FR2909771A1 - Alzheimer disease affected person monitoring and localization device, has transmitting unit generating order to switch marker from low energy consumption waking mode to high energy consumption active mode generating carrier geolocation - Google Patents

Abstract

The device has a marker (200) presented in the form of a transportable and autonomic case (203) and with an electronic circuit (204) processing information from satellite positioning system (210) and transmitting the information to a mobile communication device (201). A computing platform (300) has a storage unit for storing data from the marker. A transmitting unit generates an order remotely for switching the marker from a low energy consumption waking mode to high energy consumption active mode, where the active mode generates a geolocation of a carrier (1) of the marker based on the order. An independent claim is also included for a method for implementing a device for monitoring and localization of a person.

Description

MONITORING AND LOCATION DEVICE AND ITS METHOD OF IMPLEMENTING

  The present invention relates to a monitoring and localization device and its implementation method intended mainly for people with a degenerative disease including the type of Alzheimer's disease. Alzheimer's disease and related conditions affect different parts of the brain; some functions are affected. Many symptoms of Alzheimer's disease or a related condition make it difficult for people to get lost. The risk that these people get lost is omnipresent, they go out for their daily walk, take the car to go shopping or leave their homes in search of a quieter place.

  Recent studies have shown that if a person with Alzheimer's disease goes astray and is not found within twelve hours of their death, there is a fifty percent chance that they will be found injured or even worse. : dead. It is therefore extremely important to find it quickly.

  In the state of the art, tracking devices are technological tools that can be used to monitor a person's movements or to know their location. They can help find lost people. The patient then carries a transmitter that sends radio signals to a receiving station that can identify the location of the person carrying the transmitter. Depending on the technology used, the transmission zone and the energy source, for example batteries, may impose certain limits. In addition, the purchase and maintenance costs of these devices can vary greatly. The existing devices are: - positioning devices by satellite positioning of the GPS (Global Positioning System) type in the form of a portable device or integrated into a vehicle, - radio-controlled devices operating by means of a transmitter and a remote control unit. 2909771 2 several radio receivers, - the cellular telephone offering, thanks to the dialing of a number, in general the 911, the activation of the search of the place of the call by identifying the nearest antenna.

Nevertheless, all these devices do not meet the requirements related to the patient and the technology employed. Indeed, it is necessary to respect the patient's private life without the latter feeling constantly monitored or spotted. This poses a problem for all devices that require permanent and continuous identification. The circulation space determining the degree of freedom of the patient is also important. This parameter therefore poses a problem for all devices of the radio transceiver type with a very limited operating perimeter.

In addition, it is important for the relatives or, in general, the guardians of the patient to keep if it is not a permanent contact with the latter but at least a means of being able to locate their patient, when they so wish. to ensure that it is not, for example, in an unusual place or outside on an incongruous schedule.

20 In addition to the problems of locating the patient in an unlimited geographical area, respect for his private life, the impossibility for at least one guardian, when he wishes to make sure of the position of the patient arises the problem of the consciousness still available to the patient at the moment when he is wandering, as well as the technical problem of the autonomy of the battery worn by the patient and necessary in order to keep the device energized. Indeed, when the patient loses contact with reality, not only does his wander begin but in most cases he loses consciousness of objects and indications that could help him find his way. In this case, it becomes extremely difficult for the latter to dial a telephone number on a cellular phone, to communicate by radio frequency or to interpret the data on an international satellite positioning system. Moreover, in the latter case the energy consumption of the portable GPS units available on the market are such that they do not allow a continuous operation of the order of a few hours to a maximum of twenty hours, from a fully charged battery. In many cases, this reduced autonomy proves to be insufficient to ensure a safety period useful to the recovery of the patient.

The invention proposes to solve all these problems. For this purpose, the device of the invention comprises a beacon presented in a housing compact enough to be worn discreetly by a patient as well as a computer platform serving remotely database.

The housing comprises means for transmitting and receiving signals of a GSM network as well as means for receiving signals from satellites of an international positioning system. The calculation of the position of the wearer of the housing according to latitude and longitude is ensured by the presence of an electronic card contained in the housing.

A battery contained in the casing keeps all the electronic components energized as soon as there is a minimum load defining the transition from power-off to power up. The casing preferably does not have external control except for a battery charging connector with a 220 V source. The absence of functions directly accessible by the beacon holder thus avoids that in the event of a loss of benchmark, the patient does not seek to change the operating parameters and possibly impair the proper functioning of the device.

All the components are inside the housing itself and have a smooth appearance. The dimensions of the housing are of the order of those of a mobile phone. These last two features provide robustness and excellent portability, including with the aid of suitable attachment accessories, the tag for the patient.

The tag, once powered up, operates only in the form of two states: a sleep mode and an active mode. In the standby mode, the beacon, while receiving the signals from the positioning satellites, does not calculate a position and transmits only information in the form of a code to the platform. Only this presence information, several times a day and in the case of a coverage area by the GSM network, reaches a computer platform to attest to the proper operation of the beacon. The active mode ensures the transmission, according to a determined frequency, for example, about ten times per hour, 5 of each satellite location of the beacon to the platform. The computer platform has data storage means beacons, data storage means accessible by users of the device that are third parties responsible for monitoring the bearer (s) of tags, means of transformation 10 of the data latitude / longitude in a cartographic form as well as means of access both for the consultation, by a third party, of the information contained in the user database and for the selection of the operating mode of the beacon. The invention makes it possible, according to a geographic coverage corresponding globally to that of a cover of a GSM network and according to the place where the patient is located (building obstructing the waves) to be able, for a user worried about his prolonged absence. in a place of ordinary life, to locate it quickly and thus to organize its safe return.

According to the invention, it is possible to remotely switch the beacon from an active mode to a standby mode and vice versa. This switching allows, when no need or concern is felt as to the safety of the patient to preserve the autonomy of the battery much more solicited in active mode. The active mode requires a high power consumption, in particular when calculating positions made by the microprocessor on receiving the satellite signals. The user database of the platform has information in the form of a history of the last positions recorded by the beacon before the beacon is activated, or the last 30 positions that may have been technically correctly recorded and transmitted, regardless of satellite reception problems or GSM coverage. The subject of the invention is therefore a monitoring and locating device comprising: a beacon in the form of a transportable, autonomous casing provided with: a mobile communication device; satellite positioning for producing positioning information, - a battery and 5 - an electronic circuit for processing the information provided by the positioning system and then transmitting it by the mobile communication device, - a computer platform having: means for storing data from the beacon and data intended for a user of the device; means for remote communication between a user of the device and the platform, characterized in that it comprises means for transmitting an order; remote, switching the beacon from a low energy consumption standby mode to an active mode of higher energy consumption, the active mode energetic, in response to this order, a geolocation of a bearer of the beacon. The subject of the invention is also a method of implementing this monitoring and localization device, characterized in that it comprises the following operations: a carrier is equipped with a beacon under voltage, the beacon, active mode, receives signals from positioning satellites, - the signals are processed by a microprocessor of the beacon and the beacon 25 sends, via a mobile communication network, information of its position to a platform which stores it in a base of provider data, - the position information is transferred from the supplier database to a customer database, - the position information at the last transfer is translated in the form of a geographical address, - a user of the device consults the customer database, - the user of the device gives the platform an order to switch the beacon in the standby mode to preserve the autonomy of the bat. terie, 2909771 6 - the order is transmitted from the platform to the beacon. The invention will be better understood on reading the description which follows and on examining the figures which accompany it. These are presented only as an indication and in no way limitative of the invention.

Figure 1 shows an illustration of the device according to the invention. Figure 2 shows a top view of an embodiment of the beacon according to the invention. Figure 1 shows a carrier 1 equipped with a tag 200. The tag 200 is for example, with a suitable case, attached to the belt of the carrier 10 or slipped inside a dedicated pocket of a jacket. The beacon 200 and its carrier during his travels are solidary. The beacon includes a mobile communication device 201 such as those available mainly mobile phones or equivalent communicating devices such as personal assistants. These devices operate according to different wireless technologies: GSM, GPRS, EDGE, CDMA, 3G, WIFI, UMTS ... According to a preferred embodiment of the invention, the mobile communication device 201 of the beacon 200 operates according to the GSM technology. An antenna 202 of the device 201 is integrated inside a housing 203 containing the main components of the beacon 200. The antenna 202 is in the form of a PCB (Printed Circuit Board) and operates according to frequencies of 900 Mhz and 1800 Mhz respectively. An electronic circuit 204 integrated into the housing 203 includes a GSM processing module 205 of the information both received and transmitted to and from the computing platform 300 respectively. A connector 206 on the antenna circuit 202 allows the junction with the circuit 204. Still according to a preferred variant, the device 201 comprises a SIM card 207 integrated in the electronic circuit 204 enabling the acquisition of a subscription by an operator and the use of the GPRS mode for the transfer of information. In the housing 203 also takes place a battery 208. The latter occupies most of the available volume inside the housing 203. The battery is rechargeable thanks to a connector 209 35 accessible on one side of the housing 203 and from a power supply preferably of 12 and 220 volts or possibly 24 and 110 volts. The beacon 200 comprises a satellite positioning system 210 composed of an antenna 211. According to a preferred embodiment, the GPS system is used. The GPS antenna, shaped like a stool, is multidirectional and operates at a frequency of 1575 Mhz. The electronic circuit 204 also comprises a GPS processing module 212 associated with the system 210 and allowing the processing of the information received by the satellites. A connector 215 allows the connection of the antenna 211 to the electronic card 204.

The electronic card 204 also includes an internal memory 213 and an operating system 214 for managing the interface between the various hardware elements inherent to the GPS / GSM bi functionality of the beacon. Two inputs 216 and 217 in the form of connectors ensure the junction with the output connectors 215 and 206 respectively of the GPS antennas 211 and GSM 201. The elements 201 to 217 are interconnected via a junction bus 218. It comprises in particular a connector comprising 26 female points corresponding to the electronic circuit 204 and a 3-point jack connector for connecting to the battery.

Finally, the housing 203 is made, for example, from folded plastic sheets 3 mm thick which then provide protection for all the components of the beacon. The tag 200 thus formed allows no manipulation other than that of being charged, it is an inert box.

The device according to the invention also comprises a computer platform 300. This platform 300 comprises a microprocessor 301, a program memory 302, a modem 303, connection circuits 304a and 304b depending on whether the local connection is OTA ( Over The Air) or wired. A mapping program memory 305 completes the set. The program memory 302 has a plurality of areas each corresponding to a functionality of the platform. In this description, when an action is taken on the device, this action is actually performed by the microprocessor 301 of the platform itself controlled by stored instruction codes 2909771 8 in the program memory 302. When the beacon 200 is fully or partially charged, therefore powered on, a user 2 or even the carrier 1 itself of the device activates or deactivates according to the initial state of the tag it.

As soon as it is turned on, the beacon 200 functions according to the mode in which it was before it was switched off. Thus, when a user 2 wishes to change the operating mode of the beacon, he dials on the keypad of a telephone terminal 21, DTMF compatible, a number corresponding to the supplier of the device. The signal along a link 306 and via the connection circuit 304a is then processed by a program memory P1 307 of the platform 300. A voice server 308 prompts the user to type on the keyboard a customer number 22 and then a number. access code 23 which are compared to those present in a client file 309 database memory of the platform 300. Thus, the procedure for changing the mode of operation of the tag and / or obtaining location information of the carrier 1 of the tag is secure. Once an access code 23 has been correctly returned by the user and identified by the program memory 307, the user becomes aware of the operating mode in which the beacon 200 is located by the voice server 308 and is asked to confirm a order on its keyboard according to different choices offered, in this case: the modification of the operating mode of the tag 200. The choice, once valid, is confirmed by the voice server 308.

The instruction is then relayed by the microprocessor 301 which searches via a P2 program memory 310 in the client file memory 309 for the characteristics of the tag corresponding respectively to the client number 22 and the access code 23 given by the user 2. It will be noted that provided with this customer number 22 and the access code 23, several users including the carrier 1 himself of the beacon 200, can remotely inquire about the position of the carrier 1 of the 200 tag. The P2 310 program having identified in the file 309 the name of the declared carrier 1 and especially the number corresponding to the SIM card 207 of its beacon 200, triggers a re-parameterization of the beacon 200 according to the instructions of the user 2.

According to a preferred variant of the invention, this reparametering is carried out by the issuance of an SMS by an SMS function 311 and by the modem 303 of the platform 300. The SMS is received by the antenna 202 and the The information is processed by the electronic circuit 204 which switches the operation of the beacon into the desired operating mode. The two proposed operating modes are the standby mode and the active mode. In the standby mode and in the active mode, the beacon receives the signals from the satellites 24 when the carrier is in a sufficient reception area. A calculation of the position corresponding to the desired accuracy is performed if the signals corresponding to at least four satellites are received. This requirement, according to the preferred embodiment of the invention, comes from the imperative need to locate the misplaced carrier with maximum certainty in the calculation made and with maximum accuracy on the position 15 obtained. By a method of triangulation the processing module 212 determines the position of the wearer according to its latitude, longitude, altitude and all associated with a date (hours, minutes, seconds, days, months and years). According to a variant of the invention, the latitude and longitude corresponding to the beacon 200 (Mode 2G) are also obtained by the processing module 212, which in many cases suffices with an acceptable accuracy to locate. the carrier 1 of the beacon 200. With the signal of an additional satellite the calculation makes it possible to obtain the altitude (Mode 3G).

In the standby mode, no triangulation position calculation is performed and therefore no position is transmitted by the mobile communication device. The essential interest is to preserve the energy of the battery necessary to carry out these operations in the second mode. In the active mode, the operations of calculating the position from the signals received by the satellites and their transmissions by the mobile communication device 201 from the beacon 200 to the platform 300 are carried out about ten times per hour according to the signal reception quality on the ground. This mode of operation requires a much higher energy than the standby mode. However, because of a very fast acquisition of GPS data (from 1 to 10 minutes maximum for a first position), nothing prevents a user 2 worried about the future of a carrier 1 to activate the tag, collect position information and then return to standby mode. Thus, it provides for the availability of the entire device of the invention without obliging the wearer 1 of the beacon to recharge the battery at a sustained frequency and with the risk, during a charge, of not being able to use the beacon . Thus, in the embodiment described, the autonomy of the battery delivering, preferably, 7.4 Volts is, as an indication, in active mode of the order of one to two days and in standby mode of more than one week. The transmission of the corresponding data to the calculations of the positions (x, y) of the beacon are transmitted by the GSM module 205 according to an FTP transmission, with an IP identifying address in GPRS mode. The file is sent as a text file (.txt) and is received by the platform via the modem 303. The information pair is then stored in the file-client memory 309 according to an identifier corresponding to the number of the transmitting beacon. The file generated by the tag 200 in active mode also specifies the validity of the information received according to the parameters imposed by the provider. For example, the minimum number of satellites required (3, 4 or more). Thus, a type V file for invalid is characterized when the satellite signals are insufficient: V, 0 for an impossible computation with the received data and V, 1 for a calculation comprising insignificant information. When the calculation and information are correct, the file is sent as A, 1.

In addition, in active mode, the frequency with which the calculation of a position and its transmission is performed is configurable from the platform. For this purpose, an instruction is sent by SMS to the operating system 214 which reparameter modules 205 GSM and 212 GPS accordingly.

In standby mode, the calculation of the position ce, whatever the quality of the signals emitted by the satellites is blocked. On the other hand, a file is sent, according to a determined frequency, for example, every hour, subject to sufficient GSM coverage, to the platform 300 in order to confirm the reception by the GPS antenna 211 of signals coming from 35 satellites. It thus makes it possible to obtain a witness of good operation of the beacon 200 while preserving the wearer from the feeling of undergoing a tracking system. When the beacon has been or is activated, it is possible for a user 2 to connect via a computer terminal and an FTP 5 or http link to the platform 300 by, for example, a local connection circuit 304b. The address of the connection site is that of the provider and the customer number 22 and the access code 23 remain the same as those used for a phone call.

The platform 300 includes a map memory 305 storing all maps corresponding to the planisphere. In a program memory P3 314, a specific program makes it possible to locate on the screen of the terminal 25 the bearer of the beacon in the form of a card 324 and a point 325 on this card. The GPS coordinates of the beacon 15 are calculated according to the WGS 84 geodetic reference system with global coverage. This program, of the type used for the Electronic Chart Display and Information System (ECDIS) standard used for nautical and river charts, makes it possible to obtain a comparison between the digitized map and the GPS position. These programs are known and the full description will not be repeated here. The principle is as follows: the position of the bearer of the beacon being defined by the two coordinates (x, y) respectively corresponding to the latitude and the longitude, this position is then sought by the program memory 314 in the map memory base 305. The goal is then to place the position preferentially in the center of the screen. One then selects a scale allowing a correct exploitation of the position, a scale too large, a region for example offering little interest for the recovery of the bearer of the tag. This scale E is determined, for example an area of 200 m by 200 m, proportionally to the taking into account of the accuracy of the satellite positioning is about ten meters. The display screen of the terminal 25 is then defined by its size along the horizontal axis Xe and by its size Ye along its vertical axis. The map selected by the program 314 35 then has a coordinate point (x0, y0) originated at the bottom left of the screen and such that the representativeness of the map over a distance of 200 m on the abscissa and 200 m in ordinate on the screen corresponds respectively in abscissa and ordinate to the product Xe by the resolution Rx of the screen and to the product Ye by the resolution Ry of the screen.

The position 325 of the carrier 1 of the beacon 200 will then be centered on the image 324 of the screen of the terminal 25 at a point 325 such that xx0 = (Xe * Rx) / 2 and y-y0 = (Ye * Ry ) / 2. Since the correlation between the GPS position and the geographical location is effected by the program memory 314, a program memory P5 315 allows, associated with the voice server 308, to deliver the information in the clear in the form of a street number 316. a street 317, a city 318 and a country 319 similar overall to a postal address. According to one variant, this location information is in the form of the name of a place called 320, of a remarkable point such as a station, a public building and of an azimuth / distance pair 321 with respect to this said location. and / or this point. This address or this location information is systematically transmitted to the user 2 calling the platform 300. The client file memory 309 is then associated with a memory 323 corresponding to the last position but also a history of all the positions taken, for example on a whole day up to a week. According to a choice proposed by the voice server 308 and / or by the Internet connection 312 to the platform, the user 2 is invited to consult these historical data of the memory 323.

The device of the invention also provides for the creation of living areas. A life zone is then defined by a GPS coordinate and a radius, the scan of the radius around the GPS point defining a disk representing the area of life. This life zone is then entered into a zone memory 322.

These zones are stored according to the identifier corresponding to the number of the transmitting beacon. When a position calculated by the program P3 314 is not in the zone defined above, a routine of the program P3 314 triggers via the microprocessor 301, the dialing of the call numbers of the user or users 2 corresponding to 35 l. identifier of the tag. The user 2 then receives an alert information 2909771 13 in the voice form thanks to the server 308 or in the form of an SMS thanks to the function 311. The commissioning of the zone function is carried out according to a similar procedure to that allowing the standby or activation of the beacon.

According to one variant, the information defining a position as being inside or outside a life zone remains passive. In this case, no call is generated towards the user. It is at the initiative of the latter and according to the possible consultation methods described above (telephone call, Internet gateway) 10 that the user becomes aware of the information. In FIG. 2, the numbering of FIG. 1 is plotted for the elements of the beacon 200. According to a preferred embodiment of the beacon 200 of the invention, the casing 203 is in the form of a smooth parallelepiped on its Outer surface and dimensions Length L x width I x thickness e of 100mmx70mmx30mm. The thickness of the plastic sheet component of the housing is 3mm. This feature allows the beacon to have a shape free of attachment point and to be placed against the wearer in all possible positions.

The antenna 202 in the form of a PCB plate is placed, from an inside angle of the housing along the inner edge a length so that its main surface faces the thickness of the housing 203 Its length is 75 mm and it is separated from a 220 PCB screen having dimensions similar to the antenna 202, by two separation pads 221 and 222 placed between the two ends of the two plates 202 and 220. The thickness these pads 221 and 222 is 3 mm. A connection wire 223 between the antenna 202 and the electronic circuit 204 passes through the screen 220. A cable 224 makes it possible to connect the screen 220 to the ground of an angle of the circuit 204.

The dimensions are given as an indication but can describe the proportions associated with the placement of the different elements of the tag 200. The GPS antenna 211, the shape of a stool is placed along the edge opposite that of the antenna 202 and in the angle diagonally opposite to that of which the GSM antenna is located. Its diameter is 2909771 14 17mm. The antenna 211 is positioned so that its outer edges are tangent to the two inner walls forming the angle of the housing. In this way, the antenna 211 projected along the length of the housing 219 does not cover the antenna 202 but is in its extension.

At the same time, the role of the screen 220 and this arrangement makes it possible to avoid interference between the two frequencies very close to the two antennas while maintaining a multidirectional GPS antenna 211. The antenna 202 is placed on its edge at the bottom of the housing, the battery 208 is also placed at the bottom of the housing 219 and the antenna 211 10 takes place above the battery 208. Always above the battery 208, on the side of the antenna 211, takes place the electronic circuit 204. On an unoccupied portion at the bottom of the housing 219 by the battery 208, is placed the charging connector 209 with two inputs 209a and 209b. A power cord specific to the jack-type male profile battery and its charger, not shown here, has a light off when the charger is not powered on the 220 V, red when the battery is charging. from the mains and green when charging is complete and / or when the charger is connected to the mains alone. When the two male profiles are plugged into the two inputs 209a and 209b, the contact with the input 209a, connected to the junction circuit 218 interrupts the power supply of the electronic circuit 204 and therefore keeps the tag 200 off. A stylus 1 held by the carrier 1 and stored preferably in a holster common to the beacon 200 allows the latter by introducing it into the input 209a of the connector 209 to maintain, in the same way as for the charger, the tag off. This stylus 1a then allows the wearer 1 to refuse for anyone to locate in respect of his privacy but also to fully preserve the battery life for a fixed period.

The housing 203 also comprises, along the width of the housing next to the connector 209, an indicator light 225. This indicator 225 in the form of an LED has a connection connecting it between the battery 208 and the electronic circuit 204. Thus, when the beacon is on, the light is, for example, steady red and when the beacon is activated, flashing red. This feature allows the wearer 2909771 15 of the beacon both knowing the beacon in working condition and for the mode of location without impairing his knowledge to his private life. A ring mounted according to the same principle allows sound to prevent the wearer 1 from the passage of the beacon in 5 geolocation mode. The invention also comprises a method for implementing the monitoring and locating device, characterized in that it comprises the following operations: a carrier is equipped with a beacon under voltage, the beacon, in active mode, receives signals from positioning satellites; - the signals are processed by a microprocessor 214 of the beacon and the beacon sends, via a mobile communication network, information of its position to a platform 300 which stores it in a database; provider 309, - the position information is transferred from the supplier database to a customer database 323, - the position information at the last transfer is translated in the form of a geographical address 316,317,318,319,320 and 321, 20 - a user 2 of the device consults the customer database, - the user of the device, from a telephone line and according to a secure procedure confirms, at the platform, an order to switch the beacon in the standby mode to preserve the battery life, - the order is transmitted from the platform to the beacon.

By this method of implementing the device and thanks to the device described above, the position information of the beacon during the last transfer is translated in the form of an image 324 designating on a screen the position of the beacon.

Claims (14)

  1 - Device for monitoring and locating comprising: - a beacon (200) in the form of a housing (203) transportable, autonomous and provided with: - a mobile communication device (201), - a system of satellite positioning for producing positioning information (210), - a battery (208) and - an electronic circuit (204) for processing the information provided by the positioning system (210) and then transmitting them through the device mobile communication system (201), - a computer platform (300) having: - means for storing data from the beacon (200) and data intended for a user (2) of the device, - remote communication means (21,25) between a user (2) of the device and the platform (300) characterized in that it comprises means for transmitting an order, remotely, switching the beacon (200) of a low power standby mode energy to an active mode of stronger conso energetic mmation, the active mode generating, in response to this order, a geolocation of a bearer of the beacon.   2 - Device according to claim 1 characterized in that the means for transmitting comprises a telephone line (306) connecting a user (2) to the platform (300) in which a voice server (308) asks the user (2) ) to compose an instruction code.   3 - Device according to one of claims 1 to 2 characterized in that the mobile communication device (201) comprises a SIM card (207).   4 - Device according to one of claims 1 to 3 characterized in that the order received is transferred by means of the platform (300) by SMS to the tag.   5 - Device according to one of claims 1 to 4 characterized in that it comprises in a memory (305) mapping data and 2909771 17 in a program memory (314), a program for displaying, on a screen of a computer (25) connected to the platform (300), an image of a map (324) and in this image a location (325) corresponding to the geolocation of the beacon carrier. 5   6 - Device according to one of claims 1 to 5 characterized in that it comprises in a memory mapping data (305) and in a program memory (315), a program for vocally delivering to a telephone handset (21) calling the platform (300), the address (316,317,318,319,320,321) corresponding to the geolocation of the beacon.   7 - Device according to one of claims 1 to 6 characterized in that the tag comprises a load connector receiving the male profile of a charger or a stylus (1a) now off the beacon (200).   8 - Device according to one of claims 1 to 7 characterized in that a screen (220) in the beacon (200), isolates the GSM antenna (201) of the GPS antenna (211).   9 - Device according to one of claims 1 to 8 characterized in that the beacon (200) is provided with a light (225) when it is on and / or active mode. 20   10 - Device according to one of claims 1 to 9 characterized in that the beacon is provided with a buzzer in active mode.   11 - Device according to one of claims 1 to 10 characterized in that one or more areas of life of the beacon carrier being defined in a database (322), an alert is triggered from the user of the device when the tag is powered on and in active mode, is geo located outside one of these areas of life.   12 - Method of implementing the monitoring and locating device characterized in that it comprises the following operations: a carrier is equipped with a beacon under voltage, the beacon, in active mode, receives signals from positioning satellites; - the signals are processed by a microprocessor (214) of the beacon (200) and the beacon sends, via a mobile communication network, information of its position to a platform (300) which stores it in a remote location; vendor database (309), 2909771 18 - position information is transferred from the vendor database to a customer database (323), - position information at the last transfer is translated as a geographic address (316,317,318,319,320,321), a user (2) of the device consults the client database (323), the user (2) of the device gives the platform (300) an order to switch the tag in the ve mode In order to preserve battery life (208), the order is transmitted from the platform (300) to the beacon (200). 10   13 - A method of implementing the device according to claim 12 characterized in that the order is given part of a telephone line (306).   14 - Method of implementation of the device according to one of claims 12 to 13 characterized in that the position information 15 of the beacon (200) during the last transfer is translated in the form of an image (324) designating on a screen the position (325) of the beacon.