RU2585991C2 - System for tracking and security of objects - Google Patents

Abstract

FIELD: safety.

SUBSTANCE: invention relates to devices and systems and can be used for real-time monitoring of location and state of movable and stationary objects and, if necessary, to ensure timely optimal response and relief. System for tracking and safety of objects comprises user equipment, workstations for duty operators, mobile workstations for operators, a coordination centre, an information processing and storage unit, statistical evaluation unit, unit for evaluating current situation. Coordination centre is configured to control actions of each duty operator workstation, statistical evaluation unit is configured to predict likelihood of a emergency situation, and unit for evaluation of current situation is configured to assess weather and road conditions in real time. Mobile workstations of operators are remotely connected with each duty operator workstation and are configured to respond in real time via a signal from corresponding duty operator workstation.

EFFECT: technical result is reduction of time for issuing commands for departure of emergency services and departure time thereof.

4 cl, 1 dwg

Description

The present invention relates to security means and complexes and can be used to monitor in real time the location and condition of mobile and stationary objects and, if necessary, to ensure timely optimal response and emergency assistance.

There are various security systems, control and navigation, designed to accompany and ensure the safety of mobile objects - vehicles (US patent N 5504482, CL G08G 1/123, publ. 1997, Japan application N 5059431, CL G09B 29/10, application Japan N 5066595, CL G09B 29/10, application of Great Britain N 2279792, CL B60R 25/10, publ. 1996, UK application N 2279478, CL B60R 25/10, publ. 1995). The disadvantages of the known systems are the limited scope and narrow functionality. This is due to the fact that with their help it is difficult to control stationary objects, make highly accurate coordinates in the differential mode, centralize the collection and storage of information about the route of several objects, and monitor the environment. In addition, they have a long response time and low automation in the event of an emergency, since the decision on the appropriate actions is carried out directly at the facility, which reduces the effectiveness in taking action directly at the facility, when the time factor is often significant.

Known alarm systems (for example, US 5650770 dated 07.22.1997, G08B 25/10) containing a central monitoring station (monitoring station) (sensors) and sensors (security detectors) installed at the monitoring objects, connected through object terminals and channels communication with the monitoring station. When it is installed on moving objects, such as automobiles, a satellite navigation receiver (GPS receiver) can be introduced into the object equipment to determine the current coordinates of the object. The output of the GPS receiver is connected to the input of the object terminal device to transmit information about the current location of the object over the air to the monitoring station.

The disadvantages of such systems are the complexity, high cost and low reliability of the operation of object equipment installed on vehicles, as well as the large overall dimensions, which does not allow its installation on small moving objects.

The well-known "Radio-channel alarm system for the centralized protection of vehicles, real estate, people and animals" (patent for invention RU 2182088, IPC B60R 25/10, G08B 25/00, published on 05/10/2002), related to security alarm systems , which can be used for centralized integrated radio protection of vehicles, real estate (residential premises, offices, garages, etc.), people and animals. The system contains blocks of stationary security detectors installed on guarded real estate objects, connected through buffer devices to stationary object terminals having stationary antennas for radio communication, blocks of transportable security detectors installed on vehicles, connected with portable object terminals having portable antennas for radio communications, and wearable object terminals with built-in protected people and animals antennas for radio communication, owners' vehicles owned by owners of vehicles and real estate with built-in antennas for personal radio receivers, an information collection and processing center having a remote terminal device with an antenna for a remote terminal device for radio communication and a centralized remote surveillance, which includes interconnected adapter card input information connected to the remote terminal device, and an information processing processor. Moreover, radio communication is made in the form of a microcellular data transmission network with base stations and relays, configured to receive code messages from transportable, stationary and wearable object terminals, to select and relay these messages to the nearest base station or relay, and to the collection center and information processing, an additional block for processing and displaying cartographic and semantic information and a printer with a printer adapter, the input of which is connected to the processor Information processing, made with the possibility of connecting to the processing and display unit of cartographic and semantic information and with the possibility of outputting information to the printer adapter, while the central monitoring console is configured to automatically monitor the health of the radio channel by tracking the periodic receipt of notifications from each stationary, transportable and wearable object terminal devices.

The disadvantages of the known system include a long response time and low automation in the event of an emergency, since the decision on the appropriate actions is carried out at the control object or directly by the consumer.

A patent is known for a utility model, “Navigation Tracking and Site Security System” (RU 26671, IPC G08B 25/10, published December 10, 2002), from the description of which a tracking and safety system for objects is known that contains user equipment and is remotely connected to her at least one dispatch center located at a stationary guarded facility. The user equipment includes a control panel, a navigation receiver, a group of security sensors designed to generate an alarm, and a group of actuators that prevent unauthorized entry and movement of the protected object. The control panel is configured to call an ambulance. Each dispatch center consists of radio communication equipment associated with a signal processing server, personal computers of operator workstations connected via a local computer network to the specified server, and may contain a data collection and storage server remotely connected to stationary remote workstations located in the security service , in the traffic management service, in the ambulance service, in car service centers, in insurance and law companies, as well as in televisions.

Significant disadvantages of the known system include:

- a long response time in case of emergency, because it is difficult to quickly coordinate the actions of different services;

- limited scope, since with it it is possible to control only stationary guarded objects, and the entire system is limited to localization at one guarded object, while the security sensors on it are distributed in different areas, zones and rooms;

- low automation due to the fact that the dispatch center works only with the help of an operator, who transmits alarms through his workstation to the appropriate services, and at the same time reacts to alarm events, only the operator of the dispatch center located at the guarded station takes decisions and executes instructions object.

Known "SAFETY, NAVIGATION AND MONITORING" (patent for invention RU 2122239, IPC G08B 25/10, G08G 1/123, B60R 25/10, publ. 11/20/1998).

The system contains a dispatch center and consumer equipment, including a navigation receiver with an antenna, a transceiver with an antenna, a keyboard and a modem connected to a transceiver, a video control camera, an audio system and a television monitor, the system includes an on-board computer connected to a processor, an analog-to-digital video signal converter, and digital-to-analogue converters of audio and video signals, a storage device, a video monitoring camera and a television monitor. Security sensors are also connected to the on-board computer interface. The dispatch center is connected to consumer equipment through the antenna of the transceiver via a radio channel. The power inputs of the navigation receiver, modem, transceiver, on-board computer, video monitoring camera, television monitor and security sensors are connected to an autonomous power supply unit.

When an alarm event occurs, information (for example, a video or location coordinates of a mobile object, etc.) about it is transmitted to the consumer. The neutralization of the operation of security sensors is ensured by the owner entering the vehicle or the corresponding code on the keyboard. Thus, the response to an alarming event is carried out directly by the consumer when receiving information about the object from the dispatch center.

It is possible, using the components that make up the known invention, to create a system of a higher degree of complexity by setting various groups (parks) of controlled objects for control in regional dispatch centers, which, for example, transmit situational information via space radio communication channels to a global dispatch center, the role of which can be performed by one of the regional dispatch centers.

Thus, in fact, the well-known invention is a system for tracking and ensuring the safety of facilities, containing user equipment located at the objects of control, local control centers located outside the control objects and remotely connected with the user equipment, and a coordination center that interacts with all local control rooms centers.

However, the described analogue has significant disadvantages, namely:

- a long response time and low automation in the event of an emergency, since the decision on the appropriate actions is carried out directly by the owner of the vehicle or the person in charge at the stationary facility;

- limited functionality due to the low degree of assessment of the situation, since it can only be used to evaluate the current state of the environment and its environmental cleanliness, while it is difficult to predict the traffic situation or, for example, the likelihood of disturbing events at one time or another.

The closest in technical essence is an integrated system for receiving and processing calls and monitoring objects (Ageev S.V. et al. Civil Security Technology, 2008). The specified system contains user equipment located at stationary monitoring facilities, a local dispatch center located outside of the monitoring facilities and connected with user equipment and with external systems (city on-call dispatch services). The local dispatch center, in turn, includes a stationary automated workstation for the operator on duty, a stationary automated workstation for the analyst, a stationary automated workstation for maintaining a geographic information system (GIS), a stationary automated workstation for managing the database, and a stationary automated workstation for the system administrator.

In the event of an alarm event at the monitoring facility, information is transmitted to the local dispatch center (stationary automated workstation of the operator on duty), which collects and processes the received information, automatically proposes the composition of the involved forces in accordance with the alarm situation, and further transmits the signal to relevant external systems (fire protection , police or ambulance), which in turn carry out a response team trip. The specified center also ensures the coordination of the work of various services (messaging, monitoring and traffic control of emergency response vehicles, etc.) and storage of databases for each monitoring object, and the stationary automated workstation of the analyst included in its composition carries out statistical processing of the obtained data to build lists and schedules of calls and types of signals according to various criteria, reporting and viewing the route of vehicles (with stationary automated analyst workstation).

In fact, the described technical solution is a system for tracking and ensuring the safety of facilities, containing user equipment located at the objects of control, workstations of duty operators located outside the control objects and associated with the user equipment, and a coordination center that interacts with external administrative management systems and connected with each workplace of the operator on duty through the information processing and storage unit, which is connected to the statistical unit assessment and the current situation assessment unit.

The known technical solution, selected as a prototype, has a relatively low efficiency. This is due to the fact that the decision on the composition of the forces involved is carried out by the operator on duty (that is, the so-called “human factor” takes place), and the formation of the response group (number of specialists, number and type of equipment) and its departure is made by the corresponding duty dispatch service ; at the same time, on-duty dispatch services lay the route of the response group’s movement without taking into account the current situation (for example, traffic conditions), which together increases the time for issuing a command to leave the emergency services and the time of their departure. All this negatively affects the efficiency of the tracking system and ensuring the safety of facilities.

The objective of the invention is to increase the efficiency of the tracking system and ensure the safety of objects.

The technical result consists in reducing the time for issuing a command to leave the emergency services and the time of their departure.

The technical result is achieved by the fact that in the well-known system of tracking and ensuring the safety of facilities, containing user equipment, located at the objects of control, jobs of duty operators, located outside the control objects and associated with user equipment, and a coordination center that interacts with external administrative management systems and associated with each workplace of the operator on duty through the processing unit and information storage, which is connected to the statistical unit the assessment and the assessment unit of the current situation, according to the present invention, mobile workstations of operators are introduced, remotely connected to each workplace of the duty operator and configured to respond in real time by a signal from the corresponding workplace of the duty operator, the coordination center is configured to control the actions of each the workplace of the operator on duty, the statistical evaluation unit is configured to predict the likelihood of troubles zhnoy situation and the current situation estimation unit configured to estimates of weather and road conditions in real time. The main technical solution has the following development options: a coordination center is connected to a backup coordination center that duplicates its functions; an information processing and storage unit is connected to a backup information processing and storage unit duplicating its functions; Operator’s mobile seats are quick response teams located on vehicles.

Achieving the claimed technical result is due to the following. The additional introduction of mobile workstations of operators (hereinafter referred to as “MRM”) remotely connected to each workplace of a duty operator (hereinafter referred to as “RM”), and their execution with the possibility of real-time response based on a signal from RM allows their continuous running in the system coverage area and localization by a signal from the PM in specified sections of this zone, depending on various circumstances, which helps to reduce the time for issuing an exit command and the time it takes them to go directly to the control object in case of receipt of an alarm. The ability of the focal point to manage the actions of each RM and the specifics of performing the statistical assessment unit and the current situation assessment unit (with the possibility of predicting the likelihood of an alarm situation and with the possibility of assessing the meteorological and traffic conditions in real time, respectively), in turn, allow MRM to be concentrated near monitoring potentially dangerous time (taking into account, for example, call statistics) and determine the ability to compile m center of rational routes of vehicles of external administrative management systems, taking into account current weather conditions and road conditions, which also reduces the time for issuing a command to leave and the time of departure of emergency services. All this provides an increase in the efficiency of the tracking system and ensuring the safety of facilities.

The applicant conducted a patent information search on this topic, as a result of which the claimed combination of essential features was not identified. Therefore, the present invention can be recognized as new.

The compliance of this invention with the patentability criterion of "inventive step" is justified by the fact that the invention logically does not follow from the prior art. For example, some of the known systems contain only stationary remote workstations, but do not contain mobile ones, and the dispatch center is located at the control object (for example, RU 26671). As a result, only monitoring of stationary protected objects is possible and there is only a local security system and only one object. But there are some well-known systems that contain several dispatch centers connected to coordination centers, but they do not contain remote workstations, which does not allow them to quickly respond to a particular event that occurred at the monitoring object (for example, RU 2122239). Moreover, all known systems have a long response time in case of an emergency, since it is difficult to quickly coordinate the actions of different services.

In the claimed invention, the situation is different.

It has all the means of an objective assessment of the current environment in real time, forecasting, operational coordination of the activities of various services and instant response to an event. Moreover, all this is carried out in real time, taking into account all the influencing factors.

Thus, the present invention is aimed at increasing the efficiency of the tracking system and ensuring the safety of objects by reducing the time for submitting a command to leave the emergency services and the time of their departure.

The essence of the claimed invention and the possibility of its practical implementation is illustrated by the description and drawing below.

 In the drawing - a system for tracking and ensuring the safety of objects.

The system for tracking and ensuring the safety of objects (see drawing) contains user equipment, MRM, RM No. 1 ... n, a processing and storage unit for information, and a focal point.

User equipment is located at each control object and is remotely connected to the corresponding RM. Each of them includes a control panel connected to each other, a group of security sensors designed to generate an alarm signal, and a group of actuators that prevent unauthorized entry and movement of the protected object. In addition, the user equipment can be supplemented with video cameras that form the image of the control object, for example, a stationary or mobile circular camera on a rotary device that detects radiation in the visible and infrared wavelengths. The resulting video image is also transmitted to the corresponding PM. As security sensors, for example, sensors for opening, breaking glass, smoke, sensors for penetrating or affecting the protected object and sensors for monitoring environmental parameters and technical parameters of the monitored object can be used. As actuators can be used, for example, fire extinguishing systems, entry locks, etc.

MRMs are remotely connected to each RM and are configured to respond in real time to a signal from the corresponding RM. MRMs represent the workplaces of operators (senior shifts) in mobile rapid response teams (GDS). The MRM may include a transceiver, such as a tablet PC or smartphone, which automatically receives the necessary information from the control center.

RM placed outside the control objects. Each of them is connected with the coordination center through the information processing and storage unit, contains a server for collecting and storing information and represents the workplace of the duty officer (operator), which receives all the information from all control objects and the coordination center, and this information is analyzed and summarized. recommendations for making decisions are made.

The coordination center is located outside the objects of control and can be implemented on the basis of one RM. In addition, it has the ability to quickly reprogram and change the functioning of the blocks and the entire system, depending on the functions it performs and the current situation.

The coordination center is configured to control the actions of each RM. Interaction with external administrative management systems allows you to adjust the operational, for example, criminogenic situation both in general and in the districts, receive up-to-date information on road repairs with their closure, etc., as well as call emergency services (Ministry of Internal Affairs, Ministry of Emergencies, health and other).

In the focal point, using the information processing and storage unit, the current situation is monitored, potential threats are monitored (potentially dangerous people, potentially dangerous cars, objects not under technical protection, objects with a high level of false positives, objects with a high level of military operations), road control situations, monitoring of entry to security posts, monitoring of guards' circumvention (periodic monitoring of a security guard during a shift), monitoring of the level of illegal events in the monitoring zone ring, forecasting the situation on levels and regions (monitoring zones), information support management decision-making, automation arming and disarming of objects, billing for services rendered, the automation of payments for false trips, teleconferencing and remote control. At the same time, the general concept of information processing for the output of information messages, visual and graphic representations (operational control, strategic control), the general concept of the output and display of information, taking into account the condition of roads (traffic jams) and the density of protected objects, the likelihood of an alarm event, signaling about critical condition in the territory of protection, the choice of the route of movement of mobile workstations according to a certain algorithm to reduce the dependence on the shift change and reduce ur ram response.

The information processing and storage unit is connected to the statistical evaluation unit and the current situation evaluation unit. The statistical estimation unit is made with the ability to assess the probability of an alarm event by analyzing such events for various time intervals using an algorithm previously developed for such objects. The unit for assessing the current situation is made with the ability to evaluate traffic conditions, weather, etc. by analyzing traffic data from, for example, Google Map, weather conditions, for example, from Gismeteo, criminogenic conditions by statistical analysis of alarm events for similar periods and adjusting data from Ministry of Internal Affairs and others. The processing and storage unit of information can be performed on the basis of cloud storage.

To increase security, the coordination center is connected to the backup coordination center duplicating its functions, and the information processing and storage unit is connected to the backup information processing and storage unit duplicating its functions.

The system operates as follows.

At the guarded object, a sensor is triggered, which transmits information to the control panel, from where the information is transmitted to the RM and, if necessary, to actuators at the object. Further, this information is processed in the corresponding RM and transmitted to the coordination center, in which data from all RMs are processed.

As a result, teams from the focal point are transferred to the corresponding RM, and from there are distributed to the MRM. Further, the MRM operator takes the necessary measures to prevent the negative consequences of an alarming event at the facility, taking into account the additional information received on the assessment of the situation and other factors. Moreover, each step is reflected in the duty officer in the Republic of Moldova, and he can carry out timely responses by calling the appropriate services.

The present invention allows:

- carry out strategic forecasting (situation analysis, forecasting the situation in all areas of business security) using automated intelligent systems;

- prompt response to events related to objects of protection (physical security, technical security, escort of inventory items and individuals), the ARES security group of companies and / or partners using the resource of the focal point;

- tie all customer service processes into a single system (customer accounting, billing, etc.).

In this case, it is implemented:

- collection of information on the status of various objects of protection (objects of technical protection stationary, objects of physical protection stationary, objects of technical protection mobile, objects of physical protection mobile);

- support for making managerial decisions using intelligent monitoring and analysis systems (traffic conditions, predicting alarms and criminogenicity, a database with photos of violators, a database with numbers of violators' cars, logistics of movements of mobile remote workstations and response, monitoring of resource conditions);

- customer service (reports on the state of protection, monitoring of payment for services, notifications to customers, changing security conditions by the client).

Thus, the technical result of the claimed invention is achieved, namely, a reduction in the time for submitting a command to leave the emergency services and the time for their departure.

Claims (4)

1. A system for tracking and ensuring the safety of facilities, containing user equipment located at the objects of control, workstations of duty operators located outside the control objects and associated with user equipment, and a coordination center that interacts with external administrative management systems and is associated with each workplace of the duty officer the operator through the information processing and storage unit, which is connected to the statistical evaluation unit and the current situation evaluation unit, characterized due to the fact that mobile operator jobs have been introduced remotely connected to each duty station operator’s workstation and configured to respond in real time based on a signal from the corresponding duty operator’s workstation, the coordination center is configured to control the actions of each duty operator’s workstation, block statistical assessment is made with the possibility of predicting the probability of an alarming situation, and the current situation assessment unit is made with the possibility of Nost assessment of weather and road conditions in real time. 2. The system for tracking and ensuring the safety of facilities under item 1, characterized in that the coordination center is connected to a backup coordination center that duplicates its functions. 3. The system for tracking and ensuring the safety of facilities according to claim 1, characterized in that the information processing and storage unit is connected to a backup information processing and storage unit that duplicates its functions. 4. The system for tracking and ensuring the safety of facilities according to claim 1, characterized in that the mobile seats of the operators are quick response teams located on vehicles.

Images