RU2848348C1 - Method for protecting information from leakage through technical channels - Google Patents

Abstract

FIELD: computer technology.

SUBSTANCE: invention relates to the field of computer technology and can be used to protect restricted information from leakage through technical channels when it is processed on computer equipment located in the bodies of transport vehicles. A sensor is installed on the doors of the vehicle body. At a distance of at least 1 metre from the computing equipment, an electromagnetic signal detector and an active protection device are placed in opposite directions from the computing equipment. The sensor and electromagnetic signal detector are connected to the computing device via the first controller, and the active protection device is connected via the second controller. Software designed to protect information from leakage through technical channels and having exclusive rights to launch an operating system user session is installed on the computing device.

EFFECT: increased protection of restricted information from leakage through technical channels when it is processed on computing equipment located in the bodies of vehicles.

1 cl, 1 dwg

Description

The invention relates to the field of computer technology and can be used to protect restricted information from leakage through technical channels when it is processed on computer equipment located in the bodies of vans of vehicles.

The purpose of the invention is to increase the security of restricted information from leakage through technical channels when it is processed on computing equipment located in the van bodies of vehicles, by constantly monitoring the state of the vehicle van body doors and changing the level of the output radiation power of the active protection device when they are opened, as well as by monitoring radio signals of radio transmitting devices and suppressing them when detected at an information technology facility.

The essence of the invention is that a sensor is installed on the doors of the van body of a vehicle, an electromagnetic signal detector and an active protection device are placed at a distance of at least 1 meter from the computing equipment, wherein the electromagnetic signal detector and the active protection device are located in opposite directions from the computing equipment, the sensor and the electromagnetic signal detector are connected to the computing equipment through the first controller, and the active protection device is connected through the second controller, software is installed in the computing equipment intended for the operation of a device for protecting information from leakage through technical channels and having exclusive rights to launch a user session of the operating system, a joint launch of the sensor, the electromagnetic signal detector, the active protection device and the computing equipment is carried out, when turning on and initializing the boot procedure of the operating system, the computing equipment launches the software, when the sensor, the electromagnetic signal detector and the active protection device are connected and operational, the session is launched and the computing equipment begins to operate, if the sensor, the electromagnetic signal detector and the active protection device are inoperative, the software blocks further launch and operation of the device computer equipment before they are turned on, by means of software, they request control signals from the first controller, which are a digital code, in turn, the first controller waits for the receipt of corresponding signals from the sensor and the electromagnetic signal detector, when the sensor is opened, caused by the opening of the doors of the van body of the vehicle, the voltage value on the sensor drops, the first controller records the reduced voltage value on the sensor, converts it into a digital code and sends it to the computer equipment, the software processes the received code value and sends the corresponding command code to the second controller of the active protection means, which converts it into a control signal and transmits it to the potentiometer, wherein the master noise generator continuously generates a broadband signal with a certain output power level, which in turn is fed to the potentiometer, the potentiometer receives the control signal from the second controller and, based on it, sets the keys to the corresponding state, as a result of which the resistance value is shifted downwards and the power level of the output signal of the master noise generator is increased, then the signal from the potentiometer is fed to the multi-channel noise signal generator, which generates N narrowband noise signals in specified frequency ranges and transmits them to the antenna module, by means of which they are emitted into space, when the sensor is closed, caused by closing the doors of the van body of the vehicle, the voltage value on the sensor increases, the first controller records the increased voltage value on the sensor, converts it into a digital code and sends it to the computing equipment, the software processes the received code value and sends the corresponding command code to the second controller of the active protection means, which converts it into a control signal and transmits it to the potentiometer, the digital potentiometer receives the control signal from the second controller and, based on it, sets the keys to the appropriate state, as a result of which the resistance value is shifted upward and the power level of the output signal of the master noise generator is reduced, in turn, the power level of the master noise generator, to which it is necessary to change its operation, is determined for the specific conditions of its use, taking into account the provision of the established standard of information protection at the boundary of the controlled zone of the operated information technology facility and is established by instrumental measurements during the certification of information technology facilities, placed in the bodies of vans of vehicles, in compliance with information security requirements; wherein the electromagnetic signal detector continuously scans the frequency range, wherein the power level and the dynamic range of radio signals of radio transmitting devices scanned by the electromagnetic signal detector are adjusted by changing its settings, when the electromagnetic signal detector detects a radio signal of a mobile communication device or a bug at the information facility, the detector determines the characteristics of the radio signal and, in the event of a threat, generates and transmits, by means of the first controller, a digital code to the computing device, the software processes the received code value and sends the corresponding command code to the second controller of the active protection device, which, on its basis, sets the frequency synthesizer to the frequency of the signal generated by it, necessary for suppression, wherein the software generates a control signal for a period of time set in accordance with the software timer, in turn, when writing the software code for the software, a software timer, an initial value, a value of the response moment, as well as a time interval for supplying a control signal to the frequency synthesizer are formed, the frequency synthesizer generates a reference signal with the corresponding frequency set by the second controller and supplies it to the modulation unit, the modulation unit changes the properties of the reference signal of the frequency synthesizer, thereby creating a noise signal necessary for suppression and feeds it to the amplifier unit, which amplify the signal power to a level necessary for suppressing the electromagnetic signals of radio transmitting devices detected by the detector, then the amplified noise signal from the amplifier unit is fed to the antenna module, by means of which the noise signal is emitted into space, after the end of the software timer, the software forms and sends a corresponding command code to the second controller of the active protection means, which, on its basis, switches off the frequency synthesizer, as a result of which the creation and emission of a noise signal for suppression into space is stopped, then the software, through the first controller, requests from the electromagnetic signal detector the presence of previously and newly detected radio signals of radio transmitting devices, upon their detection, a repeated formation and supply of a control signal to the frequency synthesizer is carried out for its generation of the corresponding frequency necessary for suppression of the detected radio signals according to the previously described algorithm.

An invention is known, in part concerning the method, "A method for protecting information technology objects from the impact of wearable technical means of industrial espionage and a device for implementing it" (patent for invention of the Russian Federation No. 2825543 IPC G06F 21/75 (2013.01) dated 08/27/2024, Bulletin No. 24), in which a suppression device, an electromagnetic signal detector, and a computer are launched; when the computer is turned on and the operating system boot procedure is initialized, a software tool is launched that has exclusive rights to launch an operating system user session; by means of the software tool, the state of activation and operability of the suppression device and the electromagnetic signal detector is analyzed by checking for the presence of control signals from them; when the suppression device and the electromagnetic signal detector are connected and operational, the session is launched and the computer begins operating; if the suppression device and the electromagnetic signal detector are inoperative, the software tool blocks further launch of the session and the operation of the computer until the device is turned on suppression and detector of electromagnetic signals, characterized in that the radio signal suppression device is configured to suppress mobile communication equipment or a bugging device, after starting a session on the computing device, the electromagnetic signal detector continuously scans the frequency range, in turn, the power level and the dynamic range of radio signals of radio transmitting devices scanned by the electromagnetic signal detector are adjusted by changing the settings of the electromagnetic signal detector, when the electromagnetic signal detector detects a radio signal of a mobile communication device or a bugging device at the information facility, the detector determines the characteristics of the radio signal, generates and transmits via an information cable, by means of a controller, a corresponding signal to the computing device, the computing device, by means of software, turns on an audible alarm and displays a notification on the screen of the computing device - "Attention, Threat!", then the software generates and sends a corresponding command code to the controller of the suppression device, the controller of the suppression device receives the command code received from the computing device and, on its basis, sets the frequency synthesizer to the frequency of the signal generated by it, necessary for suppression, and transmits to it the corresponding control signal, wherein the software generates a control signal for a period of time set in accordance with the software timer, in turn, when writing the software code, a software timer, an initial value, a value for the response time, as well as a time interval for supplying a control signal to the frequency synthesizer of the suppression device are formed, the frequency synthesizer of the suppression device generates a reference signal with the corresponding frequency specified by the controller and supplies it to the modulation unit of the suppression device, the modulation unit changes the properties of the reference signal of the frequency synthesizer, thereby creating a noise signal necessary for suppression, and supplies it to the amplifier unit of the suppression device, which amplifies the signal power to the level necessary for suppression of the electromagnetic signals of technical espionage equipment detected by the detector, then the amplified noise signal from the amplifier unit is fed to the antenna module of the suppression device, which emits a noise signal into space, after the end of the software timer, the computing device, by means of the software, turns off the sound alarm and displays a notification on the screen of the computing device - "The threat has been eliminated!", generates and sends the corresponding command code to the controller of the device suppression, the controller of the suppression device receives the command code received from the computer equipment and, on the basis of this, disables the frequency synthesizer of the suppression device, as a result of which the suppression device becomes inactive, then the computer equipment, by means of software, requests from the electromagnetic signal detector the presence of previously, as well as newly detected radio signals of mobile communication devices or a bugging device, upon their detection, a repeated formation and supply of a control signal to the frequency synthesizer of the suppression device occurs for it to generate the corresponding frequency necessary for suppression of the detected radio signals, and activation of the suppression device according to the previously described algorithm.

The disadvantage of this invention is that the device has low security due to the fact that it does not provide protection of limited distribution information from leakage through the channel of side electromagnetic radiation formed by computing equipment.

The closest to the proposed invention is the invention: "A method for protecting information technology objects from the impact of technical means of industrial espionage" (patent for invention of the Russian Federation No. 2821150 IPC G06F 21/75 (2013.01) dated 06/17/2024, Bulletin No. 17), in which, an active protection tool, sensors, and computing equipment are launched; when the computing equipment is turned on and the user authorization procedure is completed, a software tool is launched by means of which the state of activation and operability of the sensors and the active protection tool are analyzed; when the sensors and the active protection tool are connected and operational, a session is launched and the computing equipment begins to operate; if the sensors and the active protection tool are inoperative, the software tool blocks further launch and operation of the computing equipment until the active protection tool and sensors are turned on; characterized in that a device for protecting information technology objects from the impact of technical means of industrial espionage is additionally introduced, the noise signal radiation power of which depends on the state of the sensor, caused by the opening or closing of the doors of the van body of the vehicle, after starting the session on the computer, the controller is constantly in the waiting mode for the corresponding command from the sensor, the command in the form of an analog signal from the sensor through the controller, which in turn converts the analog signal into a digital signal, goes to the computer, while the software analyzes the value of the incoming signal from the controller and sends the corresponding command code to the controller of the control unit of the active protection device, the controller receives the command code received from the computer and, based on it, generates and transmits a control signal to the potentiometer of the control unit of the active protection device, the master noise generator of the active protection device continuously generates a broadband signal with a certain level of output power, which in turn goes to the potentiometer, depending on the value of the control signal from the controller of the control unit, the potentiometer keys are set to the appropriate state, as a result of which its resistance changes and thereby the output power of the master noise generator changes, then the signal from the potentiometer goes to the multi-channel noise signal generator of the active protection device, where N is formed narrowband noise signals in specified frequency ranges and their transmission to the antenna module of the active protection device, depending on the state of the sensor, a corresponding code value is generated on the controller, when the sensor is opened, caused by the opening of the doors of the van body of the vehicle, the voltage value on the sensor drops, which is signaled by the controller, which converts the reduced voltage value from the sensor into a digital signal and sends it to the computing device, the software, according to a certain algorithm, sends the corresponding command code to the controller of the control unit of the active protection device, which sends a series of pulses to the digital potentiometer of the control unit of the active protection device, which in turn shifts the resistance value downwards and the power level of the output signal of the master noise generator of the active protection device increases, while the controller is constantly in the mode of waiting for the corresponding command from the sensor, when the sensor is closed, caused by the closing of the doors of the van body of the vehicle, the voltage on the sensor increases, the controller converts the increased voltage value from the sensor into a digital signal and sends it to the computing device, the software, according to a certain algorithm, sends the corresponding command code to the controller of the control unit of the device active protection, which sends a series of pulses to the digital potentiometer of the control unit of the active protection device, which in turn shifts the resistance value upwards and the power level of the output signal of the master noise generator of the active protection device decreases, while the power of the master noise generator of the active protection device, by which it is necessary to change the operation of the active protection device, is determined for the specific conditions of its use, taking into account the provision of the established standard for information protection at the boundary of the controlled zone of the information technology facility being operated and is established by means of instrumental measurements during the certification of information technology facilities located in the van bodies of vehicles for compliance with information security requirements.

The disadvantage of this invention is that the device has low security due to the fact that it does not provide protection for restricted information from the influence of portable industrial espionage equipment implemented through radio transmitting devices.

The technical result is aimed at increasing the security of restricted information from leakage through technical channels during its processing on computing equipment located in the van bodies of vehicles, due to continuous monitoring of the state of the vehicle van body doors and changing the level of the output radiation power of the active protection device when they are opened, as well as due to monitoring the radio signals of radio transmitting devices and suppressing them when detected at the information technology facility.

The solution to the stated problem is achieved by installing a sensor on the doors of the van body of the vehicle, placing an electromagnetic signal detector and an active protection device at a distance of at least 1 meter from the computing equipment, wherein the electromagnetic signal detector and the active protection device are located in opposite directions from the computing equipment, connecting the sensor and the electromagnetic signal detector to the computing equipment through the first controller, and the active protection device through the second controller, installing software in the computing equipment designed for the operation of the device for protecting information from leakage through technical channels and having exclusive rights to launch a user session of the operating system, jointly launching the sensor, the electromagnetic signal detector, the active protection device and the computing equipment, when turning on and initializing the boot procedure of the operating system, the computing equipment launches the software, when connecting and the operation of the sensor, the electromagnetic signal detector and the active protection device is in operation, the session is launched and the computing equipment begins to operate, if the sensor, the electromagnetic signal detector and the active protection device are inoperative, the software blocks further launch and operation of the computing equipment equipment before they are turned on, by means of software, request control signals from the first controller, which are a digital code, in turn, the first controller waits for the corresponding signals from the sensor and the electromagnetic signal detector, when the sensor is opened, caused by the opening of the doors of the van body of the vehicle, the voltage value on the sensor drops, the first controller records the reduced voltage value on the sensor, converts it into a digital code and sends it to the computing equipment, the software processes the received code value and sends the corresponding command code to the second controller of the active protection means, which converts it into a control signal and transmits it to the potentiometer, while the master noise generator continuously generates a broadband signal with a certain output power level, which in turn goes to the potentiometer, the potentiometer receives the control signal from the second controller and, based on it, sets the keys to the appropriate state, as a result of which the resistance value is shifted downwards and the power level of the output signal of the master noise generator is increased, then the signal from the potentiometer goes to the multi-channel noise signal generator, which carries out generating N narrowband noise signals in specified frequency ranges and transmitting them to an antenna module by means of which they are emitted into space, when the sensor is closed, caused by closing the doors of the van body of the vehicle, the voltage value on the sensor increases, the first controller records the increased voltage value on the sensor, converts it into a digital code and sends it to the computing equipment, the software processes the received code value and sends the corresponding command code to the second controller of the active protection means, which converts it into a control signal and transmits it to the potentiometer, the digital potentiometer receives the control signal from the second controller and, based on it, sets the keys to the appropriate state, as a result of which the resistance value is shifted upward and the power level of the output signal of the master noise generator is reduced, in turn, the power level of the master noise generator, to which it is necessary to change its operation, is determined for the specific conditions of its use, taking into account the provision of the established standard for information protection at the boundary of the controlled zone of the operated information technology facility and is established by instrumental measurements during the certification of information technology facilities located in van bodies of vehicles, in compliance with information security requirements; wherein the electromagnetic signal detector continuously scans the frequency range, wherein the power level and the dynamic range of radio signals of radio transmitting devices scanned by the electromagnetic signal detector are adjusted by changing its settings, when the electromagnetic signal detector detects a radio signal of a mobile communication device or a bug at the information facility, the detector determines the characteristics of the radio signal and, in the event of a threat, generates and transmits, by means of the first controller, a digital code to the computing device, the software processes the received code value and sends the corresponding command code to the second controller of the active protection device, which, on its basis, sets the frequency synthesizer to the frequency of the signal generated by it, necessary for suppression, wherein the software generates a control signal for a period of time set in accordance with the software timer, in turn, when writing the software code for the software, a software timer, an initial value, a value of the response moment, as well as a time interval for supplying a control signal to the frequency synthesizer are formed, the frequency synthesizer generates a reference signal with the corresponding frequency set by the second controller and supplies it to the modulation unit, the modulation unit changes the properties of the reference signal of the frequency synthesizer, thereby creating a noise signal necessary for suppression and feeds it to the amplifier unit, which amplify the signal power to a level necessary for suppressing the electromagnetic signals of radio transmitting devices detected by the detector, then the amplified noise signal from the amplifier unit is fed to the antenna module, by means of which the noise signal is emitted into space, after the end of the software timer, the software forms and sends a corresponding command code to the second controller of the active protection means, which, on its basis, switches off the frequency synthesizer, as a result of which the creation and emission of a noise signal for suppression into space is stopped, then the software, through the first controller, requests from the electromagnetic signal detector the presence of previously and newly detected radio signals of radio transmitting devices, upon their detection, a repeated formation and supply of a control signal to the frequency synthesizer is carried out for its generation of the corresponding frequency necessary for suppression of the detected radio signals according to the previously described algorithm.

A comparative analysis with the prototype shows that the claimed method is distinguished by the fact that a sensor is installed on the doors of the van body of the vehicle, an electromagnetic signal detector and an active protection device are placed at a distance of at least 1 meter from the computing equipment, wherein the electromagnetic signal detector and the active protection device are located in opposite directions from the computing equipment, the sensor and the electromagnetic signal detector are connected to the computing equipment through the first controller, and the active protection device is connected through the second controller, software designed for the operation of the device for protecting information from leakage through technical channels and having exclusive rights to launch a user session of the operating system is installed in the computing equipment, a joint launch of the sensor, the electromagnetic signal detector, the active protection device and the computing equipment is carried out, when turning on and initializing the boot procedure of the operating system, the computing equipment launches the software, when the sensor, the electromagnetic signal detector and the active protection device are connected and operational, the session is launched and the computing equipment begins to operate, if the sensor, the electromagnetic signal detector and the active protection device are inoperative the software blocks further start-up and operation of the computing equipment until they are turned on, by means of the software they request control signals from the first controller, which are a digital code, in turn the first controller waits for the corresponding signals from the sensor and the electromagnetic signal detector, when the sensor is opened, caused by the opening of the doors of the van body of the vehicle, the voltage value on the sensor drops, the first controller records the reduced voltage value on the sensor, converts it into a digital code and sends it to the computing equipment, the software processes the received code value and sends the corresponding command code to the second controller of the active protection device, which converts it into a control signal and transmits it to the potentiometer, while the master noise generator continuously generates a broadband signal with a certain output power level, which in turn goes to the potentiometer, the potentiometer receives the control signal from the second controller and on its basis sets the keys to the appropriate state, as a result of which the resistance value is shifted downwards and the power level of the output signal of the master noise generator is increased, then the signal from the potentiometer goes to a multi-channel noise signal generator that generates N narrowband noise signals in specified frequency ranges and transmits them to an antenna module, by means of which they are emitted into space, when the sensor is closed, caused by closing the doors of the van body of the vehicle, the voltage value on the sensor increases, the first controller records the increased voltage value on the sensor, converts it into a digital code and sends it to the computing equipment, the software processes the received code value and sends the corresponding command code to the second controller of the active protection means, which converts it into a control signal and transmits it to the potentiometer, the digital potentiometer receives the control signal from the second controller and, based on it, sets the keys to the appropriate state, as a result of which the resistance value is shifted upward and the power level of the output signal of the master noise generator is reduced, in turn, the power level of the master noise generator, to which it is necessary to change its operation, is determined for the specific conditions of its use, taking into account the provision of the established standard of information protection at the boundary of the controlled zone of the operated information technology facility and is established by instrumental measurements during conducting certification of information technology objects located in the van bodies of vehicles for compliance with information security requirements; wherein the electromagnetic signal detector continuously scans the frequency range, wherein the power level and the dynamic range of radio signals of radio transmitting devices scanned by the electromagnetic signal detector are adjusted by changing its settings, when the electromagnetic signal detector detects a radio signal of a mobile communication device or a bug at the information facility, the detector determines the characteristics of the radio signal and, in the event of a threat, generates and transmits, by means of the first controller, a digital code to the computing device, the software processes the received code value and sends the corresponding command code to the second controller of the active protection device, which, on its basis, sets the frequency synthesizer to the frequency of the signal generated by it, necessary for suppression, wherein the software generates a control signal for a period of time set in accordance with the software timer, in turn, when writing the software code for the software, a software timer, an initial value, a value of the response moment, as well as a time interval for supplying a control signal to the frequency synthesizer are formed, the frequency synthesizer generates a reference signal with the corresponding frequency set by the second controller and supplies it to the modulation unit, the modulation unit changes the properties of the reference signal of the frequency synthesizer, thereby creating a noise signal necessary for suppression and feeds it to the amplifier unit, which amplify the signal power to a level necessary for suppressing the electromagnetic signals of radio transmitting devices detected by the detector, then the amplified noise signal from the amplifier unit is fed to the antenna module, by means of which the noise signal is emitted into space, after the end of the software timer, the software forms and sends a corresponding command code to the second controller of the active protection means, which, on its basis, switches off the frequency synthesizer, as a result of which the creation and emission of a noise signal for suppression into space is stopped, then the software, through the first controller, requests from the electromagnetic signal detector the presence of previously and newly detected radio signals of radio transmitting devices, upon their detection, a repeated formation and supply of a control signal to the frequency synthesizer is carried out for its generation of the corresponding frequency necessary for suppression of the detected radio signals according to the previously described algorithm.

Continuous monitoring of the state of the doors of the van body of the vehicle and changing the level of the output power of the active protection device when they are opened, as well as by monitoring the radio signals of radio transmitting devices and suppressing them when detected at the information technology facility will ensure an increase in the security of restricted information from leakage through technical channels when it is processed on computing equipment located in the van bodies of vehicles and allows us to conclude that the proposed method meets the criterion: "significant differences."

The invention is illustrated by a drawing. Fig. shows a block diagram of the method implementation: where 1 is a computing device, 2 is a first controller, 3 is a sensor, 4 is an electromagnetic signal detector, 5 is an active protection device consisting of 6 is a second controller, 7 is a potentiometer, 8 is a multi-channel noise signal generator, 9 is an antenna module, 10 is a noise master oscillator, 11 is a power supply unit, 12 is a frequency synthesizer, 13 is a modulation unit, 14 is an amplifier unit.

The essence of the proposed method is as follows: a sensor 3 is installed on the doors of the van body of the vehicle, an electromagnetic signal detector 4 and an active protection device 5 are placed at a distance of at least 1 meter from the computing device 1, wherein the electromagnetic signal detector 4 and the active protection device 5 are located in opposite directions from the computing device 1, the sensor 3 and the electromagnetic signal detector 4 are connected to the computing device 1 through the first controller 2, and the active protection device 5 is connected through the second controller 6, software intended for the operation of the device for protecting information from leakage through technical channels and having exclusive rights to launch a user session of the operating system is installed in the computing device 1, the sensor 3, the electromagnetic signal detector 4, the active protection device 5 and the computing device 1 are launched jointly, when turning on and initializing the boot procedure of the operating system of the computing device 1, the software is launched, when the sensor 3, the electromagnetic signal detector 4 and active protection means 5 starts a session and starts operation of the computing device 1, if the sensor 3, the electromagnetic signal detector 4 and the active protection means 5 are inoperative, the software blocks further start-up and operation of the computing device 1 until they are turned on, by means of the software they request control signals from the first controller 2, which are a digital code, in turn the first controller 2 waits for the corresponding signals to arrive from the sensor 3 and the electromagnetic signal detector 4, when the sensor 3 is opened, caused by the opening of the doors of the van body of the vehicle, the voltage value on the sensor 3 drops, the first controller 2 records the reduced voltage value on the sensor 3, converts it into a digital code and sends it to the computing device 1, the software processes the received code value and sends the corresponding command code to the second controller 6 of the active protection means 5, which converts it into a control signal and transmits it to the potentiometer 7, while the master noise generator 10 continuously generates a broadband signal with a certain output level power, which in turn goes to potentiometer 7, potentiometer 7 receives a control signal from the second controller 6 and, based on it, sets the keys to the appropriate state, as a result of which the resistance value is shifted downwards and the power level of the output signal of the master noise generator 10 is increased, then the signal from potentiometer 7 goes to multi-channel noise signal generator 8, which generates N narrow-band noise signals in specified frequency ranges and transmits them to antenna module 9, by means of which they are emitted into space, when sensor 3 is closed, caused by the closing of the doors of the van body of the vehicle, the voltage value on sensor 3 increases, the first controller 2 records the increased voltage value on sensor 3, converts it into a digital code and sends it to computing equipment 1, software processes the received code value and sends the corresponding command code to the second controller 6 of the active protection means 5, which converts it into a control signal and transmits it to potentiometer 7, the digital potentiometer 7 receives a control signal from the second controller 6 and, on its basis, sets the keys to the appropriate state, as a result of which the resistance value is shifted upwards and the power level of the output signal of the master noise generator 10 is reduced, in turn, the power level of the master noise generator 10, to which it is necessary to change its operation, is determined for the specific conditions of its use, taking into account the provision of the established standard for the protection of information at the boundary of the controlled zone of the information technology facility being operated and is established by means of instrumental measurements during the certification of information technology facilities located in the van bodies of vehicles for compliance with information security requirements; wherein the electromagnetic signal detector 4 continuously scans the frequency range, wherein the power level and dynamic range of the radio signals of the radio transmitting devices scanned by the electromagnetic signal detector 4 are adjusted by changing its settings, when the electromagnetic signal detector 4 detects a radio signal of a mobile communication device or a bug at the information facility, the detector 4 determines the characteristics of the radio signal and, in the event of a threat, generates and transmits, by means of the first controller 2, a digital code to the computing device 1, the software processes the received code value and sends the corresponding command code to the second controller 6 of the active protection means 5, which, on its basis, sets the frequency synthesizer 12 to the frequency of the signal generated by it, which, wherein the software generates a control signal for a period of time set in accordance with the software timer, in turn, when writing the software code for the software, a software timer, an initial value, a value for the response time, as well as a time interval for sending a control signal to the frequency synthesizer 12, the frequency synthesizer 12 generates a reference signal with the corresponding frequency specified by the second controller 6 and feeds it to the modulation unit 13, the modulation unit 13 changes the properties of the reference signal of the frequency synthesizer 12 thereby creating a noise signal necessary for suppression and feeds it to the amplifier unit 14, which amplify the signal power to the level necessary for suppression of the electromagnetic signals detected by the detector 4 of the radio transmitting devices, then the amplified noise signal from the amplifier unit 14 is fed to the antenna module 9, by means of which the noise signal is emitted into space, after the end of the software timer, the software forms and sends the corresponding command code to the second controller 6 of the active protection means 5, which, on its basis, switches off the frequency synthesizer 12, as a result of which they stop creating and emitting a noise signal for suppression into space, then the software, by means of the first controller 2, requests from the electromagnetic signals detector 4 the presence of previously, as well as newly detected radio signals of the radio transmitting devices, upon their detection, they re-form and feed a control signal to the frequency synthesizer 12 to generate the corresponding frequency required to suppress the detected radio signals according to the previously described algorithm.

Thus, when implementing the method, a sensor is installed on the doors of the van body of the vehicle, an electromagnetic signal detector and an active protection device are placed at a distance of at least 1 meter from the computing equipment, wherein the electromagnetic signal detector and the active protection device are located in opposite directions from the computing equipment, the sensor and the electromagnetic signal detector are connected to the computing equipment through the first controller, and the active protection device is connected through the second controller, software designed for the operation of the device for protecting information from leakage through technical channels and having exclusive rights to launch a user session of the operating system is installed in the computing equipment, the sensor, the electromagnetic signal detector, the active protection device and the computing equipment are launched jointly, when the boot procedure of the operating system is turned on and initialized, the computing equipment launches the software, when the sensor, the electromagnetic signal detector and the active protection device are connected and operational, the session is launched and the computing equipment begins to operate, if the sensor, the electromagnetic signal detector and the active protection device are inoperative, the software blocks further launch and operation of the computing equipment until the moment of their inclusion, by means of software, the first controller is requested for control signals, which are a digital code, in turn, the first controller waits for the receipt of corresponding signals from the sensor and the electromagnetic signal detector, when the sensor is opened, caused by the opening of the doors of the van body of the vehicle, the voltage value on the sensor drops, the first controller records the reduced voltage value on the sensor, converts it into a digital code and sends it to the computer, the software processes the received code value and sends the corresponding command code to the second controller of the active protection means, which converts it into a control signal and transmits it to the potentiometer, while the master noise generator continuously generates a broadband signal with a certain output power level, which in turn is fed to the potentiometer, the potentiometer receives the control signal from the second controller and, based on it, sets the keys to the appropriate state, as a result of which the resistance value is shifted downwards and the power level of the output signal of the master noise generator is increased, then the signal from the potentiometer is fed to the multi-channel noise signal generator, which generates N narrowband noise signals in specified frequency ranges and their transmission to the antenna module, by means of which they are radiated into space, when the sensor is closed, caused by the closing of the doors of the van body of the vehicle, the voltage value on the sensor increases, the first controller records the increased voltage value on the sensor, converts it into a digital code and sends it to the computing equipment, the software processes the received code value and sends the corresponding command code to the second controller of the active protection means, which converts it into a control signal and transmits it to the potentiometer, the digital potentiometer receives the control signal from the second controller and, based on it, sets the keys to the appropriate state, as a result of which the resistance value is shifted upward and the power level of the output signal of the master noise generator is reduced, in turn, the power level of the master noise generator, to which it is necessary to change its operation, is determined for the specific conditions of its use, taking into account the provision of the established standard for information protection at the boundary of the controlled zone of the operated information technology facility and is established by instrumental measurements during the certification of information technology facilities located in van bodies of vehicles, in compliance with information security requirements; wherein the electromagnetic signal detector continuously scans the frequency range, wherein the power level and the dynamic range of radio signals of radio transmitting devices scanned by the electromagnetic signal detector are adjusted by changing its settings, when the electromagnetic signal detector detects a radio signal of a mobile communication device or a bug at the information facility, the detector determines the characteristics of the radio signal and, in the event of a threat, generates and transmits, by means of the first controller, a digital code to the computing device, the software processes the received code value and sends the corresponding command code to the second controller of the active protection device, which, on its basis, sets the frequency synthesizer to the frequency of the signal generated by it, necessary for suppression, wherein the software generates a control signal for a period of time set in accordance with the software timer, in turn, when writing the software code for the software, a software timer, an initial value, a value of the response moment, as well as a time interval for supplying a control signal to the frequency synthesizer are formed, the frequency synthesizer generates a reference signal with the corresponding frequency set by the second controller and supplies it to the modulation unit, the modulation unit changes the properties of the reference signal of the frequency synthesizer, thereby creating a noise signal necessary for suppression and feeds it to the amplifier unit, which amplify the signal power to a level necessary for suppressing the electromagnetic signals of radio transmitting devices detected by the detector, then the amplified noise signal from the amplifier unit is fed to the antenna module, by means of which the noise signal is emitted into space, after the end of the software timer, the software forms and sends a corresponding command code to the second controller of the active protection means, which, on its basis, switches off the frequency synthesizer, as a result of which the creation and emission of a noise signal for suppression into space is stopped, then the software, through the first controller, requests from the electromagnetic signal detector the presence of previously and newly detected radio signals of radio transmitting devices, upon their detection, a repeated formation and supply of a control signal to the frequency synthesizer is carried out for its generation of the corresponding frequency necessary for suppression of the detected radio signals according to the previously described algorithm.

Claims (1)

A method for protecting information from leakage through technical channels, characterized in that a sensor is installed on the doors of the van body of a vehicle, an electromagnetic signal detector and an active protection device are placed at a distance of at least 1 meter from the computing equipment, wherein the electromagnetic signal detector and the active protection device are located in opposite directions from the computing equipment, the sensor and the electromagnetic signal detector are connected to the computing equipment through the first controller, and the active protection device is connected through the second controller, software is installed in the computing equipment intended for the operation of the device for protecting information from leakage through technical channels and having exclusive rights to launch a user session of the operating system, the sensor, the electromagnetic signal detector, the active protection device and the computing equipment are launched jointly, when the boot procedure of the operating system is turned on and initialized, the computing equipment launches the software, when the sensor, the electromagnetic signal detector and the active protection device are connected and operational, the session is launched and the computing equipment begins to operate, if the sensor, the electromagnetic signal detector and the active protection device are inoperative, the software block further start-up and operation of the computing equipment until they are turned on, using software they request control signals from the first controller, which are a digital code, in turn the first controller waits for the corresponding signals from the sensor and the electromagnetic signal detector, when the sensor is opened, caused by the opening of the doors of the van body of the vehicle, the voltage value on the sensor drops, the first controller records the reduced voltage value on the sensor, converts it into a digital code and sends it to the computing equipment, the software processes the received code value and sends the corresponding command code to the second controller of the active protection device, which converts it into a control signal and transmits it to the potentiometer, while the master noise generator continuously generates a broadband signal with a certain output power level, which in turn goes to the potentiometer, the potentiometer receives the control signal from the second controller and on its basis sets the keys to the appropriate state, as a result of which the resistance value is shifted downwards and the power level of the output signal of the master noise generator is increased, then the signal from the potentiometer goes to a multi-channel noise signal generator that generates N narrowband noise signals in specified frequency ranges and transmits them to an antenna module, by means of which they are emitted into space, when the sensor is closed due to the closing of the doors of the van body of the vehicle, the voltage value on the sensor increases, the first controller records the increased voltage value on the sensor, converts it into a digital code and sends it to the computing equipment, the software processes the received code value and sends the corresponding command code to the second controller of the active protection means, which converts it into a control signal and transmits it to the potentiometer, the digital potentiometer receives the control signal from the second controller and, based on it, sets the keys to the appropriate state, as a result of which the resistance value is shifted upward and the power level of the output signal of the master noise generator is reduced, in turn, the power level of the master noise generator, to which it is necessary to change its operation, is determined for the specific conditions of its use, taking into account the provision of the established standard for information protection at the boundary of the controlled zone of the operated information technology facility and is established by instrumental measurements during the course of certification of information technology objects located in the van bodies of vehicles for compliance with information security requirements; wherein the electromagnetic signal detector continuously scans the frequency range, wherein the power level and dynamic range of radio signals of radio transmitting devices scanned by the electromagnetic signal detector are adjusted by changing its settings, when the electromagnetic signal detector detects a radio signal of a mobile communication device or a bug at the information facility, the detector determines the characteristics of the radio signal and, in the event of a threat, generates and transmits, by means of the first controller, a digital code to the computing device, the software processes the received code value and sends the corresponding command code to the second controller of the active protection device, which, on its basis, sets the frequency synthesizer to the frequency of the signal generated by it, necessary for suppression, wherein the software generates a control signal for a period of time set in accordance with the software timer, in turn, when writing the software code of the software, a software timer, an initial value, a value of the response moment, as well as a time interval for supplying a control signal to the frequency synthesizer are formed, the frequency synthesizer generates a reference signal with the corresponding frequency set by the second controller and supplies it to the modulation unit, the unit modulation changes the properties of the reference signal of the frequency synthesizer, thereby creating a noise signal necessary for suppression, and feeds it to the amplifier unit, which amplify the signal power to a level necessary for suppression of the electromagnetic signals of radio transmitting devices detected by the detector, then the amplified noise signal from the amplifier unit is fed to the antenna module, by means of which the noise signal is emitted into space, after the end of the software timer, the software generates and sends a corresponding command code to the second controller of the active protection means, which, on its basis, switches off the frequency synthesizer, as a result of which the creation and emission of a noise signal for suppression into space is stopped, then the software, through the first controller, requests from the electromagnetic signal detector the presence of previously, as well as newly detected radio signals of radio transmitting devices, upon their detection, a repeated generation and supply of a control signal to the frequency synthesizer is carried out for its generation of the corresponding frequency necessary for suppression of the detected radio signals according to the previously described algorithm.