RU2633986C2 - Method of dynamic protected object state control - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: state parameters, necessary and characterizing the respective event type, are determined in the method of the dynamic protected object state control, each event is assigned to the corresponding symbol in analyzing the protected object state according to the certain indications of the certain sensors, the aggregate and sequence of the symbols describing the available events are formed, the current comparative analysis of the formed symbol aggregates and sequences is produced with them previously introduced into the database, in accordance with the statistical data, based on which the criticality class of the situation is determined, and the control signal is sent to the actuators eliminating and/or preventing an emergency situation in the corresponding segment/segments of the protected object, and/or alarms and/or the corresponding external services of eliminating an emergency situations in accordance with the criticality class of the situation.

EFFECT: increasing the control reliability.

2 cl; 1 dwg

Description

The invention relates to techniques for monitoring the state of a protected object by monitoring security systems and access control systems of an object, based on which, based on an analysis of the received signals, emergency situations at the protected object are eliminated or prevented.

A known method of dynamic monitoring of the state of a protected object, in which the necessary and characterizing the corresponding type of event state parameters are determined using detectors installed on the protected object containing sensors for measuring and / or fixing certain state parameters, sends a control signal based on the analysis of the state of the protected object according to the readings of the sensors to executive devices for liquidation and / or prevention of an emergency in the relevant controlled segment / segments of the guarded facility, and / or warning equipment and / or corresponding external emergency response services (see RF patent for invention No. 2291072, G08B 25/00, publ. 2007). The disadvantages of this method include the lack of reliability and limited functionality due to the analysis of the assessment of the situation at the protected object on the basis of the readings of each of the sensors separately without taking into account their combination and sequence, which affects the assessment of the criticality of the situation.

The closest in technical essence to the proposed one is a method of dynamic monitoring of the state of the protected object, in which the necessary and characterizing the corresponding type of event status parameters are determined using detectors installed on the protected object, containing sensors for measuring and / or fixing certain state parameters, based on the analysis of the state of the protected according to the readings of the object, they direct the control signal to the actuators for eliminating and / or preventing non- tnoj situation under controlled segment / segments of the protected object, and / or alarm means and / or appropriate external service emergency response (see. RF patent №2460144, G08B 25/00, publ. 2011). The disadvantages of this method can also be attributed to insufficient reliability and limited functionality due to the analysis of the assessment of the situation at the protected object on the basis of the readings of each of the sensors separately without taking into account their combination and sequence, which affects the assessment of the criticality of the situation.

The present invention is aimed at solving the problem and achieving a technical result, which consists in increasing the reliability and expanding functionality, which is ensured by taking into account when assessing the situation at the protected object the totality and sequence of readings of measurement sensors and / or fixing certain state parameters.

This technical result is achieved by the fact that in the method of dynamic monitoring of the state of the protected object, in which the necessary and characterizing the corresponding type of event state parameters are determined by means of detectors installed on the protected object that contain sensors for measuring and / or fixing certain state parameters, based on the analysis of the state of the protected according to the readings of the object, they direct the control signal to the executive devices for eliminating and / or preventing an emergency in the relevant controlled segment (s) of the guarded facility, and / or warning equipment and / or corresponding external emergency response services, when analyzing the state of the guarded facility in accordance with certain indications of certain sensors, each event is assigned a corresponding symbol, and sets and sequences of characters characterizing existing events, produce a current comparative analysis of the formed sets and sequences of characters with entered into the database, in accordance with the statistics, on the basis of which the criticality class of the situation is determined, the control signal is sent to the executive devices for eliminating and / or preventing an emergency in the corresponding segment / segments of the protected object, and / or warning devices, and / or appropriate external emergency response services in accordance with the criticality class of the situation.

The fact that when analyzing the state of the protected object in accordance with certain readings of certain sensors assign an appropriate symbol to each event, form the sets and sequences of characters that characterize existing events, make a current comparative analysis of the formed sets and sequences of characters previously entered into the database, in accordance with statistical data, provides a more reliable assessment of the current situation, and also allows about there is a prediction of the further development of the situation in accordance with statistical data, since the most fully available situation is described, and as practice shows, not by the readings of each of the sensors separately (such readings are reflected in the form of certain symbols), but by the totality and sequence of such readings (characters) .

Based on a comparative analysis of the generated sets and sequences of characters with previously entered into the criticality class database of the situation (permissible, warning, emergency, emergency, emergency) and the direction of the control signal to the executive devices for eliminating and / or preventing emergency situations in the corresponding segment / segments guarded facility, and / or warning equipment, and / or relevant external emergency response services in accordance with Corollary to criticality class situation, extends the functionality of the method due to the possibility of generating a control signal in accordance with the most comprehensive assessment of the situation prediction and its probable development.

The proposed method can be implemented, for example, using the device shown in the drawing and described below.

A device for implementing a method for dynamically monitoring the state of a protected object includes detectors 1 installed on the protected object, containing sensors for measuring and / or fixing certain state parameters, actuators 2 for eliminating and / or preventing an emergency in the corresponding controlled segment / segments of the protected object, and / or warning means 3, connected through a computer unit 4 of the object data exchange network (central server) to the control unit 5. In turn, the control unit 5 is connected via the evaluation and decision-making unit 6 to the communication and data transmission module 7 to the corresponding external emergency response services, as well as to the comparative analysis unit 8. At the same time, the device also contains a unit 9 for generating an aggregate and sequence of characters characterizing existing events, configured to assign a corresponding symbol to each event in accordance with certain readings of certain sensors of the detectors 1 and generate a sequence of characters in the control mode. The unit 9 for generating the totality and sequence of characters is connected with the computer unit 4 of the object data exchange network, and through the comparative analysis unit 8 with the template unit 10, the database of which contains the sets and sequences of characters that determine the criticality class of the situation in accordance with the statistical data. In this case, the comparative analysis unit 8 is configured to compare the aggregate and the sequence of characters generated by the unit 9 with the aggregates and sequences of characters that determine, in accordance with the statistics, the criticality class of the situation and the direction based on such an analysis of the information signal to the control unit 5. The device can also be equipped with a mode setting unit 11 associated with a control unit 5 intended for setting object security modes, for example, time intervals and the polling sequence of detectors 1.

Computer unit 4 of the data exchange object network (central server) can be installed either directly on the protected object or outside it.

All blocks are made using well-known circuitry and operate in accordance with simple algorithms. So, for example, in block 9 of forming the aggregate and sequence of characters, in accordance with the readings of the sensors of the detectors 1, each particular indicator is assigned a well-defined character, for example, just a letter, and, according to the mode, a given sequence of characters is compiled.

Block 10 of the templates, in essence, is a database that contains sets of sets and sequences of characters that determine, in accordance with statistical data, the criticality class of the situation.

The proposed method for dynamic monitoring of the state of the protected object is carried out using the above device as follows.

According to the mode set by block 11 (for example, at certain intervals, in certain segments of the guarded object, etc.), using the sensors of the detectors 1, the necessary and characterizing state parameters are determined. Such parameters may be the triggering of motion sensors, door opening, room temperature, room smoke, etc. All information signals are fed to block 9 of the formation of the totality and sequence of characters, in which each signal is assigned a specific symbol, for example, a letter, and, in accordance with a given mode, a certain combination and sequence of characters is formed. Then this collection and sequence of characters goes to block 8 of the comparative analysis, which also receives information from a database of sets and sequences of characters that determine, in accordance with statistical data, the criticality class of the situation, block 10 templates. In block 8, a comparison and analysis of the formation of sets and sequences of characters received from block 9 from the point of view of their identity with the sets and sequences of characters available in block 10 of patterns is performed, if a match is found, in accordance with the criticality class of the situation, which may be: the situation is acceptable, warning, emergency, emergency, emergency, the corresponding information signal is sent to the control unit 5. From block 5, in accordance with a predetermined algorithm of its operation, through the computer block 4 of the object data exchange network (central server), control signals are sent to actuators 2 of eliminating and / or preventing an emergency in the corresponding segment / segments of the protected object, and / or means 3 alerts. In the case of, for example, an emergency, the corresponding signal enters the evaluation and decision making unit 6, in which, after making a decision on the need to use the appropriate external emergency response services (for example, fire fighting services, police, emergency response, etc.), through the module 7, a corresponding information signal is sent to these services.

The implementation of the method can be illustrated by the following examples.

Events are assigned the appropriate characters.

For example, A: user identification 1, B: user identification 2, C - fire alarm, D - door opening, E - motion sensor, F - room temperature increase over 50 degrees. C etc.

The sequences DEA, DEB mean the allowed passage of the identified users and have a criticality class of the situation - “permissible”. The DEA FC sequence means a fire, user 1 is present at the facility (it can be prevented) and, for example, has an emergency criticality class for the first time (assumes the possibility of elimination by own fire fighting means). At the same time, control signals are received through the computer unit 4 of the object data exchange network (central server) to actuate the emergency liquidation devices 2 (local fire extinguishing means) of an emergency in the corresponding segment / segments of the protected object and warning means 3 (for example, an audio siren). If after a certain period of time the DEA FC sequence does not change and, for example, is supplemented by the G event - critical smoke in the room, this situation goes into the emergency class of criticality, which already implies the possibility or necessity of using appropriate external emergency response services (in this case municipal fire fighting service 01). In this case, the corresponding signal from the control unit 5 enters the evaluation and decision making unit 6, in which, after making a decision on the need to use the appropriate external emergency response services (for example, fire fighting services, police, emergency response, etc.), through the module 7 of the communication, the corresponding information signal is sent to the municipal fire extinguishing service 01. Obviously, all the sequences of characters indicated in the example, as well as all possible sequences of different situations and previously made to the unit 10 database templates in accordance with the statistical data, and all the control signals are generated based on a comparative analysis in block 8.

The proposed method of dynamic monitoring of the state of the protected object provides increased reliability and enhanced functionality when assessing the criticality of the situation at the protected object based on the analysis of the totality and sequence of readings of measurement sensors and / or fixing certain state parameters.

Claims (2)

1. A method for dynamically monitoring the state of a protected object, which determines the necessary and characterizing the corresponding type of event parameters of the state of the protected object using detectors installed on the protected object that contain sensors and / or recording certain parameters of the state of the protected object, based on the analysis of the state of the protected object the sensor readings send a control signal to the actuators for eliminating and / or preventing an emergency in accordance with monitoring controlled segment / segments of the protected object, and / or warning equipment and / or corresponding external emergency response services, characterized in that when analyzing the state of the protected object in accordance with certain readings of certain sensors, each symbol characterizing the state of the protected object is assigned a corresponding symbol , form the totality of sequences of characters characterizing the available arrivals of events at the protected object, produce the current a comparative analysis of the generated sets of sequences of characters previously entered into the database, in accordance with the statistical data, on the basis of which the criticality class of the situation is determined, a control signal is sent to the executive devices for eliminating and / or preventing an emergency in the corresponding segment / segments of the protected object, and / or warning equipment and / or appropriate external emergency response services in accordance with the criticality class and the situation. 2. A method for dynamically monitoring the state of a protected object according to claim 1, characterized in that criticality classes are used in assessing the criticality of a situation - the situation is permissible, preventive, emergency, emergency, emergency.

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