-1) is stored in the memory block 36 of the control value. The first PSP-1 value stored in the memory 36 of the control value starts the PSP-2 generator 37 (the generation functions of the second pseudo-random sequence of generators 22, 37 PSP-2 are identical), the first value of the second pseudo-random sequence (PSP-2) generated by the PSP-2 generator 37 stored in the block of the first storage device 38. At the same time, the first value of PSP-1 formed in the PSP-1 generator 35 is supplied to the second input of the parallel combination to serial combination conversion unit 31 and through the modulator 32, with the clapper device 33, the signal selection unit 44, which is part of the translator 45, is transmitted from the information processing unit 3 via a common bus to each transmission unit 2, where it is received by the signal selection unit 43 and transmitted to the sensor 19, when passing through the matching device 28, the demodulator 26 is input to the block 25 converting the serial combination to parallel. From the output of the block 25 converting the serial combination into parallel, the first value of PSP-1 is fed to the input of the memory block 24, where it is stored. The first PSP-1 value stored in the memory unit 24 is compared in the comparison unit 21 with the sequence permanently stored in the memory unit 20. If the sequences do not match, the command to set the sensor 19 to its initial state is not generated, and the first PSP-1 value stored in the memory unit 24 gives the command to the PSP-2 generator 22 to generate a pseudo-random sequence. Formed in the generator 22 PSP-2, the first value PSP-2 is fed to the input of the block 23 converting the parallel combination into serial and through the modulator 27, the matching device 28, the block signal selection 43, which is part of the transmission unit 2, the signal containing the first value of PSP- 2 is transmitted to the interface device 1.

A signal containing the first PSP-2 value is received by the first block of signal selection 4 of the coupler 1, passes through the first matching device 5, the first demodulator 6, the first block for converting the serial combination to n-bit parallel 7 and is recorded in the first memory cell 8, similar In this way, the signal arriving on the bus and containing the first PSP-2 value of the previous interface device 1 is received by the second signal selection unit 10 and passes sequentially through the second matching device 11, the second demodulator 12, the second block for converting the serial combination to n-bit parallel 13, and the PSP-2 value is recorded in the second memory cell 14. The comparison unit 9 compares the sequences stored in memory cells 8 and 14 (PSP-2 value from the block transmission 2 and the PSP-2 value, which came over the bus from the previous interface device 1), and if they are not identified, it generates a reset signal, which is transmitted via the common bus to the information processing unit 3. In case of coincidence, the PSP-2 is transmitted from the comparison unit 9, the n-bit parallel to serial combination conversion unit 15 passes through the modulator 16, the third matching device 17, and through the third election unit 18, the signal containing the PSP-2 is transmitted to the common bus to the next interface device 1. After comparing the PSP-2 stored in memory cells 8 and 14, the comparison unit 9 also generates a reset command, which brings the memory cells 8 and 14 to the initial state, preparing the interface device 1 to receive the following values of PSP-2. All signals transmitted over the bus remain unchanged.

At the input of the information processing unit 3 through the signal selection unit 44, which is part of the translator 45, matching device 33, the demodulator 42, the first value of the PSP-2 is fed to the input of the serial combination to parallel conversion unit 41, converted in the serial combination to parallel conversion unit 41 the value of PSP-2 is recorded in the block of the second storage device 40.

In the case of the correct operation of all the sensors, a signal containing the first value of PSP-2 will arrive at the input of the information processing unit 3 (PSP-2 generated by the generators 22 of all sensors 19 are identical), if at least one of any sensor does not work correctly, the input to the block information processing 3 will receive a reset signal (violation of the mode of imitation protection), which through the block selection of signals 44 will go to the input of the control unit 47, which is part of the unit 48 for receiving information.

Thus, in the block of the first storage device 38, the first PSP-2 value generated by the PSP-2 generator 37, which is part of the control device 29, is stored, and in the second memory block 40, the first PSP-2 value generated by the PSP-2 generator 22 is stored each sensor 19 and came to the information processing unit 3 via a common bus. Based on the fact that for the generation of pseudo-random sequences by the PSP-2 generators 22, 37, the same pseudo-random sequence generation function developed by the PSP-1 generator 35 is used, the values located in blocks 38 and 40 should be the same (in the absence of unauthorized replacement of one or more transmission units or damage to a common bus). To check the immunity of the common bus and transmission units 2, the values stored in blocks 38, 40 are compared in the comparison unit 39. If the values coincide, the comparison unit 39 generates a “normal” command, which starts the generator 35 ПСП-1 to generate the next value ПСП-1 . In the event of a discrepancy between the values (violation of the imitation protection mode), the comparison unit 39 issues an alarm signal to the input of the control unit 46, which is part of the information reception unit 47.

The advantage of the proposed device is the ability to create a system of many similar devices for simulating controlled objects. In this case, it is possible to work with only one information processing unit.

Claims (1)

A device interface system for simulating controlled objects, comprising an interface device connected in series with a sensor and an information processing unit, characterized in that the interface device consists of two memory cells, a signal comparison unit, three signal selection units, three matching devices, a modulator, two demodulators , a block for converting a parallel n-bit combination to a serial, two blocks for converting a serial combination to an n-bit parallel combination, moreover, the input from the sensor is connected to the input of the first block of signal selection, the output of the first block of signal selection is connected to the input of the first matching device, the output of the first matching device is connected to the input of the first demodulator, the output of the first demodulator is connected to the input of the first block of converting the serial combination to n-bit parallel combination, the output of the conversion unit of the serial combination into an n-bit parallel combination is connected to the first memory cell, the input from the common bus is connected n to the input of the second block of signal selection, the output of the second block of signal selection is connected to the input of the second matching device, the output of the second matching device is connected to the input of the second demodulator, the output of the second demodulator is connected to the input of the second block of converting the serial combination into an n-bit parallel combination, the output of the second the unit for converting a serial combination to an n-bit parallel combination is connected to the second memory cell, the outputs of both memory cells are connected to the input of the block As a comparison, the output of the comparison unit is connected to the input of the conversion unit of the parallel n-bit combination to serial, the output of the conversion unit of the parallel n-bit combination to serial is connected to the input of the modulator, the output of the modulator is connected to the input of the third matching device, the output of the third matching device is connected to the input of the third block of signal selection, the output of the block of signal selection is connected to a common bus.

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