RU2130697C1 - Method for protection of voice data against surveillance and recording - Google Patents

Abstract

FIELD: information exchange. SUBSTANCE: method involves generation of acoustic jamming in room where information exchange takes place. Amplitude and frequency parameters of jamming correspond to amplitude and frequency parameters of persons engaged in communication. EFFECT: increased protection. 4 cl

Description

 The invention relates to the field of information protection, in particular voice messages from rooms, from listening and recording using microphones and reflected and modulated by speech information optical radiation.

 To covertly intercept voice messages from rooms, devices that transmit information through an optical channel can be used. Mostly in these cases, infrared lasers are used. Laser devices are quite expensive and difficult to operate. The principle of operation of these devices is to send a probe laser beam to a room where voice information is exchanged, the sent beam is reflected from a mirror or window glass, vibrating under the influence of ambient sounds and thereby modulates the sent laser beam, and registration of the modulated reflected laser beam with subsequent interpretation modulating oscillations. In order to protect information in this case, it was proposed to apply vibrations to the glass with an amplitude obviously exceeding the amplitude of human voice vibrations ("Spy things" and devices for protecting objects and information. Reference manual / edited by S. Zolotarev / - S.- St. Petersburg, Doe, 1996, pp. 134-135). It was assumed that the acoustic noise created, in particular, the so-called “acoustic noise”, “white noise”, hinders the restoration of modulating vibrations, that is, human voices. However, the development of software for modern computers has overcome this protection. Acoustic interference over a wide range of frequencies is quite easily filtered using a selection that obviously does not correspond to the frequencies used by the human voice. The remaining part of the acoustic noise spectrum is fairly easily filtered out, since it is possible to decompose the spectrum not only in frequency but also in amplitude, which makes it possible to easily identify only modulating vibrations inherent in the human voice. In addition, to listen to and record voice information using radio microphones that transmit recorded information to the listening post and recording. To combat them, it is also customary to use the generation of acoustic noise in the room.

 The technical problem solved by the present invention is to develop a technology for enhanced protection of voice information.

 The technical result obtained as a result of the implementation of the invention is to provide an enhanced protection regime for voice information.

 To achieve this result, in a method for protecting speech information from listening and recording, including generating acoustic noise in a room in which information is exchanged, according to the invention, before generating acoustic noise, the amplitude-frequency characteristics of the voices of persons participating in the information exchange are determined, and acoustic interference is generated with these characteristics.

 In a preferred embodiment of the method, during the exchange of information, the amplitude-frequency characteristics of the acoustic noise are adjusted in accordance with the change in the amplitude-frequency characteristics of the voices of persons participating in the exchange of information.

 At the same time, acoustic noise can be transmitted to the entire volume of the room in which information is exchanged, or to the window glass of this room.

 This improves the reliability of protection of voice information from unauthorized listening or recording.

 To implement the method, a microphone of any design can be used, since this device is designed to lay out acoustic vibrations according to the amplitude-frequency characteristic, connected to the input of a computer with a program that allows you to analyze the obtained amplitude-frequency characteristic and generate a control signal determining the amplitude-frequency characteristic on the oscillation generator generated acoustic noise. The transmission of the generated acoustic noise to the entire volume of the room in which information is exchanged, or to the window glass of this room, eliminates the possibility of selecting from the external location of the vibration of the acoustic range of the part containing the information load that is read by a laser or microphone. In this case, the correction of the amplitude-frequency characteristics of the generated acoustic noise in accordance with the change in the amplitude-frequency characteristics of persons participating in the exchange of information eliminates the separation of speech information from the acoustic noise when the voice of a person participating in the exchange of information changes, depending on its subjective state, affecting voice changes.

 Thus, the proposed method improves the reliability of the protection of voice information from unauthorized listening or recording.

Claims (4)

 1. A method of protecting information from listening and recording, including generating acoustic noise in a room in which information is exchanged, characterized in that before generating acoustic noise, the amplitude-frequency characteristics of the voices of persons participating in the information exchange are determined, and acoustic noise is generated by certain amplitude-frequency characteristics.  2. The method according to claim 1, characterized in that in the process of exchanging information, the amplitude-frequency characteristics of acoustic noise are adjusted in accordance with a change in the amplitude-frequency characteristics of the voices of persons participating in the exchange of information.  3. The method according to claim 1 or 2, characterized in that the acoustic noise is transmitted to the entire volume of the room in which information is exchanged.  4. The method according to claim 1 or 2, characterized in that the acoustic noise is transmitted to the window glass of the room in which information is exchanged.