RU2225302C1 - Information-and-security complex for monitoring and protection of vehicles and immovable property objects against unauthorized use - Google Patents

Abstract

FIELD: security systems. SUBSTANCE: user has electronic mark and object is provided with data readout unit for remote identification. Object is furnished with controller coupled with alarm message shaping unit and command shaping unit of object functional sets, both coupled with central control unit, and transmit- receive module coupled with controller through coder and decoder of object. Object location finding unit, sound signals, melodies and voice messages storage unit and object user telephone number storage unit, both coupled with controller. User has cellular telephone set including intercoupled controller and command shaping unit and transmit-receive module. The latter is coupled with transmit-receive module of object through mobile cellular network, and with controller, through telephone coder and decoder. Cartographic and semantic information display unit and data input unit of personal computer are coupled with controller. EFFECT: simplified protection system, enlarged operating capabilities as to remote control of electronic equipment of object. 4 cl, 1 dwg

Description

 The invention relates to electronic equipment for protecting vehicles (TS) and real estate from unauthorized use.

 There is a known method of controlling the vehicle security system, according to which, when a vehicle is stolen, information about it is transmitted to the central station, code address and command signals are generated, they are transmitted over the air to the vehicle, these signals are decoded and the corresponding vehicle components are blocked, ensuring it is stopped (DE patent 4318596, B 60 R 25/00, 12/08/1994).

 The disadvantage of this method is the need to create a separate specialized radio communication system with acceptable signal transmission quality, range and throughput, which is a rather complicated organizational and technical task and requires significant financial costs.

 This drawback is eliminated in inventions in which instead of a specialized radio communication system, channels of publicly available communication and data networks are used, for example, cellular mobile networks and paging systems.

 So, in the CELL-EYE system described in patent WO 00/17021, 60 R 25/04, 60 R 25/10, 30.03.2000, remote control of locking / unlocking units of the vehicle and / or devices restricting access to real estate is carried out using a GSM mobile network. The system contains a controller with a memory block connected via a modem to the GSM module of the cellular mobile network, as well as unauthorized sensors, the outputs of which are connected to the inputs of the vehicle protection system or the protected property, the outputs of which are connected through the first interface to the controller, and an alarm a button with a receiver connected to one of the controller inputs, the output of which through the second interface is connected to the immobilizer or, in case of real estate protection, to an access restriction device.

 In the equipment for controlling the vehicle security system according to the patent RU 2074826, 60 R 25/00, 03/10/1997 for the remote control of the vehicle units use the capabilities of a public paging network. According to this method, when a TS user blocks a code in the operator’s office of a paging communication network, an immobilizer is activated via the paging network channel and the vehicle’s engine is blocked, and a secret unlock code is entered into the immobilizer control unit to compare the engine, compared with the identification code stored in the memory and if they match, the immobilizer is deactivated, while changing the blocking and secret unlocking codes as necessary, and I set the identification code t in the form of a program in the memory of the immobilizer control unit via a hidden keyboard.

 In another known system (according to patent RU 2155683, 60 R 25/00, September 10, 2000), after the user of the vehicle informs the blocking code from the operator’s office of the paging network, the vehicle immobilizer is activated using the channel of the paging network and the vehicle engine is blocked by it , and to unlock the engine, a secret unlocking code is entered into the immobilizer control unit, compared with the identification code stored in the memory and, if they coincide, deactivate the immobilizer, while changing the blocking and secret unlock as necessary code, and the identification code is reprogrammed in the memory of the immobilizer control unit by means of a hidden keyboard, the user of the vehicle is equipped with a transponder card, on which the blocking and secret unlock codes are recorded, the identification code is recorded in the digital memory of the transponder card, while for unlocking the engine and automatic reprogramming in memory the immobilizer control unit of the identification code, place the transponder card in a specially designated area for station reading the identification code from the transponder card to the immobilizer control unit.

 The disadvantages of the above technical solutions are the limited ability to implement various algorithms for remote control of the functional bodies of the protected object, which in practice is limited to blocking / unlocking the vehicle engine by activating / deactivating the immobilizer.

 To expand the capabilities of remote control of the functional organs of the guarded object with the flexible adjustment of control algorithms for specific tasks, bearing in mind that not only vehicles, but also real estate objects (apartments, garages, cottages, etc.) can serve as protected objects, Patent RU 2202484, 60 R 25/00, 04/20/2003, proposes a system for protecting vehicles and real estate from unauthorized use, containing an operator office for a paging network in which the first modem is through a processing server of telephone messages is connected by the output to the input of the second modem, the output of which is connected via the channel of the paging communication network to the input of the paging communication receiver located at the protected object, where the signal generation control unit of the functional organs of the protected object is also installed, the first input of which is connected to the output of the paging communication receiver, remote reading unit, the output of which is connected to the second input of the block for generating control signals of functional organs about the object, and the input is inductively connected to the transponder located at the user, the indicator of the control mode of the functional bodies of the protected object, the first input of which is connected to the indicator output of the signal generation block of the control of the functional bodies of the protected object, the control outputs of which are connected to the functional bodies of the protected object, including with an immobilizer, as well as a subsystem for processing informational messages, including a server for processing informational messages, a storage unit information, the input and output of which are connected respectively to the information output and the input of the server for processing information messages, the block for receiving information from external sources, the output of which is connected to the input for receiving external information of the server for processing information messages, a telephone communication modem, the input of which is connected to the public telephone network use or to a dedicated telephone communication channel, and the output to the telephone message receiving input of the information message processing server, paging modem, input One of which is connected to the paging output of the information message processing server, and the output is connected to the input of the first modem of the operator office of the paging network, as well as a mobile cellular network module connected via the mobile modem to the input and output of the mobile communication of the information message processing server, and the equipment installed on the guarded object includes object module of mobile cellular network, object mobile modem and control Weller, output control commands which is connected to the third input unit for generating control signals functional bodies of the protected object, and information output - to the second input of the indicator functional bodies protected object control mode.

 This system is selected as a prototype of the proposed technical solution.

 The presence in the prototype system of a separate subsystem for processing information messages that interacts with a paging operator’s bureau, a public switched telephone network, a standard cellular mobile network and external information sources is, on the one hand, an advantage of this system, since it significantly expands the possibilities for implementing various algorithms remote control of the functional organs of the protected object. On the other hand, the concentration in one place of a large amount of confidential information requires the adoption of special measures to protect it, including the physical protection of the premises where the server for processing information messages and communications are located. This significantly complicates and increases the cost of the specified system, limiting the scope of its possible application.

 The objective of the present invention is to simplify the practical implementation of the system to protect the vehicle and real estate from unauthorized use and the procedure for its use by users of the vehicle while maintaining wide functionality for remote control of electronic equipment of the protected object.

 This problem is solved through the implementation of interaction between users of the protected facility and facility equipment on a point-to-point basis. At the same time, the system for protecting vehicles and real estate from unauthorized use is converted into an information and security complex for monitoring and protecting vehicles and real estate from unauthorized use.

 To do this, into the well-known system for protecting vehicles and real estate from unauthorized use, containing installed on guarded objects - vehicles and / or real estate - an object controller connected to the central control unit connected by an alarm message generation unit and a functional control command generation unit bodies of the protected object connected to the corresponding functional bodies of the protected object, the data reading unit, which is part of the node d station user identification, and an object transceiver module, as well as an electronic tag located at the user, which is part of the remote user identification node and connected by radio with a data reader, and a cell phone that works in the generally accepted standard of cellular mobile communications, which includes connected each other, a telephone controller and a control command generation unit to which a keyboard of a cellular telephone is connected, as well as a telephone transceiver module, knitted through a cellular mobile communication network with an object transceiver module, while the data reading unit is connected to an alarm message generation unit configured to receive control signals from sensors of unauthorized use of the protected object, - entered - at the protected object: object encoder, object decoder, block determining the location of the protected object, a unit for storing sound signals, melodies and voice messages and a unit for storing data on the phones of users guarding object, and in a cell phone - a display unit of cartographic and semantic information and a data input unit in a personal computer (PC), which are connected by their inputs and outputs to the corresponding outputs and inputs of the telephone controller, as well as a telephone encoder and telephone decoder, the input of which is connected to the output of the telephone transceiver module, and the output to the additional input of the telephone controller, the additional output of which is connected through the telephone encoder to the input of the telephone transceiver of its module, an object decoder is connected between the output of the object transceiver module and the additional input of the object controller, the input of the object encoder is connected to the additional output of the object controller, and the output of the object encoder is connected to the input of the object transceiver module, the unit for determining the location of the protected object, the block for storing sound signals, melodies and voice messages and the data storage unit about the phones of users of the protected object are connected with the object controller, etc. and the object controller is configured to interact with the unit for determining the location of the protected object, the unit for storing sound signals, melodies and voice messages and the unit for storing data about the phones of users of the protected object, and the telephone controller is capable of interacting with the data input unit in the PC and the display unit cartographic and semantic information.

 The following particular essential features contribute to the solution of the problem.

 The unit for determining the location of the protected object is configured to receive navigation signals, for example, in the form of a GPS receiver board.

 The data input unit in the PC is made in the form of a Bluetooth node.

 The drawing shows a functional diagram of the claimed information security system for monitoring and protecting vehicles and real estate from unauthorized use.

The indicated diagram indicates:
1 - block generating alarm messages; 2 - a unit for generating control commands for the functional organs of the protected facility; 3 - functional bodies of the protected facility; 4 - site remote user identification; 5 - data reading unit; 6 - electronic tag; 7 - object controller; 8 - data storage unit about the phones of users of the protected facility; 9 - block storage of audio signals, melodies and voice messages; 10 - block determining the location of the protected object; 11 - object encoder; 12 - object transceiver module; 13 - telephone transceiver module; 14 - telephone decoder; 15 - telephone controller; 16 - block display cartographic and semantic information; 17 - PC data input unit; 18 is a control command generation unit; 19 - keyboard cell phone; 20 - telephone encoder; 21 - object decoder.

 The central control unit, which is an integral part of almost any security system to protect vehicles and real estate from unauthorized use (see, for example, Catalog 2003. "Radio-channel security systems", "Altonika"), contains block 1 for generating alarm messages that receives signals from sensors of unauthorized use of the protected object, and block 2 of the formation of commands to control the functional bodies of the protected object, providing access control to the protected object and block tion / unlocking movement when the protected object is a vehicle. In TS, the functional organs 3 of the guarded object are: ignition system, engine start system, fuel supply system, etc. Most radio channel security systems also contain a remote user identification node 4, which includes a data reader 5 installed on the guarded object and an electronic tag carried by the user 6, for which various models of keyfobs and transponders can be used (see, for example, Catalog 2002. "Car Security Systems". Technical Information, "Alt nick ", p.59, 60).

 The data reading unit 5 is connected with the alarm message generation unit 1, which, in turn, is connected with the control unit functional command generating unit 2 and the object controller 7. In this case, the alarm message generating unit 1 is configured to receive control signals from sensors fixing facts of unauthorized use of the protected object.

 The object controller 7 is a key link of the considered information security complex, distributing data streams and synchronizing the operation of the entire complex. To perform these functions, the object controller 7 is connected to the unit 8 for storing data about the phones of users of the protected object, the unit 9 for storing sound signals, melodies and voice messages and the unit 10 for determining the location of the protected object, and is also connected by an additional input through the object encoder 11 to the output of the object transceiver module 12, and an additional output through the object decoder 21 to the input of the specified object transceiver module 12.

 The object controller 7 is a microprocessor-based programmable device widely used in automotive electronics.

So, in the line of information security systems "REEF ^® GSM" (certificate of conformity ROSS RU.ME30. B.01281) commercially available by the applicant company, the object controller 7 is used together with the object transceiver module 12 of the GSM 900/1800 standard using SMS transmission -messages. The models "REEF ^® GSM 1000" and "REEF ^® GSM 2000" are already on sale. In the model "REEF ^® GSM 3000" is used, in addition, the block 10 for determining the location of the protected object, the role of which is played by the serial GPS-receiver board (see, for example, "GPS navigation receivers". - M .: CBS, 2001 , G8 GPS OEM Board, Magellan, Ashtech Precision Products, 2000, etc.).

In the mass-produced car hands-free kit "REEF ^® HF-1000" (certificate of conformity ROSS RU.ME30.B.01155), the object controller 7 is used in conjunction with the unit 8 for storing data about the phones of users of the protected object and with the unit 9 for storing audio signals, melodies and voice messages.

 Individual settings (as well as their changes) are carried out by programming (and reprogramming) these blocks.

 The object transceiver module 12 on the air (through a standard cellular mobile network) is connected to the cell phones of users of this guarded object. The equipment of the used cell phone models should include: a telephone controller 15, similar in function to the object controller 7, but slightly different in design, as well as a telephone transceiver module 13 with a built-in antenna for two-way radio communication with the object transceiver module 12, block 18 formation of control commands, equipped with a standard keyboard 19 of a cell phone, a block 16 for displaying cartographic and semantic information, a block 17 for entering data into a PC , telephone encoder 20 and descrambler 14. Block 16 displaying cartographic and semantic information, block 17 for entering data into a PC, block 18 for generating control commands are connected by their inputs / outputs with the corresponding outputs / inputs of the telephone controller 15. The output of the telephone controller 15 through the telephone encryptor 20 connected to the input of the telephone transceiver module 13, the output of which through the telephone decoder 14 is connected to the input of the telephone controller 15. Examples of the construction of a cell phone described above are those ematicheskie terminals Benefon Track Pro and Benefon Esc (described in promotional materials and press releases Benefon-manufacturer).

 The PC data input unit 17 can be made in the form of a wireless communication node, for example, a Bluetooth node. Features of the use of Blue-tooth-nodes in auto electronics are described, for example, in the article "Autoelectronic concepts of Altonika", magazine "12 Volts", 3, 2002, p. 56.57. With the Blue-tooth-node, cell phones of models Ericsson T39 and T68, Sony Ericsson T68i, Nokia models 8910 and 6310 and others are produced.

 As follows from the foregoing, the information and security complex under consideration for monitoring and protecting vehicles and real estate from unauthorized use consists of elements of computer and telecommunication equipment available on the open commercial market. Some of these elements are aggregated into functional units used by the applicant enterprise in commercially available security systems (see above). Thus, the technical feasibility of the proposed technical solution at the current level of development of communications and computer science is not in doubt.

 Let us further consider the principles of operation of the proposed information security complex.

 The key unit of any security system is the central control unit associated with various security sensors (detectors) and actuators (see, for example, the Catalogs 2002, Automobile Security Systems and Radio Security Systems, issued by the applicant company, Altonika). In the framework of this inventive proposal, only those functions of the central control unit are considered that are related to sending alarm messages over the air and with the formation of commands to control the functional organs of the protected object, in particular, bodies that prevent theft of the vehicle, for example, immobilizer or radio relay control commands that block the engine of the vehicle . These functions are performed respectively by block 1 generating alarm messages and block 2 by forming commands to control the functional bodies of the protected object. As a rule, along with the object equipment described above, the security system of the guarded object also includes unauthorized sensors, sound and light alarm devices, and in some cases radio alarms (see Catalogs 2002, “Automobile Security Systems”, issued by the applicant company and "Radio channel security systems", Altonika). However, the operation of this equipment is not directly related to the subject of this application.

 The same can be said about the differences between the system of protection against unauthorized use of the vehicle and the system of protection of real estate - for this invention, these differences are not significant. Therefore, for simplicity, we restrict ourselves to consideration of the operating principles of the security and information complex under consideration for the case of protection against unauthorized use of the vehicle.

 Block 1 operates under the control of node 4 for remote user identification, which includes a data reader 5 mounted on the vehicle and an electronic tag 6 carried by the vehicle user.

 Arming the complex in the protection mode depends on the specific algorithms embedded in the central control unit, and is not the subject of consideration in this invention.

 Removing the vehicle from the protection mode is carried out remotely by the user using his electronic tag 6.

 When using an active keyfob as an electronic tag 6 by pressing one of its buttons, the supply voltage is applied to the encoder, which generates the desired code package, mainly of a dynamic type, and sends it to the air using the antenna built into the keyfob.

 When using a passive remote control, the power necessary for transmitting the code packets is generated by the pump generator, which is part of the data reading unit 5. Through the antenna of this unit, the pumping frequency signals are broadcast, received by the receiver of the passive keyfob 6, and the code parcel generator included in the keyfob 6 is launched. The transmitted encoded messages are received by the data reading unit 5, in which the received code is compared with the given one and, if they coincide, a corresponding effect is generated on the unit 2 for generating commands for controlling the functional bodies of the protected object, which, in turn, gives the unlock command to the corresponding functional bodies 3 of the protected object, for example, on an immobilizer.

 When using a transponder card as an electronic tag 6 (for example, with a variable, that is, a load changing in accordance with the identification code) and entering it in a special reading zone, the identification code is read by the antenna unit 5 for reading data from the digital memory of the transponder card 6 The read code is compared in the data reading unit 5 with the identification code stored in the memory of the data reading unit 5. In case of coincidence of the indicated codes, the vehicle engine is unlocked (see above).

 When an attacker attempts to penetrate into a secured vehicle, dismantle or steal its components and accessories by sensors of unauthorized use of a protected object (not shown in the drawing), control signals are generated that enter the central control unit. After processing the received signals in the alarm control generation unit 1, which is a part of the central control unit, control signals for the command generation unit 2 for generating control of the protected object’s functional bodies and alarm code messages that are sent to the object controller 7 are synthesized. After receiving the corresponding control signals, the command generation unit 2 control of the functional organs of the protected object affects the functional organs 3 of the protected object, preventing Well vehicle.

 Upon receipt of alarm code parcels, the object controller 7 requests in the data storage unit 8 about the phones of the protected object users the telephone numbers of the users of the vehicle (first of all, the owner of the vehicle or the person managing the vehicle by proxy).

The serial model of the REEF ^® GSM 2000 cellular mobile communication terminal equipment, which is commercially available by the applicant company, furthermore provides the opportunity to contact the user of the vehicle using sound-perceptible sounds or popular melodies generated in the block 9 for storing sound signals, melodies and speech messages according to the corresponding request from the object controller 7. A specific melody can be selected for each situation. Moreover, the setting can be made so that, for example, in all alarming situations a siren sounded. If the user himself sends to the object transceiver module 12 a request about the state of the vehicle when everything is in order with the vehicle, then the message sent on such a request sounds the well-known tune "Our service is both dangerous and difficult."

In prototypes issued by the applicant company model "REEF ^® GSM 3000" provides, in addition, the transfer of the current coordinates of the vehicle, measured in block 10 determining the location of the protected object, which is used as a GPS-receiver board.

 Thus, simultaneously with the request from the object controller 7, data about the phones of the users of the vehicle from the block 9 for storing sound signals of melodies and voice messages, a melody or alarm voice message is requested corresponding to this type of alarm, for example, "Hijacking", and from block 10 determining the location of the protected object - the current coordinates of the vehicle.

 In the object controller 7, the alarm message and vehicle coordinates are embedded in the alarm code messages sent to the object encoder 11, which is a special encryption tool that gives the received information a level of cryptographic strength corresponding to information that does not constitute a state secret, i.e. level of confidential information. Encryption is necessary, first of all, when transmitting the current coordinates of the vehicle, since they should be available only to a certain circle of users of the vehicle. The encrypted code packets are then sent to the object transceiver module 12, for example, the GSM module of the cellular mobile network, and are transmitted through the built-in antenna of this module.

In particular, when using any commercially available terminal mobile cellular communications equipment from the aforementioned "REEF ^® GSM" line as the object transceiver module 12, the radiation is carried out in the EGSM 900 / GSM 1800 format. Message type - SMS, Code - ASCII. The maximum possible number of bits in the code of the transmitted message is 160. Messages are recorded in the SIM card of the REEF ^® GSM equipment, the capacity of which allows recording at least 15 SMS messages.

When programming a SIM card, encrypted message texts and cell phone numbers to which these messages should be sent are entered into its memory, that is, the REEF ^® GSM equipment simultaneously performs the functions of an object encoder 11. The maximum number of cell phone numbers notified by the specified equipment, equal to three.

The coverage area of the terminal equipment "REEF ^® GSM" is determined by the coverage area of the mobile operator with which a service agreement has been concluded. For the convenience of users, both for the REEF ^® GSM on-site equipment and for the cell phones to which messages are sent, as a rule, they select one mobile operator.

 To prepare SMS messages, you need to perform a certain sequence of operations.

For example, when using a Siemens A35 cell phone and commercially available from this company, the object transceiver module 12 cards for the preparation of SMS messages perform the following sequence of operations (see the User Manual for Terminal Mobile Equipment "REEF ^® GSM", "Altonika", 2002, p. 7, 8): - enter the menu (MENU);
- choose the MESSAGE submenu with the arrows and enter it;
- select the WRITE TEXT option. At the same time, a cursor should appear on the phone’s display, indicating that you can enter text;
- enter the necessary text, for example: ALARM;
- press the key (OPTION). On the phone screen you can choose what can be done with the typed text;
- choose the option SEND MESSAGE. The line (SEND) appears on the phone’s screen with the cursor in the first position. This means that the user is prompted to enter the cell phone number of the subscriber to whom the message will be sent;
- dial the subscriber’s cell phone number for which the user is preparing to send an SMS message (let, for example, be the number "+79165213254");
- click on the option (SEND). An SMS message will be sent to the cell phone number indicated. If the SMS message was not sent successfully, then there are three possible reasons to check and eliminate:
- no connection (poor connection) with the GSM network. To eliminate it is necessary to move to the zone of reliable reception;
- the wrong phone number to which the SMS message is sent is indicated. It is necessary to check the number dialed in the SMS message and indicate the correct number;
- the telephone number of the service center of the subscriber service of SMS messages of the mobile operator is incorrectly indicated. It is necessary to check the number and correct it. If the message was sent successfully, a message will appear on the cell phone’s display, and then the phone will offer to SAVE THE MESSAGE;
- press the (OK) key and the message will be saved on the SIM card.

 - at the end of recording messages on the SIM card, turn off the cell phone, carefully remove the programmed SIM card from it and install it in the object transceiver module 12.

The terminal equipment of the cellular mobile network "REEF ^® GSM" is constantly in one of two modes:
- control mode;
- transmission mode of alarm code parcels.

In the monitoring mode, the REEF ^® GSM equipment monitors changes in the state of the alarm generation unit 1. Upon receipt of an alarm message from this unit, the REEF ^® GSM equipment switches to the mode of transmitting alarm code messages. A communication session with a mobile operator begins. During the communication session, the cellular phone numbers for which the distribution of code parcel data and the text of the code parcels for each of these numbers are sequentially transmitted to the server of the cellular communication operator. For the duration of the communication session, the equipment "REEF ^® GSM" does not stop monitoring the state of the alarm generation unit 1. The mobile operator, having received alarm code packages from the vehicle, sends them to the given cell phones of users. The average time interval between the generation of an alarm message by unit 1 and the receipt of the corresponding alarm code message on the user's mobile phone is 45 s (during normal communication and if the telecom operator has free channels).

 The alarm code messages received by the user’s cell phone antenna are sent to the telephone transceiver module 13 and, after decryption in the telephone decoder 14, are supplied to the telephone controller 15, from which they are sent to the cartographic and semantic information display unit 16.

An example of text information transmitted by the REEF ^® GSM equipment with a three-zone vehicle security system is presented at the end of the description in the table.

 If the alarm coordinates contain the coordinates of the vehicle, measured using the unit 10 to determine the location of the protected object, then in accordance with the coordinates of the vehicle from the memory of the block 16 display the cartographic and semantic information of the user's cell phone, the corresponding fragment of the digital terrain model is extracted and displayed together with text information on user-friendly cell phone display. A digital model of the required district is pre-recorded in the memory of the block 16 for storing cartographic and semantic information when programming a cell phone.

 Naturally, the possibilities of such a memory are limited. Significantly greater capabilities for displaying cartographic and semantic information than a cell phone, have a PC equipped with a geographic information system (GIS).

 If the user has such a PC (Notebook, PALM, etc.), the cell phone is switched to the mode of entering alarm code messages into the PC. In this case, the telephone controller 15 is connected to the PC via the PC data input unit 17. The controller 15 sends the alarm code messages received by the cellphone to the PC data input unit 17.

 This unit, if there is a wired connection with a PC, converts the specified information into a format that provides the ability to interact with a PC using a standard interface, such as RS232.

 When the unit 17 for entering data into a PC in the form of a Bluetooth node, wireless data transmission to a PC equipped with a similar Bluetooth node becomes possible. The Bluetooth node built into the cell phone converts the code packets sent to it into the Bluetooth format and transmits them over the air to the PC, which can be, for example, in the user's pocket. The Bluetooth node built into the PC receives the code messages and transmits them to the PC for further processing and display. The storage and updating of cartographic information in a PC is usually carried out using CDs that are supplied to the user on a commercial basis. In compact PALM-type PCs, flash memory is used for this purpose, and information is displayed using a liquid crystal display.

As a full-blown GIS, for example, the Geobilder ^® software package "Geobilder ^® ", a certificate of conformity from ROSS RU, commercially available by the company Geokibernetika, can be used. KP02. S00014). Description and principles of functioning of GIS "Geobilder ^® " are presented in the proprietary material "GeoBuilder software package", 2002 and on the website of the aforementioned company www. geobuilder. ru. Simplified software construction options are also possible, in which the capabilities of the GIS "Geobilder ^® " are partially used.

Along with solving the task of promptly notifying the vehicle user about attempts to unauthorized use of the vehicle, the information and security complex under consideration allows the user to be informed about the status of the protected object upon request, as well as remotely using the user's cell phone (the prototype used a paging communication channel for this) to manage functional bodies protected object. In the REEF ^® GSM line of mobile cellular terminal equipment manufactured by the applicant company, the REEF ^® GSM 2000 and REEF ^® GSM 3000 models have such capabilities.

In particular, in the case of theft of the user’s electronic tag 6 with the keys to the vehicle and the subsequent penetration of the attacker into the vehicle, the user is able to transmit an order to block the engine via his cell phone. In the models "REEF ^® GSM 2000" and "REEF ^® GSM 3000", in addition, transmission by cell phone of commands for performing various service functions is provided. For example, you can send a command to remotely start the engine for warming up, commands to "open / close doors", "raise windows", "panic", etc. At the same time, of course, certain commands (for example, a command to open doors when armed) TS) will be ignored.

 The set of the required command is carried out in block 18 of the formation of control commands using the standard keyboard 19 of the cell phone. The required commands corresponding to certain sequences of keystrokes of a cell phone are set by preliminary programming of the control command generation unit 18 and changed by reprogramming it.

 These commands are received by the telephone controller 15, which sends them to the telephone transceiver module 13 through the telephone encoder 20. These commands in the format of the mobile cellular network used are emitted as SMS messages by the telephone transceiver module 13.

 Encryption of SMS messages is used, for example, in models of Benefon Track Pro and Benefon Esc mobile phones (see materials of press releases and advertising by Benefon). To enable the telephone encoder 20, it is enough to install the corresponding encryption program in it and apply for the activation of the telephone encoder to the service center of the cellular network operator serving this user. Telephone encoder 20 also allows you to confirm the authenticity of the sender of SMS messages to one of the users.

 The command messages received by the object transceiver module 12 are decrypted in the object decoder 21 and sent to the object controller 7, which checks the validity of their execution and, if possible, sends them to the associated blocks 1, 2, 8-10 (see drawing), acting as indicated above. If the object controller 7 received a request command about the status of the protected object or a command that is unacceptable for execution, then the object controller 7 generates the corresponding response code message and transmits it through the object encoder 11 to the object transceiver module 12 to notify the corresponding user.

 Thus, the proposed information and security complex for monitoring and protecting vehicles and real estate from unauthorized use compares favorably with the prototype in that it does not contain nodes (a message processing server and a paging network operator bureau) requiring special information and physical protection, and built on a point-to-point basis. At the same time, information transmitted over a standard mobile communication network is reliably protected thanks to encryption of SMS messages used. At the same time, the prototype possesses wide opportunities for remote control of security and service functions of the guarded object.

 Moreover, the proposed technical solution is novel and technically feasible on existing elements of computing and telecommunications technology, which allows us to classify it as an invention.

Claims (4)

1. An information-security complex for monitoring and protecting vehicles and real estate from unauthorized use, containing an object controller connected to the central control unit and interconnected by an alarm generation unit, installed on protected objects - vehicles and / or real estate messages and the unit for the formation of commands to control the functional bodies of the protected object connected to the corresponding functional bodies of the guard object, the data reader, which is part of the remote user identification unit, and the object transceiver module, as well as the electronic tag that the user has, which is part of the user’s remote identification unit and connected via the radio to the data reader, and a cell phone that works in the generally accepted standard of cellular mobile communication, which includes a telephone controller connected to each other and a control command generation unit to which a keyboard is connected a cell phone, as well as a telephone transceiver module, connected via a cellular mobile communication network to an object transceiver module, wherein the data reading unit is connected to an alarm message generating unit configured to receive control signals from sensors of unauthorized use of the protected object, characterized in that an object encoder, an object decoder, a unit for determining the location of a protected object, a unit for storing sound signals, were introduced at the guarded object als, melodies and voice messages and a unit for storing data about the phones of users of the protected object, and in a cell phone - a unit for displaying cartographic and semantic information and a unit for entering data into a personal computer, which are connected by their inputs and outputs with the corresponding outputs and inputs of the telephone controller, and also a telephone encoder and a telephone decoder, the input of which is connected to the output of the telephone transceiver module, and the output to the additional input of the telephone controller, additional to the passage through the telephone encoder is connected to the input of the telephone transceiver module, the object decoder is connected between the output of the object transceiver module and the additional input of the object controller, the input of the object encoder is connected to the additional output of the object controller, and the output of the object encoder is connected to the input of the object transceiver module, the location unit guarded object, storage unit for sound signals, melodies and voice messages and data storage unit x about the phones of users of the protected object are connected with the object controller, while the object controller is configured to interact with the unit for determining the location of the protected object, the block for storing sound signals, melodies and voice messages and the data storage unit about the phones of users of the protected object, and the telephone controller with the ability to interact with a data input unit in a personal computer and a display unit of cartographic and semantic information. 2. The complex according to claim 1, characterized in that the unit for determining the location of the protected object is configured to receive navigation signals. 3. The complex according to claim 2, characterized in that the unit for determining the location of the protected object is made in the form of a GPS receiver board. 4. The complex according to claim 1, characterized in that the data input unit in the personal computer is made in the form of a Bluetooth node.

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