RU2703180C2 - Method of intelligent monitoring of a secure facility and device for implementation thereof - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention relates to monitoring means designed to monitor the state of a security object by periodic polling of detectors. Possibility of monitoring the protected object taking into account the visual identification of the threat is caused by the fact that when analysing the state of the protected object in accordance with certain readings of certain sensors if there is a threat feature in the received message in accordance with the criticality class of the situation, a control signal is sent to a control unit of video cameras, which includes video cameras of the corresponding monitored zones and directs them to the expected location of the threat. Higher reliability of decision making in case of alarm situation is provided by the fact that information coming from video cameras is detected for compliance with threat, after that, in case of its coincidence with information received from the comparator unit, in accordance with the received algorithm of processing alarm information, a control signal is sent to actuating devices for elimination and/or prevention of an emergency situation.

EFFECT: technical result is higher reliability of decision-making in case of alarm situation due to enabling monitoring of protected object with due allowance for visual identification of threat.

6 cl, 2 dwg, 1 tbl

Description

The proposed technical solutions are united by a single inventive concept and relate to the field of alarm systems, in particular, monitoring tools designed to monitor the status of a protected object by periodically polling detectors, based on the analysis of the received signals, emergency situations at the protected object are eliminated or prevented.

There is a method of dynamically monitoring the state of a protected object (RF Patent for the invention No. 2291072, G08B 25/00, publ. 2007), in which the necessary and characterizing the corresponding type of event state parameters are determined using detectors containing measurement sensors installed on the protected object and / or fixation of certain state parameters, based on the analysis of the state of the protected object according to the readings of the sensors, a control signal is sent to the executive devices for eliminating and / or preventing emergency situations in the relevant controlled segment / segments of the protected object, and / or warning equipment and / or the corresponding external emergency response services.

There is a method of dynamically monitoring the state of a protected object (RF Patent for the invention No. 2460144, G08B 25/00, publ. 2011), in which the necessary and characterizing the corresponding type of event state parameters are determined using detectors containing measurement sensors installed on the protected object and / or fixation of certain state parameters, based on the analysis of the state of the protected object according to the readings of the sensors, a control signal is sent to the executive devices for eliminating and / or preventing emergency situations in the relevant controlled segment / segments of the protected object, and / or warning equipment, and / or the corresponding external emergency response services.

The closest in technical essence to the claimed method and selected as a prototype is a method for dynamic monitoring of the state of a protected object (RF Patent for the invention No. 2633986, G08B 25/00, published on 10/20/2017 Bull. No. 29), which determines the necessary and characterizing corresponding type of event status parameters using detectors installed on the guarded object containing sensors for measuring and / or fixing certain state parameters, based on the analysis of the state of the guarded object according to the readings of the sensors send a control signal to the executive devices for eliminating and / or preventing an emergency in the corresponding controlled segment / segments of the protected object, and / or warning devices and / or corresponding external emergency response services, when analyzing the state of the protected object in accordance with certain readings of certain sensors, assign each event the corresponding symbol, form the totality and sequence of characters that characterize existing events, pr generate a current comparative analysis of the generated sets and sequences of characters previously entered into the database, in accordance with statistical data, on the basis of which the criticality class of the situation is determined, a control signal is sent to actuators for eliminating and / or preventing emergency situations in the corresponding segment / segments of the protected facility, and / or warning equipment, and / or relevant external emergency response services in accordance with criticality class of the situation.

A known perimeter security system “Radioureb” (RF Patent for Utility Model No. 129283, IPC G08B 25/00, publ. 2013), comprising a block of detection means and a block for collecting and displaying information. The block of detection means contains motion sensors operating on various physical principles: passive infrared sensors (IR), active radio-beam on-off sensors, and active vibration triboelectric sensors. Communication between all motion sensors and the information collection and display unit is carried out using a 433 MHz radio channel. The system provides an extension of the protection and monitoring zone of objects with which there are no wired communication lines. When an intruder is detected, the sensors generate an alarm notification and transmit it through neighboring sensors, which in this case work as repeaters, to the information collection and display unit.

A well-known mobile complex of technical security equipment (RF Patent for the invention No. 2427039, IPC G08B 13/19, publ. 2011), containing a control point, optical-electronic means of a surround-circular review based on television and thermal imaging equipment and a perimeter security system, consisting of perimeter detection tools and perimeter optoelectronic surveillance devices. The perimeter security system consists of N local security posts, each of which contains a transmitter and receiver of a two-position radio-beam detection means, passive infrared detection means, a thermal imager and a detector for detecting the intruder's proximity to the local security station (explosive detection means). All detection and surveillance tools incorporate radio transmitters that transmit information to the control center. This complex provides control of the ground and air space of the protected area. Upon detection of the intruder, its visual classification is performed, targeting of the optoelectronic devices of a three-dimensional circular review and accompaniment of the intruder in a controlled space.

The closest in technical essence to the claimed device and selected as a prototype is a device for implementing a method for dynamic monitoring of the state of a protected object (RF Patent for the invention No. 2633986, G08B 25/00, published on 10/20/2017 Bull. No. 29), including detectors installed on the guarded object containing sensors for measuring and / or fixing certain state parameters, actuators for eliminating and / or preventing an emergency in the relevant controlled segment / segments stored object, and / or warning means, connected via the computer unit of object data network (the central server) to the control unit. In turn, the control unit is connected through the evaluation and decision making unit to the communication and data transmission module to the corresponding external emergency response services, as well as to the comparative analysis unit. Moreover, the device also comprises a unit 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 detector sensors and generate a sequence of characters in the control mode. The unit for generating the totality and sequence of characters is connected with the computer unit of the object data exchange network, and through the comparative analysis unit with the template unit, the database of which contains the sets and sequences of characters that determine the criticality class of the situation in accordance with statistical data. In this case, the comparative analysis unit is configured to compare the aggregate and sequence of symbols formed by the formation unit with the aggregates and sequences of symbols that determine, in accordance with statistical data, the criticality class of the situation that has arisen and the direction based on such an analysis of the information signal to the control unit. The device may also be equipped with a mode setting unit associated with a control unit for setting the object's security modes, for example, time intervals and the sequence of interrogation of detectors.

One of the main drawbacks of the subject area is the low reliability of decision-making in the event of an alarming situation of modern systems and monitoring tools designed to monitor the status of the protected object. The reliability criterion for monitoring the state of the protected object is usually taken to be the probability of the correct operation of the system P (t), which is equally influenced by the probabilities of errors of the first and second kind (the probability of false alarms and the probability of missing a target). However, to detect and evaluate the missed target error, special measures are required to configure and operate the system, therefore, even when this probability is unacceptably high, this circumstance may not be detected without special efforts, although the monitoring system should objectively be considered inoperative. Due to the above circumstances, increasing the reliability of the monitoring system of the state of the protected object can be achieved mainly only by minimizing the likelihood of false positives, thus, the probability of correct operation of the system:

where p _i (t) is the probability of reliable reception of an alarm message from the i-th detector;

q _i (t) is the probability of false alarms of the i-th detector.

The technical problem to which the invention is directed is to increase the reliability of decision-making in the event of an alarming situation by providing the ability to monitor the protected object, taking into account the visual identification of the threat.

This technical problem is solved by the fact that in the method of intelligent monitoring of the protected object, which consists in determining the necessary and characterizing the corresponding type of event parameters of the state of the protected object using detectors installed on the protected object containing sensors for measuring and / or fixing certain parameters of the state of the protected object , when analyzing the state of the protected object in accordance with certain readings of certain sensors, each event is assigned July, characterizing the state of the protected object, the corresponding symbol, form the sets and sequences of characters characterizing the available arrivals of events at the protected object, make a current comparative analysis of the formed sets and sequences of characters previously entered into the database in accordance with the statistical data on the basis of which the class is determined criticality of the situation, send a control signal to the actuators elimination and / or pre disgust abnormality in the corresponding segment / segments of the protected object, and / or means of alert and / or a corresponding external service emergency situations in accordance with the class of the criticality of the situation, further territory protected object is partitioned into N controlled zones within which the special conditions of their use are set. For visual identification of the threat, a CCTV system is additionally introduced, including a video camera control unit and N video cameras providing continuous coverage of the controlled areas, and then the necessary and characterizing the corresponding type of event parameters of the state of the protected object are determined. After forming the sets and sequences of characters characterizing the available arrivals of events at the protected object, take into account the number of the monitored zone from which the message was received, and then perform a current comparative analysis of the formed sets and sequences of characters. If there is a threat sign in the received message in accordance with the criticality class of the situation, a control signal is transmitted to the video camera control unit, which turns on the video cameras of the respective monitored zones and sends them to the alleged location of the threat. The information received from the cameras is detected for compliance with the threat sign, after which, if they coincide, in accordance with the accepted algorithm for processing alarm information, the control signal is sent to the executive devices for eliminating and / or preventing an emergency situation.

The fact is that when analyzing the state of the protected object in accordance with certain indications of certain sensors, if there is a threat sign in the received message in accordance with the criticality class of the situation, a control signal is transmitted to the video camera control unit, which includes video cameras of the respective monitored zones and sends them to the intended place of implementation threats provides the ability to monitor the protected object, taking into account visual identification of the threat.

The fact that the information received from the cameras is detected for compliance with the threat criterion, after which, if it coincides with the information received from the comparative analysis unit, in accordance with the accepted algorithm for processing alarm information, a control signal is sent to the execution elimination devices and / or emergency management provides increased reliability of decision-making in the event of an alarming situation.

To implement the proposed method into a device for implementing the method of intelligent monitoring of a guarded object, which includes detectors installed on the guarded object that contain sensors for measuring and / or fixing certain state parameters, actuators for eliminating and / or preventing an emergency in the corresponding controlled segment / segments of the guarded object, and / or notification equipment, connected through a computer unit of the object data exchange network (central server p) with the control unit, in turn, the control unit is connected through an evaluation and decision-making unit with a communication and data transmission module to the corresponding external emergency response services, as well as with a comparative analysis unit, the device also comprising a unit for generating an aggregate and a sequence of characters characterizing existing events, made with the possibility, in accordance with certain readings of certain sensors of the detectors, to assign each event an appropriate symbol and form in the control mode of the sequence of characters, the unit for generating the totality and the sequence of characters is connected to the computer unit of the object data exchange network, and through the comparative analysis unit with the block of templates, the database of which contains the sets and sequences of characters that determine the criticality class of the resulting situations, while the comparative analysis unit is configured to compare the aggregate and the sequence formed by the aggregation unit character sets with sets and sequences of characters that determine, in accordance with statistical data, the criticality class of the situation that has arisen, and the directions based on such an analysis of the information signal to the control unit, a CCTV system has been introduced, including a control module for video cameras and N video cameras. The video camera control module is connected with a comparative analysis unit, from which an information signal with a sign of a threat and a specific controlled area of its implementation comes from. If this signal is received, the video camera control module includes the video cameras of the corresponding controlled zones associated with it and sends them to the alleged location of the threat, for which each video camera is installed on a remotely controlled slewing ring. The information detected by the video analytics modules integrated into each video camera is fed to the video camera control module, and then to the control unit associated with it. The control unit compares the signals received from the comparative analysis unit and the camera control module, when they match, sends control signals to the computer unit of the object data exchange network and the evaluation and decision making unit.

The fact that the system for intelligent monitoring of the guarded object is additionally equipped with a CCTV system, including a control module for video cameras and N video cameras, makes it possible to monitor the guarded object, taking into account the visual identification of the threat.

The fact that the control unit compares the signals received from the comparative analysis unit and the video camera control module, when they coincide, sends control signals to the computer unit of the object data exchange network and the evaluation and decision-making unit, which increases the reliability of decision-making in case of an emergency.

The analysis of the prior art made it possible to establish that analogues that are characterized by a combination of features identical to all the features of the claimed technical solution are absent, which indicates the compliance of the claimed method with the condition of patentability “novelty”.

Search results for known solutions in this and related fields of technology in order to identify features that match the distinctive features of the claimed object from the prototype showed that they do not follow explicitly from the prior art. The prior art also did not reveal the fame of the distinctive essential features that determine the same technical result that is achieved in the claimed device. Therefore, the claimed invention meets the condition of patentability "inventive step".

The invention is illustrated by drawings, which show:

Fig 1 is a structural diagram of a device for implementing the method of intelligent monitoring of a protected object;

Fig 2 is an example implementation of the method.

The proposed method of intelligent monitoring of the protected object is carried out using the device shown in the drawing (Fig. 1) as follows.

In accordance with the requirements of the program of the central server 4, at certain intervals, the status of sensors of the detectors 1 is polled and the necessary and characterizing the corresponding type of event parameters of the status of the respective monitored zones of the protected object are determined. Such parameters may be: triggering of sensors of detectors of a security alarm system, operating on various physical principles (infrared, radio wave, radio beam, seismic, etc.); triggering of sensors of fire alarm systems that recognize a critical temperature increase in a room or smoke in a room; Alarm signaling from alarm detectors (panic button); the fact of authorized and unauthorized access attempts established by means of detectors of access control and management system, etc.

All information signals containing, in addition to the state parameter of the detector sensors, the number of the corresponding monitored zone of the protected object, enter block 9 for generating an aggregate and a sequence of characters, in which each signal is assigned a specific symbol 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 collections and sequences of characters received from block 9 is performed from the point of view of their identity with the sets and sequences of characters available in block 10 of patterns. If a match is found, in accordance with the criticality class of the situation (permissible, warning, emergency, emergency, emergency), the corresponding information signal is sent simultaneously to the control unit 5 and the camera control module 11. The camcorder control module 11, based on the received information signal, includes the camcorders 12 of the respective monitored zones and sends them to the alleged location of the threat. The specific place of the monitored zone of the protected object, to which you must direct the lens of the video camera 12, is determined programmatically and is tied to the location of the detector 1, from which an alarm message was received. The direction of the cameras 12 to the alleged location of the threat in the respective controlled areas is ensured by their use in conjunction with remotely controlled slewing devices. Information from the cameras 12 is detected for compliance with the threat sign specified in the information signal received from the comparative analysis unit 8. The ability to detect information from video cameras 12 for compliance with the threat sign in the respective controlled areas is provided through the use of built-in video analytics modules in video cameras. The detected signal enters the control unit 5, in which the analysis of the comparative analysis received from the unit 8 and the camera control module 11 in accordance with the accepted algorithms for processing alarm information is performed.

Algorithms for processing alarming information received from technical means of detection are selected taking into account the physical principle of operation of the detectors, their location in a specific controlled area of the guarded object, the criticality class of the situation and the direction of the threat in accordance with the decisive rules “I”, “OR”, according to the majority principle using neural network algorithms and fuzzy logic algorithms for intelligent information processing. From block 5, in accordance with the specified algorithm for processing alarm information, through the computer block 4 of the object data exchange network (central server), control signals are sent to the executive devices 2 of eliminating and / or preventing an emergency in the corresponding controlled area of the protected object (for example, peripheral devices automatic fire extinguishing systems and / or actuators for access control and management systems), and / or warning means 3 (for example, a light board and / or sounds I siren). In the case of, for example, an emergency, the corresponding signal enters the evaluation and decision making unit 6, in which, after a decision is made on the need to use the appropriate external emergency response services, a corresponding information signal is sent to these services through the communication module 7.

When implementing the inventive method, well-known technical solutions and means can be used; for information processing, known or original software. So, for example, detectors 1 containing sensors for measuring and / or fixing certain state parameters, devices 2 for eliminating and / or preventing an emergency in the corresponding controlled area of the protected object (for example, peripheral means of an automatic fire extinguishing system and / or actuators of an access control and management system ) and warning means 3 (for example, a light panel and / or a sound siren) are well-known and described in detail, in particular, in [Ofitserov, A.I. Alarm systems and means: allowance / A.I. Officers, S.S. Gupalo, N.I. Butcher. - Eagle: Academy of the Federal Security Service of Russia, 2014. - 167 pp., Ill.] And [Zarubin, B.C. Technical systems of anti-terrorism and anti-criminal protection of objects: a training manual - Voronezh: Voronezh Institute of the Ministry of Internal Affairs of Russia, 2009. - 192 p.]. The computer unit 4 of the object data exchange network (central server) is well-known and is described, for example, in [Baranov, I. Yu. Hardware of computer technology. Parallel computing systems: manual / I.Yu. Baranov, A.K. Abramov. - Eagle: Academy of the Federal Security Service of Russia, 2010. - 100 p.]. In particular, Server HP Proliant DL180G6 (http://www.hp.com) can be used as a central server. The control unit 5 and the camera control module 11 can be implemented on known convergent computing devices, in particular, complex multipliers PDSP16112A (Mitel) and complex drives PDSP16318A (Mitel). Block 6 assessment and decision making, block 8 of comparative analysis and block 9 of the formation of the totality and sequence of characters can be implemented on the basis of arithmetic-logical devices (ALU). ALU schemes are known and described, for example, in the book Shilo V.L. Popular digital circuits. - M.: Radio and Communications, 1987. - S. 273-275, Fig. 2.70. In particular, such a scheme can be implemented on K564IPZ microcircuits. Block 10 templates can be represented in the form of a random access memory device (RAM). RAM circuits are known and described, for example, in the book of V.N. Veniaminova, O.N. Lebedeva A.I. Miroshnichenko. Microcircuits and their application. M .: Radio and communications, 1989. - p. 146, fig. 5.2. In particular, RAM can be implemented on K565 series chips. Video cameras 12 with a built-in analytics module are currently widely distributed and described, for example, in [Anstedt, T. Video analytics: myths and reality / T. Anstedt, I. Keller, X. Lutz. - Moscow: “Security Focus”, 2012. - 176 p.]. As video cameras for implementing the device, in particular, IP-cameras SNB-500 (Samsung Techwin), AXIS P1347 (Axis Communications), etc. can be used.

When implementing the method of intelligent monitoring of the guarded object using the indicated equipment and technical means (Fig. 2), the state of the guarded object, divided into 5 controlled zones, and the correct operation of the detectors installed on it were monitored (within 24 hours). According to the results of experimental studies for the prototype method and the proposed method, the probability of false alarms was calculated for each i-th detector q _i (t) during the observation time T. When using the Poisson model of the flow of false positives, the probability of at least one false positive during the observation time T is determined by the formula:

where k _hp is the intensity factor of the interference situation at the guarded object (we take k _hp = 1);

T is the observation time (for the experiment, T = 24 h);

T _lsi is the average time between false positives of the i-detector (indicated in its technical specifications).

When implementing the proposed method, the video camera in a specific controlled area of the guarded object is turned on only if the corresponding detector is triggered, therefore, it is necessary to determine the conditional probability of the false alarm of the j-detector (in our case, the camera), provided that the i-detector has already worked:

where T _ci is the duration of the alarm received from the i-th detector (usually T _cj = 5 ... 30 min).

The total probability of false alarms of both the i-th and j-th detectors for each monitored zone is determined by the formula:

where c is the proportion of coinciding interference at the protected facility (in the considered

an example is: 0.05 ... 0.15 - for perimeter security detectors operating on various physical principles; 0 - in case of joint use of cameras and security detectors).

The probabilities of false alarms of the detectors for the prototype method and the proposed method are summarized in table.

The calculations of the probability of correct operation of system (1) for the prototype (P (t) = 0.876) and the present invention (P (t) = 0.999) showed an increase in the reliability of decision-making when using the proposed method by 1.14 times. In addition, it can be seen from formula (4) that equipping the guarded object with additional security detectors instead of video cameras will give a significantly smaller increase in reliability compared to the claimed invention.

Thus, the proposed method of intelligent monitoring of the protected object and the device for its implementation provide an increase in the reliability of decision-making in the event of an alarm situation by providing the ability to monitor the protected object taking into account the visual identification of the threat.

Claims (6)

1. The method of intelligent monitoring of the protected object, which consists in determining the necessary and characterizing the corresponding type of event parameters of the state of the protected object using detectors installed on the protected object containing sensors for measuring and / or recording certain parameters of the state of the protected object when analyzing the state of the protected object in accordance with certain readings of certain sensors, each event characterizing the state of the protected object is assigned the object, the corresponding symbol, form the sets and sequences of characters characterizing the available arrivals of events at the protected object, make a current comparative analysis of the formed sets and 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, send control signal to actuators for eliminating and / or preventing emergency situations in the corresponding the segment / segments of the protected object, and / or warning equipment, and / or the corresponding external emergency response services in accordance with the criticality class of the situation, characterized in that the territory of the protected object is divided into N monitored zones, a security system is additionally introduced to visually identify the threat television, including a control module for video cameras and N video cameras providing continuous coverage of controlled areas, and then determine the necessary and characterizing the corresponding The existing type of event, the parameters of the state of the protected object, after they form the sets and sequences of characters characterizing the available arrivals of events at the protected object, take into account the number of the controlled zone from which the message was received, and then carry out the current comparative analysis of the formed sets and sequences of characters, after which the presence of a threat sign in the received message in accordance with the criticality class of the situation, the control signal is transmitted to the control module video cameras, which includes cameras of the respective monitored zones and sends them to the alleged location of the threat, the information received from the cameras is detected for compliance with the threat sign, and if they match, in accordance with the accepted algorithm for processing alarm information, the control signal is sent to the executive emergency and / or emergency response devices. 2. The method of intelligent monitoring of the protected object according to claim 1, characterized in that the information received from the detectors contains the hallmark of the controlled area of the protected object in which it is installed. 3. The method of intelligent monitoring of the guarded object according to claim 1, characterized in that the algorithms for processing alarm information received from the technical means of detection are selected taking into account the physical principle of operation of the detectors, their location in a specific controlled area of the guarded object, the criticality class of the situation, and the direction of implementation threats in accordance with the decisive rules “AND”, “OR”, according to the majority principle using neural network algorithms and fuzzy logic algorithms for intellectual information-processing systems. 4. A device for implementing the method of intelligent monitoring of the guarded object, including detectors installed on the guarded object, containing sensors for measuring and / or fixing certain state parameters, actuators for eliminating and / or preventing an emergency in the corresponding controlled segment / segments of the guarded object, and / or warning means connected through a computer unit of the object data exchange network (central server) with the control unit, in turn the control unit is connected through an evaluation and decision-making unit with a communication and data transmission module to the corresponding external emergency response services, as well as with a comparative analysis unit, the device also comprising a unit for generating an aggregate and sequence of characters characterizing existing events, configured to in accordance with the specific readings of certain sensors of the detectors, assigning each event an appropriate symbol and forming characters, the unit for generating the totality and sequence of characters is connected with the computer unit of the object data exchange network, and through the comparative analysis unit with the template unit, the database of which contains the sets and sequences of characters that determine the criticality class of the situation in accordance with statistical data, while the comparative analysis unit is configured to compare the aggregate and sequence of symbols formed by the formation unit with the aggregates and sequences of characters that determine, in accordance with statistical data, the criticality class of the situation that has arisen, and the directions based on such an analysis of the information signal to the control unit, characterized in that an additional closed-circuit television system is included, including a video camera control module and N video cameras, the video camera control module being connected to a comparative analysis unit from which an information signal with a sign of a threat and a specific controlled area of its implementation comes from, in Taking into account the receipt of this signal, the video camera control module includes the associated video cameras of the respective controlled areas and sends them to the alleged location of the threat, for which each video camera is mounted on a remotely controlled slewing ring, which is detected using the video analytics modules built into each video camera and fed to the module control cameras, and then to the associated control unit, and the control unit compares the signals by from the comparative analysis unit and the video camera control module, when they coincide, it sends control signals to the computer unit of the object data exchange network and the evaluation and decision making unit. 5. A device for implementing the method of intelligent monitoring of a guarded object according to claim 4, characterized in that the direction of the cameras to the alleged location of the threat in the respective controlled areas is ensured by their use together with remotely controlled slewing devices. 6. A device for implementing the method of intelligent monitoring of a guarded object according to claim 4, characterized in that the detection of information from the cameras for compliance with the threat sign in the respective controlled areas is ensured by the use of built-in video analytics modules in the cameras.

Images