FR3015851A1 - MINIATURIZED SYSTEM FOR DETECTION AND CONFINED LOCALOSATION - Google Patents

Abstract

The invention relates to a miniaturized system for detecting and locating an illicit radio transmitter (10) operating in a confined closed environment, zone Z, characterized in that it comprises at least the following elements: • one or more miniaturized detectors (2 ) equipped with an antenna (2A), adapted to detect a signal emitted by the illicit radio transmitter, • the at least one miniaturized detector (2) is connected to one or two-way radio relay transmitters (3) equipped with an antenna d transmission (3A), adapted to transmit the signaling of the detected signals to at least, • a receiver (6) of a radio broadcast network connected to a signal processing module (9), • the radio network operating on a frequency different from the operating frequency of illicit radio transmitters.

Description

The object of the invention relates to a miniaturized system for detecting, locating and signaling in a confined closed space, more commonly known as an "indoor" space space, of radio transmitters. , this system being confined volume coverage. The invention finds its application in confined spaces of small surface area, especially in "indoor" environment, such as prison cells, examination rooms, classrooms in 10 schools, offices and halls meetings in embassies, barracks, etc., and, more generally, closed small-area sensitive sites, when it is sought to detect, locate and / or characterize a radio transmitter whose operation is prohibited in the aforementioned zones . In some of the aforementioned environments, for example prisons, examination centers, the use of radio communication devices, such as mobile phones, is prohibited. One of the problems posed today is to detect, locate and report all unauthorized radiocommunications in a closed enclosure by controlling the confinement of this detection to avoid any intrusion or inconvenience in the communications of external users not concerned by the 'prohibition. Applicant's state of the art describes systems that detect illicit radio communications and / or locate terminals that use these radiocommunications with conventional radio antennas. These devices sometimes emit a scrambling signal in response. When seeking a significant spatial coverage, such devices face numerous difficulties because of the nature of the radiation pattern of conventional antennas of point type or reduced geometric extension, and the nature of the losses of propagation in -20.1ogio (R) of the power radiated from a terminal to such a conventional antenna (where R is the distance from the terminal to the phase center of the antenna). Since they seek to provide significant spatial coverage in indoor environments, conventional airplanes and the systems that use them are poorly suited in terms of efficiency and coverage because the propagation loss regime in -20.logio (R ), to which are added numerous propagation masks (walls, doors, etc.) make it difficult to guarantee coverage and simultaneous control of the containment of the detection. Indeed, the sensitivity of the system must be increased to ensure a significant coverage of the area despite the propagation losses and the many masks on the propagation paths (walls doors etc.), but in this case, the confinement is not sufficient to prevent a large number of false alarms, nor to guarantee the absence of indiscretion with regard to operators and external users not concerned by the prohibition of transmission. Thus, these conventional systems seeking a significant indoor coverage are difficult to install and maintain in proper operation, and in practice they are not very effective. One of the problems not solved by the prior art is the implementation of a complete and reliable detection, localization and reporting of the presence of radio transmitters in confined space "indoor" to confined and controlled coverage. There is therefore a need at present for a system for detecting and / or locating radio communication devices whose use is prohibited in a confined space. The device which is the subject of the invention is applicable inside an indoor space in general, and more particularly to spaces with reduced surface areas and volumes, with reliable efficiency, controlled coverage, a confined effect whose confinement is perfectly controlled. The term "unlawful or forbidden terminal" means a terminal, a radiocommunication device, which is not authorized to transmit within a given area or to communicate outside that perimeter.

One of the objectives of the present invention is to propose a miniaturized system for detecting, locating and signaling illicit transmitters, operating in a confined environment and based in particular on the combination of a system for receiving / detecting illegal transmissions, d a pager-type radio transmitter / relay and a network known to those skilled in the art or any other equivalent paging system. The invention relates to a miniaturized system for detecting and locating a illicit radio transmitter operating in a confined closed environment, Zone Z, characterized in that it comprises at least the following elements: one or more miniaturized detectors provided with an antenna, adapted to detect a signal transmitted by the illicit radio transmitter, - the said miniaturized detector or detectors are in connection with one or two-way radio transmitters equipped with a transmitting antenna, adapted to transmit the signaling of the detected signals to at least one receiver of a radio messaging network connected to a signal processing module, - the radio network operating on a frequency different from the operating frequency of the illicit radio transmitters. The bidirectional radio relay transmitter is, for example, adapted to label the signals detected by the receiver / detector by the date, the time, the location of the detector antenna of a malicious radio transmitter, and / or the location of a malicious radio transmitter and / or the nature of a malicious radio transmitter and / or the level of reception of the signal of a malicious radio transmitter A transmitter / relay may be equipped with a transmission and control module adapted to activate self-test procedures, start up, switch off receivers / detectors.

The system uses, for example, very low speed relay transmissions adapted to signal detections of signals emitted by illicit radio transmitters. Zone Z is, for example, a room and the antenna is installed on the ceiling of the room, with an orientation of the antenna of the detector / receiver towards the floor of the room and in that the transmitting antenna is oriented towards one side of the room or upwards Miniaturized detectors / receivers and bidirectional relay radio transmitters are arranged in ceiling lights.

Miniaturized detectors and bidirectional radio relay transmitters are, for example, arranged in small-sized volumes whose partially metallized surface serves as an antenna for detection. The signal processing module is, for example, adapted to analyze communication flows, perform statistics and local call mapping. According to another variant, the signal processing module is adapted to identify subscriber telecommunications devices that attempt to communicate with the illicit radio transmitters. The system uses, for example, a 800 MHz wireless M2M Pager network known to those skilled in the art. Other features and advantages of the device according to the invention will appear better on reading the following description of an exemplary embodiment given by way of illustration and in no way limiting attached to the figures which represent: FIG. 1, an example of According to the invention, and FIG. 2, a variant of the invention in which the emitter / relay and the receiver / detector are located inside a volume of restricted size.

FIG. 1 schematizes an example of a system according to the invention in which the transmission / relay system is an M2M pager type paging system known to those skilled in the art. The messaging radio uses frequencies different from those of the mobile phones to be detected; as a result, a cut-off filtering of the paging transmissions or an excision in the detection time on the transmission batches of the paging (excision in time also called "blanking" in English terminology) makes it possible to avoid the interactions inappropriate between the receiver / detector and the pager / relay.

The system 1 is composed, for example, of a miniaturized receiver / detector 2 with a local and confined range disposed at a cell or a room Z. This receiver / detector 2 is adapted to pick up the signals coming from the communication devices 10, for example mobile phones, the operation of which is not authorized in room Z. This receiver / detector 2 is associated with a pager / relay 3. The receiver / detector 2 and its antenna 2A can be installed ceiling 4 with an orientation of the antenna 2A receiver / detector 2 to the floor of the room. A different orientation of the antenna 3A of the pager / relay 3 associated with the receiver / detector 2 is preferably chosen towards the top or towards the sides of the room. The receiver / detector 2 has a detection sensitivity set to a low value which limits its scope to the only closed enclosure in which its antenna 2A is located, the associated pager / relay 3 is connected to an M2M network, 5, comprising a receiver / relay 6 equipped with an antenna 6A for example, which allows it to transmit the signaling detections of the receiver / detector 2 associated with it to a treatment device 9 of the illicit transmitters detected. The chosen frequency of the M2M network is different from the operating frequency of the illicit radio transmitters. Any radio messaging system comprising a transmitter and a receiver could be used, without departing from the scope of the invention, instead of the M2M Pager network.

Per cell or room Z, an assembly consisting of a miniaturized receiver / detector 2, 2A and a transmitter / relay 3, 3A miniaturized type M2M radio messaging having the function of transmitting the signaling of the detections of the receiver / detector 2 to the receiver / relay 6 of the M2M network, in order to be processed by the processing system 9. The transmitter / relays 3 are miniaturized bidirectional terminals, of the Pager type, making it possible to signal the detections of the receiver / detector 2 labeling them by date, time, and location (detector number, room number). We label (label or label) the signals received and detected by associating them with one of the aforementioned parameters, for example. These transmitters / relay pagers 3 are also equipped, for example, transmission module 11 and commands to activate self-tests, ignitions and extinctions of the receiver / detector 2. The receiver / detector 2 and the pager / relay 3 integrated in the Within the ceiling 4a are chosen so as to respect the electromagnetic compatibilities using adequate filtering and blanking techniques known to those skilled in the art. The transmissions / relays used are very low-speed transmissions, capable of signaling signal detections, labeled, for example, by the date and time, the location (cell or room number), the number of the receiver. / detector, or even by identifying elements of the illicit transmitter (frequency band and carrier for example, the bandwidth, etc.)., or even the level of reception of the signal of the illicit transmitter. It is possible to use M2M pager type networks such as the Sigfox 800 MHz wireless modem, which allows for low costs. Figure 2 schematically an example of installation of the elements constituting the system according to the invention. It is possible to install the antenna, the receiver / detector 2 and the ceiling-mounted emitters / detectors 4a, in small volumes 21 whose partially metallized surface serves as an antenna for detection, for example, a globe. lamps, lighting lamps or other components of a local habitat, in smoke detectors, motion sensors, telephones, door shields, door eyecups, etc. We can especially consider the integration in LEDs, neon lights, cold lamps with low consumption. It is also possible to use partially metallized bulbs or globes as an antenna for the receiver / detector. The power supply of the system can then be achieved through the power system of the lamp or bulb. Emitters and detectors are, for example, hidden in the ceiling. Baffles adapted to locally optimize containment can be used. A baffle may consist of ceiling meshes of limited size and simple geometry (typically a square whose side is a half-wavelength of the emission to be detected). In the installation phase, a conventional metrology known to those skilled in the art (mobile test phones, channel sounders, spectrum analyzers, etc.) is used, for example, to facilitate the search for the locations of the receivers. detectors, proper antenna orientations, proper filtering, sensitivity settings, etc.

The processing system 9 is, for example, adapted to process the signals detected by the radio network. It can analyze communication flows, perform statistics and local mapping of calls. Using methods known to those skilled in the art. It is also able to identify subscriber telecommunications devices that attempt to communicate despite the prohibition by reporting the bands and carriers used. The invention applies in particular, but not exclusively, to communications in the frequency band [0.3-3 GHz]: private network PMR (400 MHz), cellular radio 2/3 / 4G, wireless network WLAN Wireless Local Area Network such as Wi-Fi and short range "Short Range Communication" short-range transmission networks such as Bluetooth operating in industrial, scientific and medical ISM radio bands, Personal L-band "Personal Communication Satellite" personal network (1.6 GHz and 2.4 GHz) such as Iridium, Thuraya, Globalstar, or even future communication services in radionavigation systems such as GPS (Global Positoning System), Galileo and Glonass in L, S and C bands. to extend to certain other radiocommunications systems likely to be locally prohibited in the future: - future S and C bandwidth extensions (WiMax / LTE at 3-4 GHz and 5 GHz) - mesh mesh, mobile or wireless network modes ad hoc and Manet (Mobile Ad-hoc Networks) UMTS Universal Mobile Telecommunications System, Wifi, LTE (Long Term Evolution), etc. It can also be inhibited momentarily and locally or interfaced in a manner compatible with the use of certain radio systems authorized or tolerated in the enclosures covered by the invention: - "on-network" Femto Cells UMTS or LTE on specific carriers, - "over-network" of DECT wireless communications, - emergency calls / intervention.

It can also be interfaced in a manner compatible with authorized or tolerated communications monitoring systems in the enclosures covered by the invention. In addition to the treatment of all the networks between 0.3 and 3 GHz, the invention makes it possible to solve the critical problem. containment of detection and reporting of one-piece detections in which a controlled containment receiver / detector is installed. The invention provides a system that can be deployed à la carte with successive coverage complements and with supplementary services, for example the analysis of communication flows, statistics and call mapping, identification of the nature of the communication. etc.

Claims (10)

CLAIMS1 - Miniaturized system for detecting and locating illicit radio transmitters (10) operating in a confined closed environment, zone Z, characterized in that it comprises at least the following elements: - one or more miniaturized detectors (2) provided with antenna (2A), adapted to detect a signal emitted by the illicit radio transmitter (10), - said miniaturized detector (s) (2) are connected to one or two-way radio relay transmitters (3) equipped with an antenna d transmission (3A), adapted to transmit the signaling of the detected signals to at least one receiver (6) of a radio messaging network connected to a signal processing module (9), - the operating radio network (3, 6) on a frequency different from the operating frequency of the illicit radio transmitters. 2 - miniaturized system according to claim 1 characterized in that the bidirectional radio transmitter transmitter (3) is adapted to label the signals detected by the receiver / detector by the date, time, the location of the antenna of the detector d a malicious radio transmitter, and / or the location of a malicious radio transmitter and / or the nature of a malicious radio transmitter and / or the signal reception level of a malicious radio transmitter 3 - Miniaturized system according to one of the preceding claims, characterized in that a transmitter / relay is equipped with a module (11) transmission and control adapted to activate self-test procedures, startup, extinction receivers / detectors (2). 4 - Miniaturized system according to one of the preceding claims characterized in that the system uses very low speed relay transmissions adapted to signal detections of signals transmitted by illicit radio transmitters. 5 - Miniaturized system according to one of the preceding claims characterized in that the Z zone is a room and in that the antenna (2A) is installed on the ceiling (4a) of the room, with an orientation of the antenna ( 2A) to the floor (4b) of the room and in that the transmitting antenna (3A) is oriented towards one of the sides (4c) of the room or upwards. 6 - Miniaturized system according to one of the preceding claims characterized in that the miniaturized detectors (2) and bidirectional radio transmitters (3) are arranged in ceiling lights. 7 - miniaturized system according to claim 6 characterized in that the miniaturized detectors (2) and bidirectional radio transmitters (3) are arranged in small-sized volumes whose partially metallized surface serves as an antenna for detection. 8 - miniaturized system according to one of the preceding claims characterized in that the signal processing module (9) is adapted to analyze communication flows, perform statistics and a local mapping of calls. 9 - miniaturized system according to one of the preceding claims characterized in that the signal processing module (9) is adapted to identify subscriber telecommunications devices that attempt to communicate with the illicit radio transmitters. - Miniaturized system according to one of the preceding claims characterized in that it uses an 800MHz wireless M2M Pager network. 10 15 20 25