EA006784B1 - Method for local suppression of a mobile radio communication - Google Patents

Abstract

The invention relates to radio engineering, namely to a method for producing artificial noise and can be used, in particular for selectively suppressing information highways in radio communication networks and for transmitting macro- and microstructural data. The inventive method for a local suppression of a mobile radio communication consists in amplifying a received spread-spectrum signal of a mobile telephone and in reemitting said signal by manipulating it in phase according to a low-frequency pseudorandom sequence law. The novelty of said invention lies in that said phase manipulation is carried out together with the received and amplified signal in real time and the frequency spectrum of the reemitted signal is maintained within the authorised bandwidth for a mobile telephone.

Description

Method for local suppression of mobile communications

The invention relates to the field of radio engineering, and in particular to the technique of creating artificial interference and, in particular, can be used to selectively suppress information flows in communication networks and data transmission with macro and microcellular structure.

The intensive development of modern cellular communications allows the use of a mobile phone as a channel for information leakage from specially designated premises. Therefore, the issue of suppressing mobile phones located in the indicated premises is very acute.

The method of suppressing (blocking) mobile phones must satisfy a number of fairly stringent technical requirements.

1. Locking a mobile phone should not lead to its further failure.

2. The blocking of the mobile phone should provide a full guarantee of protection of information from leakage from the secure premises via mobile communication channels.

3. Outside the specified premises, the mobile phone should function normally.

4. The specified blocking of mobile phone communication should not affect the operation of base stations (cells) of mobile communication.

5. Blocking the communication of a mobile phone should not adversely affect the operation of other electronic systems operating in a locked local area and outside it.

A known method of forming radio interference: Paly A.I. Electronic warfare. M .: Military publishing house, 1989, p. 34, Fig. 2.11. This analogue includes receiving a signal from a radiation source, determining the parameters of this signal (carrier frequency, type of modulation and spectrum width), shaping the structure of the required interference voltage, amplifying and emitting the interference radio signal into the space. However, this analogue has the following drawback - it provides suppression of radio interference only radio lines, the organization of which does not provide special means of protection against deterministic interference, and is not able to reliably suppress modern cellular communication systems that use effective methods to combat signal fading and interference in the communication channel, including those based on the frequency diversity of the reception and transmission channels (duplex frequency separation between the forward and reverse transmission channels) and correlation processing by radiated signal.

In addition, the specified system of organizing radio interference may adversely affect other functioning electronic devices, such as the operation of television devices.

The closest in its technical essence to the claimed one is the method of creating relayed interference according to the patent of the Russian Federation No. 2123238, IPC N 04K 3/00, 1998. In contrast to the above analogue, the known method does not lead to the appearance of additional interference to working electronic systems.

The prototype method includes: amplification of the received broadband signal, highlighting parts of the spectrum affected by noise and excluding them from the signal spectrum, storing the received signal, followed by its repeated re-emission with phase manipulation from 0 to 180 ° according to the law of the low-frequency pseudorandom sequence.

The prototype method does not allow to reliably block several mobile phones located in a secure room. This is due to the fact that each of the phones has its own frequency of reception and emission of signals, which, moreover, change in time. To block all mobile phones (the number of which is unknown), the same number of filtering and storage channels is required, which makes this method practically difficult.

In addition, modern cell phone networks operate in the 450–2000 MHz range, and, therefore, equipment that performs digital filtering at the indicated frequencies should have a processing speed an order of magnitude higher (up to 20,000 MHz), which is unlikely at the current level of technology. Therefore, for short signals, it is practically impossible to synthesize the interference in this way, i.e., partial intelligibility of the transmitted information will be preserved, which is unacceptable for systems that provide complete suppression of radio communication channels.

The aim of this invention is to develop a reliable method of suppressing all mobile phones located in a protected local area, in the absence of influence on other mobile phones located outside the specified local area, as well as on other electronic devices located inside or outside the local area.

The specified goal in a method for local suppression of mobile communication, including amplification of the received broadband signal of a mobile phone and its re-emission with phase manipulation according to the law of a low-frequency pseudo-random sequence, is achieved by the fact that phase manipulation is performed with the received and amplified signal in real time, while the spectrum the re-emitted signal is stored within the allowed frequency band of the mobile phone.

Unlike the prototype, the inventive method performs phase manipulation with the received and amplified signal, and not with a specially filtered fragment of the received signal, which eliminates the expensive equipment necessary for digital filtering of the source signal of the station. Since the spectrum of the re-emitted signal is within the allowed frequency band of the mobile phone, it is perceived as a real signal coming from the phone. Moreover, about

- 1 006784 the flawed defect of the re-emitted signal is made according to the law of a low-frequency pseudo-random sequence, which does not even allow correlation processing to eliminate the occurrence of communication interference that impedes the establishment of a reliable communication channel between the base station and the mobile phone.

The inventive method also allows for complete re-emission of the received signal, and not its individual fragments, due to which it is possible to ensure complete suppression of the mobile phone in a protected local area. It also allows you to simultaneously reliably suppress all phones in the protected area, without requiring additional equipment.

To localize the zone of suppression of mobile communications, the reception of the broadband signal of a mobile phone is performed by a narrowly directed antenna within the protected local area. Signals from mobile phones outside this zone do not enter the receive path and are not suppressed. The accuracy of the localization zone is determined by the radiation pattern of the receiving antenna.

To reliably suppress mobile communications, it is sufficient to re-emit the signal from any part of the area served by the same base station as the suppressed mobile phone. The indicated placement of the transmitting antenna allows for its optimal placement in terms of radiation safety for biological objects and electronic equipment.

The inventive method allows locally and reliably blocking all mobile phones located in the protected area and does not require expensive and complex equipment widely used by other systems to suppress radio communication channels, and, therefore, has no analogues among the known methods of suppressing mobile communications, which meets the criterion "Inventive step".

In FIG. 1-3 are drawings illustrating the claimed method of local suppression of mobile phones:

In FIG. 1 shows a block diagram of a device for implementing the proposed method, where 1 is a receiving antenna, 2 is an input bandpass filter, 3 is a high-frequency amplifier, 4 is a controlled phase switch, 5 is a pseudo-random sequence generator, 6 is an output power amplifier, 7 is a re-emitting antenna.

In FIG. 2-3 are drawings of spectra of signals explaining the inventive method.

In FIG. 2a: 8 - spectrum of the emitted signal of a mobile phone.

In FIG. 2b: 9a and 9b are the spectra of a phase-shifted signal at a frequency of the generator of a pseudo-random pulse sequence of 2 kHz.

In FIG. 2c is the spectrum of the re-emitted signal;

In FIG. 3a - spectrum of the emitted signal of a mobile phone;

In FIG. 3b is a spectrum of a phase-shifted signal at a frequency of a 7-kHz pseudo-random pulse train generator;

In FIG. 3c is a spectrum of a re-emitted signal.

In FIG. 4 shows a sequence of output pulses 13 at the output of a pseudo-random sequence generator 5.

The inventive method is as follows.

A narrowly directed antenna 1 receives a signal emitted from a local area from a mobile phone. The spectrum of this signal is shown in FIG. 2a. The signal received by antenna 1 is filtered by filter 2 and amplified by amplifier 3, after which it is fed to the input of the controlled phase switch 4 in the form of two output signals that differ in phase by 180 °. Depending on the logical state (0 or 1) of the output pulse signal of the generator 5, the phase switch 4 switches the phases of the output signal of the amplifier 3, respectively, 0 ° or 180 °. Since the frequency of the pseudorandom sequence varies from 1 to 10 kHz, at some point in time we can receive signals with a frequency deviation of 2 kHz or 7 kHz, the spectra of which are similar to those shown in FIG. 2b, 3b - 9a and 9b or 11a and 11b, respectively. In FIG. 2c and 3c, we will have their total spectra of 10 or 12, which are the spectrum of the re-emitted signal. The signal received from the output of the phase switch 4 is amplified by a power amplifier 6 and re-emitted by the antenna 7. Due to the presence of a pseudo-random sequence generator 5, which controls the phase switch of unit 4, it is possible to obtain a phase-manipulated signal according to the law of the low-frequency pseudo-random sequence, which will be further reradiated by the antenna 7. Such a signal cannot be filtered out even when using double correlation processing and is isolated as an interference signal, and the investigator O can not be established radio channel between the mobile phone and the base station, i.e., Communication with a mobile phone is securely blocked.

The inventive method was tested when blocking a group of mobile phones in a room of 400 m ² . The most popular telephones of such well-known companies as “A1ca1e1”, “Mo1ogo1a”, “ΡΗίΙίρκ”, “8catid”, “§1teik”, “8oyu Epskkop”, “Rayakoshs” and “ΝοΕία” were used as mobile phones. All of these phones, prior to their blocking, made reliable communication with the base station. During the tests, they were set to the dialer and at the same time attempted to establish communication with the base station for 30 minutes. Signals from mobile phones

- 2 006784 was based on a narrowly oriented log-periodic type antenna that receives all signals from the specified local zone in the range of 900 and 1800 MHz. The antenna re-emitting the signal was assigned during the experiment to various distances - from 200 to 1000 m from the indicated room, being in the coverage area of the base station. The radiation power did not exceed 2 watts. During the blocking period, none of these telephones managed to establish a reliable communication channel with the base station and to ensure at least partial transfer of information from the local protected area. Moreover, mobile phones located outside the local zone (from 10 to 20 m) during the experiment provided reliable communication with the base station. No failures were observed in their connection. After the blocking of the indicated zone ceased, all telephones established communication with the base station. The specified blocking of mobile phones did not adversely affect other electronic devices, including those located in the local area.

Thus, the inventive method allows for reliable blocking of mobile communications in a local protected area, while maintaining its operability outside the specified zone and without interfering with the operation of other electronic devices.

Claims (3)

CLAIM 1. A method of local suppression of mobile communication, including amplifying a received broadband signal of a mobile phone and reemissioning it with phase manipulation according to the law of a low-frequency pseudo-random sequence, characterized in that phase manipulation is performed with a received and amplified signal in real time, while the spectrum of the re-emitted signal keep within the range of permitted frequencies of the mobile phone. 2. The method according to claim 1, characterized in that the reception of the broadband signal of a mobile phone is produced by a narrow-beam antenna from the protected local area. 3. The method according to claim 1, characterized in that the re-radiation of the signal is carried out in any part of the zone of the base station receiving the signal from the specified mobile phone.