RU2174923C1 - System for providing monitoring, information services and protection of mobile objects from unauthorized actions - Google Patents

Abstract

FIELD: communication systems. SUBSTANCE: system provides locking engines of transport vehicles using paging communication network and putting beacon type transmitters into operation. Transceivers of street and road service system receive signals from the transmitters and take bearings on them. Signal power is measured and the data are transmitted to the base stations. The stations are connected to traffic supervision center making primary processing of the received data. Transport vehicle coordinates and the number of its transmitter switching-on acts are determined in information centers giving services to the prescribed group of objects for making financial settlements. The information centers receive and process data from external information sources and submit messages into territorial distributed network of centers carrying out emergency response to facts of unauthorized actions exerted upon the objects under guard. Transport vehicle owners have transponder card with secret locking, beacon and settlement codes saved. Identification code is stored in digital memory. The latter is read in remote access mode from the card for unlocking the engine. EFFECT: enhanced effectiveness and reliability of protection; wide range of features for commercial use. 2 dwg

Description

 The invention relates to electronic systems used to monitor and ensure the safety of mobile and stationary objects, mainly vehicles (TS), as well as buildings, apartments, garages, people, etc., and designed to provide a quick response to attempts of unauthorized exposure to these objects , effective interaction of various security services, road and transport services, as well as for information support of these services and owners of movable and immovable and property necessary data from external information sources.

 A known system of protection, navigation and monitoring of stationary and mobile objects, containing, in particular, security sensors installed on each object, audio equipment, a video camera, a navigation unit and a processor connected to them, designed to process the received information, as well as a control center connected by a radio channel to processors installed on the objects and made with the possibility of receiving information signals from them about the location, movement of objects and with the possibility of centralized control the movement of a group of objects, collecting and storing movement data for a given time interval (RU 2122239 Cl, G 08 B 25/10, 11/20/98).

 A disadvantage of the known system is the low efficiency of protection and monitoring due to the use of a limited in range and unbranched radio communication network. In addition, the known system does not allow to remotely lock and unlock the engines of protected vehicles (TS), as well as interact with other information service centers and directly with owners of movable and real estate.

 Also known is a monitoring system, information service and protection of objects from unauthorized exposure, containing a telephone communication network and data transmission connected to a paging communication network containing an operator data transmission unit and subscriber receivers installed at the facilities, configured to start beacon-type transmitters when receiving via paging network communication beacon codes, as well as stationary transceivers geographically distributed on the road network (repeater ), configured to receive alarms from beacon-type transmitters and with the ability to send messages to at least one of the base stations associated with the information center, which contains series-connected reception unit and primary processing unit, the outputs of which are connected, respectively, to the registration unit and the display unit (DE 4415052 A1, 60 R 25/00, 02/11/95).

 The disadvantages of this system are the lack of interaction with external information sources and the low accuracy of determining the location of moving objects, such as stolen vehicles.

 These shortcomings are eliminated in the monitoring system, information service and protection of vehicles from unauthorized exposure according to the patent of the Russian Federation N 2155684, issued according to the application N 2000108187/28 from 04/05/2000

 This is achieved by the fact that in the monitoring system, information service and protection of objects from unauthorized exposure, containing a telephone communication and data transmission network connected to a paging communication network containing an operator data transmission unit and subscriber receivers installed at the objects associated with unauthorized sensors for an object and made with the possibility of activating immobilizers, as well as with the ability to start beacon-type transmitters when triggered by non-sanction sensors the impact on the object or reception via the paging communication network of the blocking and beacon codes, respectively, as well as stationary transceivers geographically distributed on the road network, configured to receive alarms from the beacon type transmitter when its carrier enters the coverage area of the repeater and with the ability to send messages to at least one of the base stations associated with the information center, containing a series-connected reception unit and a unit primary digital processing, the outputs of which are connected respectively to the registration unit and to the display unit, while stationary transceivers are capable of direction finding beacon type transmitters and measuring the power of signals received from them, and a message receiving and processing unit from external information sources has been introduced into the information center, an information message generation unit, a secondary processing unit, the inputs of which are connected to the outputs of the primary digital processing unit, the registration unit, a display unit and a unit for receiving and processing messages from external information sources, and configured to determine the coordinates of objects from the aggregate data on the location of stationary transceivers that received alarms from the beacon type transmitters whose power exceeds a predetermined level and transmitted them through the base station to the information station center, and the measured values of the power of the received signals and bearings on them, as well as with the ability to determine and account for the number of switching transmissions and the lighthouse type for making financial settlements with the subscriber, while the information message generation unit through the voice messenger is connected to a geographically distributed network of operational response centers, the subscriber is equipped with transponder cards (TCs), on which, in certain fields, they are coated with a special one-time coating, for example, paint, secret codes: blocking, beacon and settlement, which become visually accessible when the protective coating is removed, and in digital The system’s subscriber’s identification code is fixed to the system’s subscriber’s ID, and the immobilizer control unit is configured to remotely read the identification code from the TC when the latter is entered into the designated area, while the beacon-type transmitters installed on the objects are capable of transmitting the security code and registration code subscriber in the information center, the information center is configured to count the number of inclusions of the beacon type transmitters and automatically ceasing protection of the facility at the end of the TC period or with the number of inclusions exceeding the nominal value of this TC, stationary transceivers that play the role of direction finders are installed at traffic lights, city lighting poles, roofs of buildings and other housing and communal services, as well as real estate of subscribers, for example, vehicle owners, the immobilizer control unit is configured to reprogram the subscriber’s ID code by changing the identification code of the shopping center, the operational response centers are capable of recording and recording voice messages coming from the information center, as well as with the possibility of determining the location of the operational response forces and means — foot patrols and patrol cars on the road network and with the possibility of calling the nearest the included beacon type transmitter on foot or patrol car and control them in the process of approaching an object that emits an alarm and, while the rapid response means are configured to measure the polar coordinates of the beacon type transmitter emitting an alarm.

 The system described above is selected as a prototype.

The disadvantages of the prototype system are:
- low productivity (the number of serviced objects per unit time), due to the need to manage a network of repeaters from a single information center;
- the complexity of ensuring physical security and information protection in the system, due to the concentration of all data in a single information center.

 The objective of the invention is to remedy these disadvantages, namely increasing the system performance while simplifying it, increasing the reliability and safety of work in real conditions, expanding the possibilities of commercial use of the system.

 The problem is solved by decentralizing the processing, storage and distribution of information about the objects and subscribers of the system while maintaining a centralized procedure for collecting information.

 To do this, in the well-known monitoring system, information service and protection of mobile and stationary objects from unauthorized exposure (hereinafter, in the system) containing a telephone communication and data network connected to a paging communication network, including a subscriber data transfer unit and associated over the air, subscriber receivers installed on objects of system subscribers, each of which is associated with sensors of unauthorized impact on the object, with a beacon type transmitter launch unit and with a control unit for the executive system of the security system, for example, an immobilizer connected to the executive device of the security system, and configured to turn on and off the executive device of the security system, for example, an immobilizer, when receiving special codes on the paging network or when entering the transponder zone in a designated area cards, in the digital memory of which the subscriber’s identification code is fixed, and the surface is protected in certain fields special secret disposable coatings, such as paint, secret codes that are visually accessible only when the protective coating is removed, as well as a geographically distributed network of direction-finding relays installed on traffic lights, city lighting poles, roofs of buildings and other stationary objects configured to receive code parcels from a beacon type transmitter when the carrier object is in the coverage area of the given direction finder and with the possibility of transmitting received messages communications, at least one of the base stations of a geographically distributed network of base stations, as well as an information center containing a series-connected information receiving unit and a primary digital processing unit, a secondary processing unit, an information message generating unit and a voice message generator associated with the territorially distributed network of centers for operational response, as well as a unit for receiving and processing messages from external information sources, the inputs of which are connected via a channel m of communication with external information sources, the first output of which is connected to the corresponding input of the secondary processing unit, and the second output is connected to the second input of the information message generation unit, the registration unit and the display unit, the inputs of which are connected to the corresponding outputs of the primary digital processing unit, and the outputs are with the corresponding inputs of the secondary processing unit, configured to determine the coordinates of objects from the totality of data on the location of the relay-direction finders, received from beacon-type transmitters signals whose powers exceed a predetermined level, and measured power values of received signals and bearings on them, as well as with the possibility of determining and recording the number of beacon-type transmitters for carrying out financial calculations with system subscribers and automatically terminating subscriber service at the end of the validity period transponder card or with the number of inclusions exceeding the nominal value of this transponder card, while installed on the objects of the system type, the beacon type transmitters are configured to transmit the security code and the registration code of the subscriber in the system, the control unit for the security system executive unit is configured to reprogram the identification code by the subscriber when the identification code of their transponder card is changed, the response centers are configured to register and recording voice messages, as well as the ability to determine the location of forces and environments quick response station - foot patrols and patrol cars on the street-road network and with the ability to call a beacon or patrol car closest to the emitting transmitter of a beacon type and control them in the process of approaching an object that emits an alarm, while the quick response means measuring the polar coordinates of a beacon type transmitter emitting a signal, n - 1 information centers have been introduced, forming a geographically distributed network of n information centers, where n is the number of system operators, as well as a dispatch center, which includes a series-connected additional receiving unit, an additional primary digital processing unit, a dispatch center information message generating unit and a dispatch center voice message generator, the output of which is connected to a territorially distributed network of rapid response centers, with each of the base stations connected to the corresponding input of an additional the receiving unit located in the dispatch center, and each additional output of the information message generation unit of the dispatch center is connected to the input of the receiving unit of the corresponding information center, in each information center the second output of the information message generation unit is connected to the paging communication network, and the second output of the voice message generator is to a telephone network for communication and data transfer.

 In FIG. 1 shows a functional diagram of the proposed monitoring system, information services and protection of mobile and stationary objects from unauthorized exposure.

 In FIG. 2 shows a functional diagram of each of the n included in the specified system of information centers.

 The following notation is used in the drawings: telephone network 1 for data and communication, operator unit 2 for data transmission, paging network 3, subscriber receiver 4, control unit 5 for the executive device of the security system, actuator 6 for the security system, block 7 for launching the transmitter of the beacon type, beacon type transmitter 8, sensors 9 of unauthorized influence on the object, direction-finding relay 10, geographically distributed network of 11 direction-finding relays, base station 12, territorially a distributed network of 13 base stations, a dispatch center 14, an additional receiving unit 15, an additional block 16 for primary digital processing, a transponder card 17, a block 18 for generating information messages from a dispatch center, a shaper 19 of voice messages from a dispatch center, a geographically distributed network of 20 operational response centers, centers operational response 21, geographically distributed network of 22 information centers, information centers 23, external information sources 24, block at volume 25, primary digital processing unit 26, display unit 27, unit 28 for determining the coordinates of objects, unit 29 for secondary processing, registration unit 30, unit 31 for determining and recording the number of inclusions of the beacon type transmitter, unit 32 for generating information messages, shaper 33 for voice messages, block 34 receiving and processing messages from external information sources.

 Telephone network 1 for communication and data transfer is connected to a paging communication network 3. The latter includes an operator unit 2 for data transmission, connected via antennas of a paging communication network with subscriber receivers 4 installed at the facilities, capable of automatically responding to signals from sensors 9 of unauthorized influence on the facility and launch transmitters 8 beacon type using block 7 start transmitters beacon type when receiving on a paging network 3 beacon code, as well as with activation using the control unit 5 of the executive device of the security system, the executive device 6 of the security system, for example, an immobilizer for blocking or unlocking the engine in case of receiving from the subscriber receiver 4 the corresponding blocking code previously recorded in the control unit 5 of the executive device of the security system or when transponder card 17 in the coverage area of the antenna unit 5 control actuator security system.

 The operator unit 2 data transmission includes the operators of the paging communication network, which can be used as employees of the paging communication node, and a computer equipped with a special program for processing and transmitting messages.

 Stationary direction-finding relays 10 are geographically dispersed on the street-road network, buildings and other objects of urban infrastructure, forming a geographically distributed network of 11 direction-finding relays, and are configured to receive alarms from a transmitter of 8 beacon type, direction finding radiations of transmitters of 8 beacon type and measurement the power of the signals received from them, as well as with the ability to send messages to at least one of the base stations 12 of the geographically distributed network 13 b of the base stations associated with the control center 14. In the control center 14, an additional receiving unit 15, an additional primary digital processing unit 16, a control center information message generating unit 18 and a control center voice generator 19 are connected in series, and a territorially distributed network is connected to the outputs of the latter 20 rapid response centers, consisting of 21 rapid response centers. Each additional output of the information center of the dispatch center information generating unit 18 is connected to the input of the receiving unit 25, which is part of the corresponding information center 23. In contrast to the prototype system, which contains only one information center, the equipment of which is shown in FIG. 2, the proposed system uses n information centers, where n is the number of system operators. Moreover, the system operator means a legal entity or an individual providing system services (information and / or security) to a certain circle of system subscribers.

 Functional diagrams of all information centers 23 are identical to each other.

 Information is collected from all subscribers of the system using repeaters-direction finders 10 and base stations 12 in a single control center 14. In contrast to the prototype, in the present invention, this information is only subjected to primary digital processing (in an additional block 16 for primary digital processing), after which using block 18 of the formation of information messages of the dispatch center and the shaper 19 of voice messages of the dispatch center is redistributed to information centers 23 and operational centers response 21, in accordance with the address messages about the subscribers of the system and with the initial target designations generated in the dispatch center 14. Moreover, in each information center 23 the output of block 25 is connected to the input of the receiving block 26 of the primary digital processing, the corresponding outputs of which are connected to the inputs of the block registration 30 and the display unit 27, the outputs of which are connected to the corresponding inputs of the block 29 of the secondary processing. The secondary processing unit 29 is a processor for digitally processing encoded information. It includes a unit 28 for determining the coordinates of objects and a unit 31 for determining and accounting for the number of inclusions of a beacon type transmitter. Block 31 is intended for financial settlements with subscribers of the system (these calculations are carried out according to the same principles as in the known Beeline, MTS, etc. mobile communication systems). The coordinates of the object in block 28 are determined in the same way as in the prototype system, from the aggregate data on the location of stationary direction-finding relays 10, which received signals from transmitters 8 of the beacon type whose powers exceed a predetermined threshold, and according to the measured values of the powers of the received signals and bearings on them. The selection of specific digital information processing algorithms in processors 28 and 31 is not essential for the present invention.

 In the case when the guarded object is stationary (apartment, garage, etc.), the location code of the object is transmitted directly in the code parcel emitted by the beacon type transmitter 8 installed on this object. Accordingly, additional calculations to determine the location of the object is not required.

 The information message generation unit 32 and the voice message generator 33 are similar to the corresponding blocks in the prototype system, however, they have second outputs for connecting to the paging communication network 3 and the telephone communication and data transmission network 1, respectively.

 The specific technical implementation of the communication channels of the base stations 12 with the dispatch center 14 and the information dispatch center 18 of the dispatch center, with the receiving units 25 located in the information centers 23 of the geographically distributed network 22 of information centers, is also not an essential feature for this invention.

 These can be dedicated telephone network channels, fiber optic channels, communication channels via radio modems, the Internet, etc.

 The proposed monitoring system, information service and protection of mobile and stationary objects from unauthorized exposure works as follows.

 To place a movable or immovable property under protection, the subscriber of the system informs the telephone network 1 of communication and data transmission to the operator unit 2 of the data transmission pager address (individual number) and a blocking code.

 In test mode and in alarm mode, the paging network operator is also informed of the beacon and settlement codes. The paging operator in block 2, which is part of the paging communication network 3, receives these messages and sends them through the antenna of the paging communication network 3 to the air.

 At the object located in the coverage area of the paging communication network 3, these codes are perceived by the subscriber receiver 4, also included in the paging communication network 3. The blocking code is sent to the control unit 5 of the security system actuator, which includes security system actuators 6, for example, a car immobilizer .

 Upon receipt by the subscriber receiver 4 of the beacon code using the beacon type transmitter start unit 7, the beacon type transmitter 8 installed on the site is started. Using its antenna, code messages containing the identification features of the object (for example, make, color and state number of the car) and a settlement code for accounting for the financial costs of the system subscriber are transmitted.

 Radiation by the transmitter of the 8th beacon type of the indicated code parcels is also made in those cases when, due to unauthorized exposure to the object, for example, during theft of the vehicle, the sensors 9 of unauthorized impact on the object and the subscriber receiver 4 received a signal from them to start the transmitter 8 of the beacon type with using block 7 start transmitter type beacon type.

 Code parcels emitted by a beacon type 8 transmitter are received within the range of the transmitter 8 transmitters-direction finders 10 of a geographically distributed network of 11 direction-finding transmitters. In the relay-direction finders 10 direction finding of radiation sources and measurement of the power of the received signals. The corresponding code parcels are relayed by direction-finding relays 10 to at least one of the base stations 12 of the geographically distributed network 13 of base stations. From the base station 12, the code parcels are transmitted — either by wire or over the air — to the dispatch center 14, where they arrive through the additional receiving unit 15 to the additional primary digital processing unit 16.

 In the additional receiving unit 15 of the dispatch center 14, the selection of received code packages is carried out, which may contain test information, various types of alarms corresponding to, for example, unauthorized entry into a car, home, etc., as well as an individual code of identification features of an object, for example a car with a blocked engine and the code of its belonging to the corresponding subscriber. After selection in the additional receiving unit 15, the specified code information is subjected to primary digital processing according to predetermined algorithms implemented programmatically in the additional primary digital processing unit 16. The specific form of these algorithms is not the subject of this invention.

 To deactivate the executive device 6 of the security system of an object, for example, a car immobilizer, a secret unlock code indicated on the transponder card (TC) 17 is entered into the control unit for the security system actuator 17, which is compared with the system subscriber identification code stored in block 5.

 When they coincide, the actuator 6 is deactivated, which allows the subscriber to use his vehicle.

 Deactivation of the actuator 6 can also be done through the TC 17. For this, the TC 17 is placed by the subscriber in a specially designated area for remote reading of the identification code in the control unit 5 of the executive device of the security system. To read this code, in block 5, electromagnetic signals are generated that use the special antenna that forms the reading zone, which activate the digital memory of the TK 17. In the simplest case, the TK 17 can be an element with a variable (changing in accordance with the identification code) load for the generator, which is part of the control unit 5 of the executive device of the security system.

 To change the unlocking code, the subscriber of the system replaces the shopping mall 17 and reprograms the identification code in the control unit 5 of the actuator of the vehicle’s security system, as, for example, is done in security systems such as BLACK BUG.

 After the initial processing in the additional block of primary digital processing 16, information about the identification characteristics of the object and the subscriber of the system, as well as the location of the relay-direction finders 10, which received signals from the transmitter 8 of the beacon type, is received sequentially in the block 18 for generating information messages from the control center (for sending to geographically distributed network of 22 information centers) and to the shaper of 19 voice messages of the dispatch center (for sending them to the geographically distributed green network of 20 rapid response centers).

 All information centers 23 in the system under consideration have the same functional diagram and work according to a single algorithm. Moreover, each information center 23, serving only its own circle of subscribers, its own part of the system coverage area, has access to all information about the territory served by the system, in terms of its functional task and the list of subscribers registered in the system.

 From the outputs of the block 18 of the formation of information messages of the dispatch center, information about the object is fed to the inputs of the block 25 of the reception of the information center 23 serving this subscriber of the system, and then to the block 26 of the primary digital processing.

 The location of the object subjected to unauthorized influence is displayed in the display unit 27 in the form of a mark on the monitor screen, if it is a stationary object with a known address, such as an apartment, office, etc., or in the form of a "honeycomb" - a closed geometric figure (circle, ellipse, rectangle, etc.), if it is a moving object (person, car, etc.). This figure is positioned relative to a known location on the terrain of the direction finding relay 10, which received and re-emitted the alarm. For example, at the indicated point, there may be a center of a circle whose radius corresponds to the range of the transmitter 8 beacon type mounted on board the stolen vehicle. The results of direction finding of the transmitter 8 from nearby relay-direction finders 10 can be displayed in the form of direct rays forming sectors. The angles at the vertices of these sectors correspond to direction finding errors of transmitters of the 8th beacon type.

 The determination of the coordinates of each transmitter 8 beacon type, emitting an alarm, is carried out in block 28 for determining the coordinates of objects, which is part of block 29 of the secondary processing. Such a determination can be carried out, for example, algorithmically, or manually - by the operator of the dispatch center 14 when the cursor is brought to the predicted target location.

 Coordinate determination algorithms use a combination of location data of direction-finding relays 10, which have received alarms from a transmitter 8 of a beacon type and whose powers exceed a predetermined level, and measured power values of received signals and bearings on them.

 If an object with a beacon type transmitter 8 turned on, for example, a vehicle, is in motion (the engine of such a vehicle is blocked, but the possibility of towing a vehicle, for example, is not excluded), then the vehicle's trajectory is tracked by the secondary processing unit 29. In this case, well-known auto-tracking algorithms are used, used, for example, in radar. The vehicle trajectory is recorded in the long-term memory of the secondary processing unit 29 and, if necessary, can be called up on the screen in the display unit 27 and recorded in the memory of the registration unit 30.

 According to the special application of the system subscriber, the alarm signal can be canceled, in which case the trajectory is reset from tracking.

 In any case, the initial accuracy of determining the coordinates of a moving object is small and amounts to several tens or even hundreds of meters, which, however, is quite sufficient for the primary localization of this object on the street-road network and the development of primary “target designation” for rapid response means.

 Block 31 determining and accounting the number of inclusions of the beacon type transmitter located in the secondary processing unit 29 is started using the settlement code. The number corresponding to the number of inclusions of the transmitter 8 of the beacon type paid by the subscriber of the system, with the number determined by the settlement code (indicated on TC 17 of the subscriber), is read from the memory cell of the above block 31. If this number coincides with the number of 23 messages actually received by the information center from this transmitter 8, the corresponding subscriber of the system is automatically warned about the possibility of disarming it.

 Technical implementation of communication channels between the system subscriber and the information center 23, in particular, the algorithm for obtaining information about the coordinates of a stolen and blocked vehicle, or any reference information, as well as information about changes in the identification signs of the object of protection or the number of paid calls to the information center 23 not the subject of the present invention. The technical execution of these operations does not cause any difficulties and can be carried out, for example, using a telephone, paging network, e-mail or the Internet. Feedback in this case is implemented using each information center 23 of the information message forming unit 32 and the voice message shaper 33 connected to the telephone network 1 for communication and data transfer.

 Upon receipt in any of the information centers 23 of confirmation of the fact of unauthorized exposure to the object of protection from the system subscriber, the address information about this object generated in the secondary processing unit 29 (geographical coordinates, identification signs, data about the system subscriber, etc.), and also auxiliary information, for example, data on the current transport situation in the city, coming from external information sources 24 through a block 34 for receiving and processing messages from external information sources persons, enter block 32 of the formation of information messages. Data on the state of the transport situation in the city, on ongoing repair work on the road network, a street map and other information necessary for predicting the movement routes of moving objects, comes, in addition, from the block 34 for receiving and processing messages from external information sources to the block 29 secondary processing. The output signals of the block 32 the formation of information messages trigger the shaper 33 voice messages, from which a geographically distributed network of 20 centers of operational response receives a voice message. At the same time, for sending a voice message, the center 21 of the operational response closest to the object of protection is selected. In the specified center 21, this message is registered as an official statement of the owner, according to which, according to the "Law on Police" (1991), immediate action must be taken.

 As a rule, such actions are carried out by mobile police units. To search for vehicles, these outfits are equipped with individual direction finding tools that allow you to determine the polar coordinates of the on-board transmitter 8 beacon type (range, bearing) in your own coordinate system. They search for a blocked vehicle in a limited area (cell), the location and dimensions of which are determined by the coordinates obtained in block 28 for determining the coordinates of objects based on the results of joint processing of data on the location of the relay-direction finders 10 located on the vehicle, which have detected this vehicle, the measured values of bearings and powers received signals.

 The role of the rapid response centers 21 can be performed by the duty units (MF) of the police, whose network usually covers the entire city. As you know, DCs have a fleet of patrol cars carrying round-the-clock duty on a controlled territory.

 Due to the significant limitation of the initial search zone and the prompt automated transfer of information about the search object to the patrol cars, a sufficiently short (few minutes) response time can be provided.

 The transmission of information messages from each information center 23 to a geographically distributed network of 20 centers for rapid response allows the operational management of mobile groups involved in the search for vehicles, which also significantly speeds up the process of searching and intercepting vehicles that have been subjected to unauthorized attack by attackers.

 The increase (in comparison with the prototype system) of the number of information centers 23 makes it possible to significantly simplify the procedure for managing telecommunications facilities of the proposed system, since information messages are broadcast over the air in basically one direction - from the bottom up, and their intensity is relatively low. The process of managing the network in the direction of “top-down” is decentralized and is carried out mainly on limited segments of the network corresponding to the areas of various operators of the system.

 At the same time, a database with personal information about the subscribers of the system and their movable and immovable property is geographically distributed among various operators of the system, which greatly facilitates the solution of problems of ensuring security and restricting access to information.

 At the same time, due to the presence in the system of a single dispatch center 14, providing a centralized collection of information throughout the telecommunication network, the proposed system retains all the advantages of the prototype system in comparison with other analogue systems: the system provides interaction with external information sources and achieves high accuracy of location of mobile objects of protection.

Claims (1)

 A monitoring system, information service and protection of mobile and fixed objects from unauthorized exposure, containing a telephone communication network and data transmission connected to a paging communication network, which includes an operator data transmission unit and radio receivers associated with it, each of which is associated with sensors of unauthorized impact on the object, with a beacon-type transmitter launch unit and with a control unit for the security system actuator, which n with the ability to turn on and off the executive device of the object’s security system when sensors of unauthorized exposure to the object are triggered, when the corresponding codes are received via a paging network or when a transponder card is inserted into the designated area, the digital subscriber’s ID is fixed to it, and on the surface certain fields are protected by a single-use coating, for example, paint, secret codes that are visually accessible only when removed coverage, as well as a geographically distributed network of direction-finding relays, consisting of direction-finding relays installed on traffic lights, city lighting poles, roofs of buildings and other stationary objects of city infrastructure and made with the possibility of receiving code parcels from a beacon type transmitter when finding its carrier facility in the coverage area of the direction finder relay and transmitting received messages to at least one of the base stations of the geographically distributed set and base stations, an information center containing a series-connected information receiving unit, a primary digital processing unit, a secondary processing unit, an information message generation unit and a voice message generator associated with a geographically distributed network of response centers, a unit for receiving and processing messages from external information sources whose inputs are connected via communication channels with external information sources, the first output is connected to the corresponding input of the block in of the original processing, and the second output - with the second input of the information message generation unit, the registration unit and the display unit, the inputs of which are connected to the corresponding outputs of the primary digital processing unit, and the outputs - with the corresponding inputs of the secondary processing unit, configured to determine the coordinates of objects in the aggregate data on the location of direction-finding relays that received signals from beacon-type transmitters installed at these facilities that exceed their predetermined level level, and the measured power values of the received signals and bearings on them, as well as with the ability to determine and account for the number of inclusions of the beacon type transmitters for making financial calculations with system subscribers and automatically notifying the subscriber about the possibility of terminating the protection of the object at the end of the transport card validity period or at the number of inclusions exceeding the nominal value of a given transponder card, and centers of operational response included in the above network of operational response, etc. and the beacon type transmitters installed at the facilities are capable of transmitting the security code and the registration code of the subscriber in the system, the control unit for the security system's executive unit is configured to reprogram the identification code when the transponder card's identification code changes, the operational response centers are the ability to register and record voice messages, as well as the ability to determine the location the forces and means of rapid response - foot patrols and patrol cars on the road network and with the ability to call the beacon or patrol car nearest to the alarm emitting transmitter and control them in the process of approaching the indicated object carrying the indicated beacon type transmitter, wherein the means of rapid response are made with the ability to measure the polar coordinates of the emitting beacon type transmitter, characterized in that the system additionally introduces There are n - 1 information centers forming a geographically distributed network of n information centers, where n is the number of system operators, as well as a dispatch center containing a series-connected additional reception unit, an additional primary digital processing unit, an information message generation unit for the dispatch center, and a voice shaper messages of the dispatch center, the output of which is connected to a geographically distributed network of centers for operational response, with each of the bases new stations is connected to the corresponding input of the additional reception unit located in the control center, and each additional output of the information message generation unit of the dispatch center is connected to the input of the reception unit of the corresponding information center, in each information center the second output of the information message generation unit is connected to the paging communication network, and the second output of the voice driver is to the telephone network for data and communication.

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