FR2932302A1 - Generalized monitoring method for e.g. object, in e.g. building, involves providing transmitter module with radio-frequency wave receivers and processor to object in place, where module receives infrared signal in manual operation mode - Google Patents

Abstract

The method involves positioning infrared tags (B1-Bn) transmitting an infrared signal containing geo-location and/or identification data, in fixed positions on a place. Person or object on the place is provided with a transmitter module (M) comprising radio-frequency wave receivers (R1, R2) to receive the signal from the tags and a processor (PR) to transmit a transmission signal comprising identification data of the module or the data of the tags to a monitoring center, where the module receives a signal with time stamp data and an infrared signal in automatic and manual operation modes.

Description

The present invention relates to a method and a device for geolocalised monitoring of a site in which a plurality of persons (or objects) can move randomly.

It applies in particular, but not exclusively, to the security of a building and / or personnel assigned to this building, especially during its period of daily opening to the public.

This building could, for example, consist of a shopping center, an administration, a hospital, a bank, etc. The invention more particularly aims to be able to instantly locate a person (or an object) within the building, either as a result of an emergency call made by this person or even independently of any call. In general, to monitor people and property within a site, it has been proposed to equip people or goods with transmitters (badges) and to place suitably selected, for example passages or doors, receivers connected to a monitoring center. The transmitting modules are designed to periodically transmit on radio frequency waves messages comprising an identification code of the person carrying them.

Thus, each time a person wearing a badge enters a reception area of a receiver, it receives the identification code of the person. This identification code is then transmitted with an identification code of the receiver to the monitoring center. The monitoring center is then informed of the presence of this person in the reception area whose coordinates he knows. In the case where the person is not authorized to enter this area the monitoring center can intervene to stop the intrusion.

It turns out that this solution has a significant disadvantage relating to the fact that the modules, emitting periodically (or even continuously), 15 consume a relatively large energy that affects their autonomy.

This is why it has also been proposed to use badges equipped with RFID type transponders which use for their operation the electromagnetic energy emitted by transmitters associated with receivers intended to read the transponder. However, this solution is not suitable because the range of transmitters / receivers is relatively low: the distance between the badge and the transmitter (which depends on the size of the antenna incorporated in the badge) is generally much less than 1 m. The object of the invention is more particularly to eliminate these disadvantages by means of a method consisting of:

disposing a plurality of infrared emitters or reduced-scope beacons 30 arranged in a plurality of fixed localized locations distributed on the site, avoiding overlapping of their range areas, these transmitters each transmitting periodically or a continuous infrared signal containing the geolocation and / or identification data,

to equip a specific number of people (or objects) intended to circulate in the site, transmitters module comprising an infrared receiver, adapted to receive the infrared signals emitted by the transmitters or infrared beacons, and a circuit of process capable of dialing and transmitting, to a monitoring center, a transmission signal comprising either transmitter module identification data as well as geolocation and / or identification data of the infrared transmitter from which it receives the signal possibly with timestamp data, in the case of operation in automatic mode, or geolocation and / or identification data possibly timestamped from the last infrared transmitter from which it has received the infrared signal , in the case of operation in manual mode.

The transmission of the signals composed by the transmitting modules in manual mode can be carried out following an intervention of the person equipped with said module, on a controller of this module. In the case of an automatic transmission, this transmission will occur once, or a limited number of times, each time the transmitting module enters a new range of a transmitter or infrared beacon and will have received and decoded the signal infrared emitted by this transmitter or beacon. In this case, the monitoring center will be able to use the signals composed and emitted by the transmitting modules to follow the movements of the transmitting modules (or their supports) and to verify, for example, that these carriers of transmitting modules (or the supports) do not enter areas where they are not allowed to enter. To allow the control of a transmission by a voluntary action of the carrier, the transmitter module may include a control member whose activation causes the composition and transmission to the monitoring center of a message including the latest data. geolocation and / or timestamped identification received by said transmitter module. In this case, following the reception of this message, the monitoring center will be able to locate the person in a relatively precise manner and possibly trigger an intervention. In this case, the signal emitted by the transmitter module may comprise information relating to the change of state of the control member.

Optionally, the controller of the transmitting module may include means for including in the message to be transmitted to the monitoring center, additional information relating, for example, to the reason for which it has triggered the transmission. of the message. These means of inclusion can help to differentiate a voluntary call from a call following a malaise, a fall ...

Transmission of the messages transmitted by the transmitting modules to a monitoring center may be effected in various ways. This transmission may be direct, the monitoring center having a receiver covering a perimeter including the site to be monitored. It may be indirect and involve a communication platform equipped with a radio receiver as well as terminals capable of transmitting a message to the monitoring center via transmission means involving, for example, a communication network. telephone or Internet or GSM.

Embodiments of the invention will be described hereinafter by way of nonlimiting examples with reference to the accompanying drawings, in which: FIG. 1 is a schematic representation of a site equipped with infrared beacons an installation for implementing the method according to the invention;

FIG. 2 is a block diagram of an installation that can be used to equip the site illustrated in FIG. 1.

In this example, the site 1 consists of a level of a building of rectangular shape comprising a series of peripheral pieces P1, P2, P3 ... Pn_1, 10 Pt, served by a corridor C1 extending over a course of form rectangular. The interior space delimited by this corridor is divided into six BL1 to BL6 blocks of four rooms by a longitudinal central corridor C2 and by two transverse corridors C3, C4. Entrance to site 1 is via an entrance hall H located in the central part of the longitudinal main façade of the building.

The coverage of this site 1 is provided by a plurality of infrared beacons B1, B2, B3... Bn_1, Bn (indicated by small squares) respectively located in each of the pieces P1 to P'a and at the level of the crossings formed. by the corridors.

Each of these beacons B 1 to B n is designed to periodically transmit an infrared signal containing beacon identification data and / or geolocation data, it being understood that the identification data may be sufficient since, when installation, these identification data are necessarily associated with a location of the site 1. The range of these infrared beacons is relatively small. This range will be provided to cover the volume of a part P1 Pn or a zone Z indicated in Figure 1 by a circle radius greater than the width of a corridor C1 to C4, so that anyone traveling in corridors C1 to C4 must pass in zones Z range tags. These beacons can be autonomous and include their own source of power supply.

Moreover, the site 1 is equipped with a multimedia communication platform 2 installed in the room Pn, which will be described in more detail with reference to FIG. 2. This platform 2 is connected to two radio frequency wave receivers R1, R2 via line 3 (Bus). Of course, the number of receivers provided on line 3 is not limited. It depends essentially on the dimensions and the geometry of the site 1.

The people who have to evolve on the site 1 are each equipped with a transmitter module M, able to transmit, to the receivers R1, R2, and therefore to the multimedia platform 2 a radio frequency signal. This transmitter module M is furthermore equipped with an infrared receiver RF adapted to receive the infrared signals emitted by the beacons B1 to Bn and a processor PR able to compose a message comprising at least identification data of the transmitter module M , identification data and / or geolocation of the beacon B1 to Bn which it receives the signal and optionally timestamp data. It may further comprise a memory for storing a fixed number of last received messages.

This module furthermore comprises at least one transmission control button Bo causing, when requested, the transmission to platform 2 of a message comprising the identification and / or geolocation data of the last beacon B 1 to Bn with which it has been in communication, as well as its own identification data with a possible time stamp.

The operation of this installation can be of two different types, namely automatic type operation (monitoring mode) or manual type operation (safety mode). In these two operating modes, each time the transmitter module M enters the range of a beacon B 1 to B ,,, it receives and stores the identification data and / or geolocation this beacon B 1 to B ,,. In automatic mode, it composes a message including its own identification data, that of the tag (possibly with geolocation data), as well as timestamp data. It then transmits this message to the communication platform 2 for processing and possible transmission to a central monitoring. The processing carried out by the communication platform 2 may consist in recognizing the presence of the transmitter module M at locations of the site, at specific times, and in verifying that this receiver module M (and especially the person who carries it) does not fit not in a region of site 1 where it is forbidden to access.

In security mode, the sending module M transmits its message to the communication platform only in the case where the person in possession of the module acts on the control button Bo. The message will then include the identification and geolocation data of at least the last beacon B1 to Ba with which it has been in communication (or with which it is in communication). This mode of operation can be used to make emergency calls: the communication platform 2 can send these messages and other useful information to a monitoring center, so as to possibly provoke an emergency response to the person who requested assistance and is geolocated.

The precision of the geolocation necessary for a fine exploitation of the site 1 will be determined by a pre-study of the installation on this site 1. In a more complex site with several stages, it will be possible in particular to geolocate by floor, by circulation, per office and even segment a surface inside an office.

Of course, the invention is not limited to the types of application described above. Thus, the installation could be used, for example, to monitor the material on a site (the sender is then assigned to a material and not to a person) to monitor staff on the site, monitoring visitors and a more general way of identifying the human and / or material resources available in a specific sector at a given time.

The communication platform 2 used in the previously described installation constitutes a multimedia communication node. It comprises a processor, for example a micro controller to which are connected, through appropriate interfaces:

The line 3 or bus on which the receivers R1, R2 are connected, this line 3 being provided with supply means 4 and repeaters 5, 6 possible (depending on the length of the line). On this line 3, can be connected a video surveillance circuit 7, the terminals of an access control system 8, an intrusion control unit 9 on which are connected intrusion detectors, for example of conventional type.

A GSM modem with its cellular telephone antenna 10 to access the "Global System for Mobile Communications" network. The Internet network 11 (or other equivalent network), for example to access an operating or monitoring site 12.

This site 12 can be designed to transmit to the platform 2 commands to perform on it changes configuration and to transmit reactions. He receives from platform 2 information about the events. This site may be exploited by one or more operating agents to supervise one or more remote platforms. A printer 13 for printing events (according to a preset choice) as and when the messages corresponding to the platform. A microcomputer console 14 (central unit / keyboard / screen) allowing to display on the screen all the events sorted by type at the moment of their arrival on the platform. The telephone network 15. An external speaker 16 and / or a sound system. A radiofrequency transmitter 17 (for example of the "Walkie-Talkie" type) 10 The communication platform 2 is intended to develop multiple different applications and is provided for this purpose with: a graphical interface for exploiting events and / or geolocated reactions on plans, 15 of a hypervisor backed by the graphical interface which allows control of the site or sites, the execution of commands or routines or "scripts", the reception of alarms, the feedback of information and their graphic display on plans, a dynamic management software for the rounds carried out by a supervisory staff with optimization of the constraints of the course such as the opening and closing of doors automatically, switching on and off automatically lighting, etc ... software for tracking the movement of visitors or technical personnel inside a site, 25 software designed to ensure communication, in IP mode, between the electronics of the installation and a remote operating computer center. This software checks the actual hardware configuration of the site periodically with adjustable periodicity and compares this configuration with a registered model. If a difference is detected, the platform 30 will inform an operating agent who will then take all necessary measures to resolve the defect by acquitting it.

Claims (10)

Revendications1. Method for the generalized monitoring of a site, characterized in that it consists in: arranging a plurality of infrared transmitters (B1 to Bn) of reduced range arranged in a plurality of fixed localized locations distributed on the site (1) , these transmitters (B 1 to Bn) each periodically transmitting an infrared signal containing the geolocation and / or identification data, to equip a determined number of people (or objects) intended to circulate in the site, of modules transmitters (M) comprising an infrared receiver (RI), able to receive the infrared signals emitted by the infrared emitters (B 1 to Bn), as well as a processing circuit able to compose and transmit, to a center a transmitting signal comprising either identification data of the transmitting module as well as the geolocation and / or identification data of the infrared transmitter from which it receives the signal with possibly timestamp data, in the case of operation in automatic mode, the geolocation and / or identification data possibly timestamped from the last infrared transmitter (B1 to Bn) from which it has received the infrared signal, in the case of operation in manual mode. 2. Method according to claim 1, characterized in that the transmission of the signals composed by the emitter modules (M) takes place automatically each time the transmitter module (M) enters a new zone (Z) with a range of an infrared transmitter (B1 to Bn) and has received and decoded the infrared signal emitted by this transmitter module (B1 to Bn). 3. Method according to claim 2, characterized in that the monitoring center uses the signals composed by the emitter modules (M) to follow the movements of these modules (M). 2932302 - • 11- 4. Method according to claim 3, characterized in that the monitoring center verifies that the transmitter modules (M) do not enter areas where they are not able to penetrate. 5. Method according to claim 1, characterized in that the emission of the signals composed by the emitter modules (M) is caused by an intervention of the person equipped with said module (M), this intervention consisting of an activation of a control member (Bo) of which said module (M) is equipped, the signal emitted by said module (M) comprising information relating to the change of state of the control member. 15 6. Method according to claim 5, characterized in that, following the reception of the signal emitted by a transmitter module (M) whose control member (Bo) has been requested, the monitoring center precisely locates the module. (M) and triggers an intervention. 20 7. Method according to one of claims 5 and 6, characterized in that it comprises the inclusion in the signal delivered by the transmitter module (M) information relating to the cause for which the transmission of said signal has been triggered. 25 8. Method according to one of the preceding claims, characterized in that the transmission of the signals emitted by the transmitter modules (M) to the monitoring center is carried out directly by radio link. 2932302 - 12 - 9. Method according to one of claims 1 to 8, characterized in that the transmission of signals to the monitoring center is effected via a communication platform (2) equipped with at least one radio receiver ( R1, R2) of a processor, as well as terminals 5 able to transmit a message to the monitoring center. 10. Method according to claim 9, characterized in that the transmission to the monitoring center messages from the platform (2) is performed via the telephone network, the network (GSM), the Internet or even by radio link.