RU2198800C1 - Radiochannel data acquisition and processing system for centralized protection of vehicles, immovable properties and animals - Google Patents

Abstract

FIELD: security systems. SUBSTANCE: proposed system has stationary, vehicle carried and user's portable alarm signaling sets and data acquisition and processing center. Each stationary set includes additional terminal of object using telephone communication lines and alarm controller. Main terminal of object is made for transmission of coded messages from carried and portable terminals of objects to additional device. Each carried set includes antitheft system control unit. Sets and center are equipped with radiomodems coupled with standard fixed or mobile ground radio service network. Console terminal of center and central radiomodem exchange coded messages, and board of data input adapter is connected to lines of telephone network. EFFECT: increased zone of effective servicing without complication of ground organization and cost of system. 3 cl, 1 dwg

Description

 The invention relates to alarm systems and can be used for centralized integrated radio protection of vehicles, real estate (residential premises, offices, garages, etc.), people and animals.

 Known alarm systems containing a central monitoring station (monitoring station) point (control panel) and sensors (security detectors) installed at the monitoring objects connected through object terminal devices and communication channels with the monitoring station.

 When installed on moving objects, such as cars, 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 (US 5650770, G 08 B 25/10, 07/22/1997).

 The disadvantages of such systems are the complexity, high cost and low reliability of the radio transmitting equipment installed on vehicles, as well as the impossibility due to weight and size limitations of its installation on such moving objects as "human" or "animal". This is a consequence of the need to use high radiation power for communication of protected objects with monitoring stations at a sufficiently large (more than a few kilometers) distance from the monitoring station.

 In addition, high-power radiation interferes with radio-electronic means (RES) operating in the system coverage area, which limits the possibilities of practical application of such systems.

 To the greatest extent, these restrictions apply to vehicle alarm systems (STVS).

 So, according to the UNECE Rules 97, enforced by State Standard GOST R 41.97-99 from January 1, 2000, a vehicle alarm system that provides the ability to transmit a radio signal, for example, to enable or disable an alarm or to transmit an alarm, must operate at a permitted frequency of 433.92 MHz ± 0.2% with a radiation power of not higher than 25 mW, which corresponds to a range of STTSS not more than (0.5-1) km.

 In accordance with the Decision of the State Commission for Radio Frequencies (SCRF) under the Ministry of Communications of Russia dated 02.04.2001 (protocol 7/5), the maximum radiation power of the STTSS, which does not require special permits for the purchase and operation of this tool in the State communications supervision bodies, is limited to 5 MW, which for the allowed frequency of 433.92 MHz ± 0.2% corresponds to the range of the STFS not more than (50-100) m. Obviously, with such a distance, centralized protection of vehicles becomes impossible.

 A known alarm system "ROSA" is described in patent RU 2069055, G 08 C 13/00, 05/20/1996, which contains a personal receiver, as well as a set of security sensors (detectors) installed on stationary and / or on moving objects and security device in the form of a combination lock, a central control center containing a computer with an input adapter board and a remote control terminal device in the form of a standard radio station connected via radio to a transmitter of a notification transmission system including a power supply unit and connected in series the control unit for controlling the operating modes of the transmitter, an encoder timer, a signal conditioning device, a power amplifier and a harmonic filter, the output of which is connected to the antenna, while the output of the security sensor unit is connected to the input of the code lock, the output of which is connected to the input of the control unit for operating modes of the transmitter, the other input of which is connected to the second output of the encoder-timer.

 The disadvantage of this system, as well as other well-known analogues, is the high cost of object equipment (as a rule, this is not less than several hundred US dollars), which is associated with the high radiation power necessary to ensure reliable communication of geographically distributed guarded objects with a central control center. Another disadvantage is associated with the unified nature of the equipment installed on stationary and mobile objects. Since the climatic conditions of application and the requirements for the mechanical strength of automotive electronics products are usually higher than for stationary products, such a technical solution significantly reduces the reliability of the object equipment and the system as a whole. In addition, it becomes practically impossible to use such devices as portable signaling devices for objects of the "human" or "animal" type (primarily due to the large size and lack of necessary power sources).

 These disadvantages are eliminated in the invention according to patent RU 2182088, 60 R 25/00, 05/10/2002, selected as a prototype.

The radio alarm system presented in it for centralized protection of motor vehicles, real estate, people and animals, which contains blocks of stationary security detectors installed on protected real estate objects, connected through buffer devices to stationary object terminal devices having stationary antennas for radio communication, installed on blocks of transportable security detectors associated with transportable object terminal devices vehicles having portable antennas for radio communication, and wearable object terminals with protected antennas and animals with built-in antennas for radio communications, personal receivers of owners of vehicles and real estate with built-in antennas of personal receivers for receiving radio messages, a data collection and processing center having a remote terminal device with an antenna of a remote terminal device for radio communication and a centralization console observation, which includes interconnected information input adapter board connected to the remote terminal device, an information processor, a unit for processing and displaying cartographic and semantic information, and a printer with a printer adapter, the input of which is connected to an information processing processor made with the ability to connect to the processing and display unit of cartographic and semantic information and with the ability to output information to the printer adapter, while the remote control center Of the supervised monitoring, it is possible to automatically monitor the health of the radio channel by tracking the periodic receipt of notifications from each stationary, portable and portable object terminal devices, radio communication is made in the form of a microcellular data network (MRTD) with base stations and relays configured to receive code messages from transportable, stationary and wearable object terminal devices, selection and relaying of these messages to the next b zovuyu station or repeater,
The use of MRTD for data transmission, on the one hand, is the advantage of the prototype system compared to the above centralized security systems (low radiation power and, therefore, the simplicity and accessibility of subscriber equipment, the ability to determine the location of a guarded object without resorting to direction-finding measurements, etc. .), and on the other hand, determines its disadvantage, which manifests itself all the more, the more extensive they try to make the system coverage area.

 The disadvantage is the need to increase the number of ground-based relay devices in proportion to the square of the desired radius of the system. This complicates the infrastructure of the system, increases its cost and creates problems of the organizational and technical plan.

 The fact is that the frequency resource allocated for civilian use is very limited and for deploying MRTDs on the ground, it is necessary to obtain the relevant permissions from the State Commission on Radio Frequencies and the Main Radio Frequency Center of the Ministry of Communications of Russia. In addition, the operator operating the ISMT must have licenses for data services and telematic services. For most of the allowed frequency ranges, obtaining permission to use frequencies to create a network is possible only on a competitive basis. Moreover, the more ground-based repeaters are used in the system, the more difficult it is to fulfill the conditions of electromagnetic compatibility with other RES, presented by the Main Radio Frequency Center and the Ministry of Defense.

 In this regard, in practice, only a very small number of the most economically powerful enterprises with experience in operating cellular networks are able to deploy MRTDs over large territories. Basically, the MRTD coverage area is limited to several kilometers, which in turn significantly reduces the functionality of the security alarm system, not allowing to fully solve the task of protecting vehicles.

 The present invention is directed to addressing the aforementioned disadvantage of the prototype system. The objective of the invention is to increase the effective area of the system without significantly complicating and increasing the cost of its ground-based infrastructure.

This problem is solved due to the fact that in the radio channel information collection and processing system for centralized protection of vehicles, real estate, people and animals, containing stationary alarm systems, each of which includes a block of stationary security detectors and a first stationary object terminal device using a radio channel, transportable alarm systems, each of which includes a unit of transportable security detectors with each other transportable object terminal device using a radio channel, protected people and animals wearable object terminal devices using a radio channel, personal receivers of the owner, a data collection and processing center, which includes a remote terminal device using a radio channel, and a central monitoring console including an information processing processor and an information input adapter board connected to the handheld terminal device and to the information processing processor, in whose moves are connected to the processing and display unit of cartographic and semantic information and to a printer, as well as a microcellular data transmission network, configured to receive code messages from stationary and portable security alarm installations and from portable object terminal devices, to select and transmit the specified code messages to the remote terminal device of the center for collecting and processing information and to the personal receivers of the owner, as well as with the possibility of transmitting remote control signals from the remote th terminal device information collecting and processing center for transponders microcellular data network and further to the first stationary and transportable objects does endpoints introduced:
in each stationary alarm system, a second stationary object terminal device using telephone network lines, the inputs of which are connected respectively to the outputs of the stationary security detector unit and to the additional output of the first stationary object terminal device, and the security detectors controller and stationary radio modem, connected to a standard network of a fixed or mobile land radio service, while the inputs of the specified security controller x detectors are connected to the outputs of the block of stationary security detectors, and the first stationary object terminal device is configured to transmit to the second stationary object terminal device code messages received directly or via a microcellular data network from portable alarm systems and portable object terminal devices,
in each transportable alarm installation - the anti-theft alarm control unit connected to each other, the inputs of which are connected to the outputs of the unit of transportable security detectors, and the transportable radio modem connected to the standard network of a fixed or mobile land radio service,
the data collection and processing center includes a central radio modem connected to the handheld terminal device and connected to a standard network of a fixed or mobile land radio service, while the handheld terminal device is capable of exchanging code messages with the central radio modem, and the information input adapter board can connections to telephone network lines.

 Particular features of the invention are as follows.

 In stationary and portable alarm systems and in the center for collecting and processing information, GSM modems are used as radio modems, which are connected to a standard GSM cellular mobile communication network.

 At secure stationary objects connected to the public telephone network, the second stationary object terminal device is configured to generate and transmit alarm notifications via the public telephone network, including busy telephone channels.

 The drawing shows a structural diagram of the proposed radio channel system for collecting and processing information for the centralized protection of vehicles, real estate, people and animals.

The following notation is used in the drawing:
1 - block stationary security detectors; 2 - the first stationary object terminal device; 3 - block transportable security detectors; 4 - transportable object terminal device; 5 - wearable object terminal device; 6 - microcellular data network; 7 - remote terminal device; 8 - information collection and processing center; 9 - personal receiver of the owner; 10 - remote monitoring; 11 - board adapter input information; 12 - information processing processor; 13 - block processing and display of cartographic and semantic information; 14 - printer; 15 - controller security detectors; 16 - stationary radio modem; 17 - control unit anti-theft system; 18 - transportable radio modem; 19 - a central radio modem; 20 - the second stationary object terminal device.

 All designations in the drawing are brought in accordance with the terms and their definitions used in the current standard GOST 26342-84 "Means of security, fire and security-fire alarms. Types, main parameters and dimensions".

 So, the sensors that are part of blocks 1 and 3, which are technical means of security alarms for detecting intrusions, according to the above standard, are called security detectors.

 The first stationary 2 and 4 transportable object terminals are constituent parts of a notification transmission system (SPI) installed on guarded objects for receiving notifications from stationary 1 and 3 transportable security detectors, respectively, for signal conversion and transmission via communication channels, as well as for reception remote control commands from the central monitoring station (CMS) 10.

 The monitoring station 10 is a set of technical equipment installed in the centralized security center for receiving alarm information from the remote terminal device 7.

 Block 1 of stationary security detectors at each stationary guarded object ("apartment", "garage", etc.) is connected to the first stationary object terminal device 2, which has access to the radio air.

 Block 1 includes a group of sensors of unauthorized access to a protected object. So, in the ROSA alarm system, up to 8 independent loops are used. In the "RIF STRING - 200" (RS-200) system, serially produced by the applicant enterprise, up to 4 security alarm loops (NORM or ALARM separately and independently for each loop). Accordingly, the first stationary object terminal device 2 (transmitter) has four alarm inputs of a fixed purpose (DOOR, PERIMETER, FIRE, ALARM BUTTON), as well as an ARMED / DISARMED input.

 In case of an alarm, the RS-200 system transmitter generates notifications about the state of the object and transmits them to the air.

Block 3 transportable security detectors installed on a movable object, for example on a vehicle (TS), is connected to a transportable object terminal device 4, with access to the radio. As a portable object terminal device 4, a small-sized, low-power transmitter with a built-in antenna from the car radio pager "RIF PAGE-100/101" (RP-100/101) with a variable (programmed) format of the emitted signal can be used. The specified device, also commercially available by the applicant company, has three security zones, a six-wire transmitter loop with four-wire control (for model RP-101). It allows you to send alarm messages about the violated security zone. When transmitting alarm messages, an FM signal is used with a civil frequency of 433.92 MHz ± 0.2% and quartz frequency stabilization. The operating temperature range of the transmitter is from minus 40 to plus 85 ^o C, which allows you to use it in almost any weather conditions characteristic of most of the territory of Russia. The product is certified for compliance with the requirements of the state standard GOST R 41.97-99 in relation to the international rules for the approval of STTSS. The product includes a small programmable receiver controlled with a single button, which allows you to receive telecontrol signals from the center 8 of the collection and processing of information. The radius of action of the transportable object terminal device 4 based on the product RP-100/101 is up to 2000 m.

 As a portable terminal device 5, a small-sized "alarm radio button" of the family "RIF RING-701" (RR-701), also commercially available by the applicant, can be used. All products of this class operate at an allowed operating frequency of 433.92 MHz ± 0.2%, emit a signal with frequency modulation and quartz frequency stabilization, have a narrow-band noise-resistant receiving radio path, a wide range of operating temperatures and are compatible with each other.

 The personal receiver 9 of the owner is included in the set of automobile radio pagers RP-100/101 serially produced by the applicant enterprise. The average range of such a radio pager (1.5-2) km.

 SPI is built on the basis of one of the most modern data transmission networks - ISMT 6. Depending on local conditions (the size of the served area, the presence of high-rise buildings, etc.), various options for constructing the ISMT 6 (radial, zonal) can be used. The format of the data transmitted by the object terminal devices 2, 4 and 5 when working with the ISMT 6 is set by software and does not require structural changes in these devices.

 ISMT 6 is formed by placing repeaters and base stations (BS) at various points in the served territory. Their number depends on the size of the served area. In particular, to fully cover the territory of such a large city as Moscow, using the above-mentioned stationary, portable and portable terminal devices, it would be necessary to install about 500 repeaters and 5 BS. In a city of Ryazan scale, 6-10 repeaters and one BS are enough. At present, the applicant enterprise has begun serial production of two variants of the ISMT 6 - KARNET-1 and KARNET-2, respectively, with zonal and radial layouts of repeaters.

 The MRTD 6 repeaters are designed to receive code messages from the terminal devices 2, 4 and 5 of protected objects, select them according to the “friend or foe” principle and relay them to the nearest BS or to a nearby repeater.

 At the same time, in the opposite direction from the base station of the ISMT 6 and the monitoring station 10, telecontrol commands can be transmitted by the ISMT 6 repeaters, the first stationary 2 and 4 object terminal devices transported by 4. The feedback of these devices, respectively, with blocks 1 and 3 of stationary and transportable security detectors provide the ability to remotely control these blocks from the monitoring station 10.

 The coverage area of the ISMT 6 is limited to several kilometers, which corresponds to the task of this invention. At the same time, the MRTD 6 repeaters are located only in the places of the highest concentration of protected objects. The task of tracking moving vehicles according to the information transmitted using the ISMT 6 is not set in this invention.

 The center 8 for collecting and processing information contains a remote control terminal device 7 and a centralized monitoring station (PTs) 10, which (as in the prototype) includes serially connected adapter adapter 11 for inputting information and an information processing processor 12, which processes and displays the received information in the form of text messages.

As the monitoring station 10, the RS-200P monitoring station, which is commercially available by the applicant enterprise, can be used, intended for use in centralized radio security systems of various objects (trade pavilions, warehouses, garages, summer residences, etc.). The monitoring station 10 has a digital processor, a text liquid crystal display (LCD) for 2 lines of 16 characters each, a relay for controlling various external alarm devices (siren, dialer, etc.), a standard output for connecting various expansion modules (additional information processing and display units printer, etc.)
The monitoring station 10 receives notifications and displays the object number and type, the general state of the object (Taken under protection or DISARMED, NORMAL, or ALARM), the type of alarm depending on the broken loops and the type of transmitter (for example, for an RS-200 transmitter) DOOR, PERIMETER, FIRE, SECURITY SECURITY). For different types of object terminals, different messages are displayed on the LCD.

 All events are recorded in an electronic protocol in the non-volatile memory of the monitoring station 10 and can subsequently be viewed and / or printed. An event is understood as a change in the state of an object (various types of alarms, arming and disarming, malfunctions of transmitters), as well as some actions of the monitoring station 10 operators.

 To the information processing processor 12, which is a part of the monitoring station 10, via standard outputs (for example, RS-232), a block 13 for processing and displaying cartographic and semantic information and a printer 14 are connected. Thanks to the connection of these blocks, the functionality of the monitoring station 10 for providing integrated radio protection is significantly expanded mobile (cars, people, animals) and stationary (residential premises, offices, garages, etc.) objects. In particular, the current location of moving objects (for example, stolen vehicles or lost animals) can be linked to an electronic map of the terrain contained in the block 13 for processing and displaying cartographic and semantic information, as well as the presentation in paper form using the printer 14 of the location of moving objects , logging, printing of archive data, etc.

 The blocks newly introduced into the system are also standard ones used in commercially available products of RES.

 So, as a radio modems 16, 18 and 19 can be used GSM-module TS35 Terminal of Siemens. To interact with other devices, it uses a standard RS-232 connector. The antenna and computer devices used in various alarm systems can be connected to it, in particular, the controller 15 of security detectors used in the alarm systems commercially available by the applicant company.

 The anti-theft system control unit 17 used in the claimed system is a standard unit of the BLACK BUG and REEF families of security and anti-theft systems commercially available by the applicant company (see "Automotive Security Systems", "Altonika", catalog 2002), modified to ensure interaction with the radio modem through standard RS-232 interface.

 As the second stationary object terminal device 20 in stationary alarm systems, the Bastion-1 terminal device, commercially available by the applicant enterprise, can be used to generate and transmit alarm notifications via busy telephone lines from Vista object devices and the like. In this case, the transmission of notices can be made via a standard public telephone network.

 The first stationary object terminal devices 2 can also be used to receive alarm messages from the transportable 4 or wearable 5 object terminal devices located in the coverage area of any of the devices 2 and to transmit these messages to the information collection and processing center 8 through the second stationary object terminal devices 20 via telephone lines.

 The communication of the transportable 4 and the portable 5 object terminal devices with the first and stationary object terminal devices 2 can be carried out, depending on the distance from each other, directly or via the ISMT 6.

 The claimed radio-channel system for collecting and processing information for the centralized protection of vehicles, real estate, people and animals works as follows.

 In case of unauthorized exposure to a guarded stationary object, fire or other emergency, one or several sensors in the block 1 of stationary security detectors are triggered at this object. The alarm signal arrives at the first stationary object terminal device 2 and is broadcast.

 Similarly, the alarm signal generated by the unit 3 of transportable security detectors during attempts to steal, penetrate or steal a car, enters the transportable object terminal device 4 and is broadcast.

 The wearable object terminal device 5 with a built-in antenna emits an alarm either when the panic button is pressed or automatically at predetermined time intervals (for example, if a small child or animal is installed on the body).

 In any of these cases, the alarm signal emitted from the guarded object is received by one or several nearest repeaters of the ISMT 6 and transmitted from it to the relay of a higher level or to the nearest BS (due to the immateriality for this invention, the structure of building the ISMT 6 is not disclosed in the application).

 One way or another, an alarm message hits the antenna of the remote terminal device 7 of the center 8 for collecting and processing information. In case of unauthorized exposure to maintenance, the alarm signal is simultaneously transmitted to the data collection and processing center 8, either directly or through the ISMT 6 repeaters, and is transmitted to the personal receiver 9 of the owner to notify the owner of the vehicle about the event.

 In the center 8 for collecting and processing information, the signal received by the remote terminal device 7 is transmitted to the monitoring station 10 to the information input adapter board 11, from which it is input to the information processing processor 12.

 The monitoring station 10 operates in standby mode or in alarm mode.

 If an alarm notification is received from an object terminal device of any type (first stationary, portable, wearable), the monitoring station 10 enters the ALARM state. The LCD displays the number and type of the protected object and the type of alarm. In particular, for RS-200 system transmitters in monitoring stations 10 of the RS-200P type, special icons can display: alarms received on various loops, messages about malfunctions of external or autonomous power sources and about the loss of communication channels.

 When an alarm message is received from a wearable object terminal device 5 of the "radio button" type, for example, from a wearable transmitter of the RR-701 / TM family, the corresponding alarm is triggered.

 When monitoring the status and location of moving objects (for example, cars), information from them via a standard computer output (RS-232) is transmitted from the processor 12 for processing information to the unit 13 for processing and displaying cartographic and semantic information and is simultaneously transmitted to the printer 14.

 In block 13, this information is processed and displayed in accordance with the GIS technology. The specified technology can be implemented in block 13 using one of the software products sold on the commercial market. In particular, the commercial Maplnfo software product or its modifications can be used. The choice of a specific GIS technology is not essential for the present invention. In any case, the result of processing will be a visual representation on the monitor screen of the marks of objects on the background of a map of the served area, accompanied by identifying reference and service text information (for example, color, state number and make of the car, its geographical coordinates, information about the owner, etc. P.).

 The printer 14 displays information about the protected objects and the status of the system, necessary for documentation and storage in paper form.

 If the object of protection is outside the coverage of the ISMT 6, then the collection and processing of information from stationary and portable alarm installations and from portable object terminal devices 5 is carried out as follows.

 In case of unauthorized exposure to a remote property, an alarm code message is received from the block 1 of stationary security detectors to the controller 15 of security detectors and is sent via a stationary radio modem 17, such as a GSM modem, to a standard network of a fixed or mobile land radio service, for example, to a standard mobile cellular network GSM Similarly, for remote vehicles, the alarm code message generated by the unit 3 of transportable security detectors when attempting to steal, penetrate or steal the vehicle is sent to the anti-theft system control unit 17 connected to the blocking units of the vehicle’s functional organs and connected via a transportable radio modem 18 (for example, GSM-modem) with a standard network of fixed or mobile land-based radio services (for example, with a GSM mobile network).

 These alarm code messages can be transmitted, for example, in the form of short SMS messages, widely used in cellular telephony.

 Alarm code messages in the format of the standard communication network used, for example, in the form of SMS messages, are received in the data collection and processing center 8 via the central radio modem 19 (for example, a GSM modem), and then they are transmitted to the remote terminal device 7 of the data collection and processing center 8 information. In the center 8 for collecting and processing information, the signal received by the remote terminal device 7 is transmitted to the monitoring station 10 to the board 11 of the information input adapter. Further, the message is processed and displayed in the same way as the message transmitted via MRTD 6 (see above).

 When securing stationary objects connected to telephone lines, for example, to the public switched telephone network (PSTN), the most economical way to transmit alarm code messages is to transfer them over this network. For this purpose, an alarm signal from the block 1 of stationary security detectors is transmitted to the second stationary object terminal device 20 using telephone network lines. The telephone communication channel with the monitoring station 10 can be organized, in particular, by the frequency compression method of a subscriber telephone line with a carrier frequency (18 ± 0.18) kHz, as is done in the Bastion-1 terminal device. This allows you to send alarm messages even on busy telephone lines. The adapter card 11 input information is performed for this with an additional input for receiving alarm code messages on telephone lines, converting and transmitting to the processor 12 information processing.

 When the guarded object (child, animal, car) is in the coverage area of any stationary alarm system and when alarm messages are emitted from wearable 5 or 4 object terminals, respectively, alarm signals can be received by the antenna of the first 2 stationary object devices. Further, these alarms are received in the second 20 stationary object terminal device and are transmitted via telephone lines to the center 8 for collecting and processing information.

 In the absence of a telephone line at a protected stationary facility, alarm messages will only be transmitted over the air using the ISMT 6 or a standard network of a fixed or mobile land radio service, for example, a GSM mobile network.

 Thus, the integrated application for the centralized protection of several types of communication facilities provides the possibility of almost unlimited expansion of the system coverage area without significantly complicating and increasing the cost of its ground-based infrastructure.

 At the same time, users of the system’s services are given a choice: either a limited coverage area of the system with a moderate subscription fee for security services, or a significant expansion of the coverage area of the system with an increase in the subscription fee by adding fees to the network operator of a fixed or mobile land radio service.

 The possibility of practical implementation of the invention is not in doubt, since almost all elements of the claimed system are mass-produced and available on the commercial market, most of which are produced by the applicant company.

 The combination of all the above elements into a single system gives rise to qualitatively new properties compared to the prototype system, which allows us to solve the problem, namely, to increase the effective area of the system without significantly complicating its infrastructure and increasing cost.

Claims (3)

 1. A radio-channel system for collecting and processing information for the centralized protection of vehicles, real estate, people and animals, comprising stationary alarm systems, each of which includes a block of stationary security detectors and a first stationary object terminal device using a radio channel, transportable alarm systems, each of which includes a unit of transportable security detectors connected to each other and a portable object terminal device equipment using a radio channel, wearable object terminals used by protected people and animals using a radio channel, personal receivers of the owner, a data collection and processing center, which includes a remote control device using a radio channel, and a central monitoring console including a processing processor information and information input adapter board connected to the handheld terminal device and to the information processing processor, the outputs of which are connected to the unit processing and display of cartographic and semantic information to the printer, as well as a microcellular data transmission network, configured to receive code messages from stationary and portable alarm systems and from portable object terminal devices, to select and transmit these code messages to the remote terminal device of the collection center and information processing and to personal receivers of the owner, as well as with the possibility of transmitting remote control signals from the remote terminal device center collecting and processing information to the transponders of the microcellular data network and then to the first stationary and transportable object terminal devices, characterized in that a second stationary object terminal device using telephone lines is connected to each stationary alarm installation, the inputs of which are connected respectively to the outputs block stationary security detectors and to the additional output of the first stationary object terminal device, and connected to each other to security detectors troller and a stationary radio modem connected to a standard network of fixed or mobile land radio services, the inputs of the said security detectors controller being connected to the outputs of the stationary security detectors block, and the first stationary object terminal device capable of transmitting code messages to the second stationary object terminal device received directly or via a microcellular data transmission network from mobile alarm systems and of movable object terminal devices, an anti-theft system control unit connected to each other, inputs of which are connected to the outputs of the unit of transportable security detectors, and a portable radio modem connected to a standard network of a fixed or mobile land radio service, and a collection center and information processing introduced a central radio modem connected to the remote terminal device and connected to a standard fixed or mobile land network radio services, while the remote terminal device is capable of exchanging code messages with a central radio modem, and the data input adapter board is capable of connecting to telephone network lines.  2. The system according to claim 1, characterized in that in the stationary and mobile alarm systems and in the data collection and processing center, GSM modems are used as radio modems associated with a standard GSM standard cellular mobile communication network.  3. The system according to claim 1, characterized in that on the guarded stationary objects connected to the public telephone network, the second stationary object terminal device is configured to generate and transmit alarm notifications via the public telephone network, including via busy telephone channels .