FR3016446A1 - METHOD FOR TELETRANSMISSION OF INFORMATION - Google Patents

Abstract

The present invention relates to a method and a computer program for remote transmission of information implementing a mobile device SUi provided with radiocommunication means, comprising steps of acquiring at least one information transmitted when said mobile device SUi is located in a coverage area of a teletransmission signal characterized in that it furthermore comprises, in the absence of coverage of said teletransmission signal, steps for establishing a dialogue with another mobile device SVj by a communication at short distance, to receive on the mobile device SUi at least one information recorded on said other mobile device SVj.

Description

FIELD OF THE INVENTION The present invention relates to the field of teletransmission enabling a user to access information on a mobile device, typically a pocket terminal. The information transmitted is for example geolocation information, climate information or alert.

State of the art It is known in the state of the art patent WO 2013063121 describing a mobile device in use as a mobile beacon and proxy for a location device capable of tracking an object, including a pet. The mobile device can act as a beacon that sends messages to the location device via a short-range communications link. If the location device does not receive the messages sent by the mobile device, it can be assumed that the pet has disappeared and, in response, the location device can contact a location server with its location information via a network. extended wireless (WWAN). In addition, the mobile device may act as a proxy of the location device by transmitting and receiving data to / from the location server using its own communication interface on behalf of the location device. This helps to save the battery power of the location device because it does not use its own WWAN interface. Disadvantages of the Prior Art The solution of the prior art has the disadvantage of operating only when the mobile equipment is in a radio coverage area. Indeed, if the WWAN interface is not able to communicate with the server, the location is impossible. Moreover, this solution makes it possible to signal to a remote server the geolocation of a localization device, but does not allow the display on a mobile device of information coming from a server. Solutions proposed by the invention. In order to remedy this drawback, the invention relates, according to its most general meaning, to an information transmission process using a mobile device SUi equipped with radiocommunication means, comprising steps for acquiring at least one piece of information. teletransmits 20 when said mobile device SUi is located in a coverage area of a teletransmission signal characterized in that it further comprises, in the absence of coverage of said remote transmission signal, steps of establishing a dialogue with another mobile device SV] by a short-distance communication, to receive on the mobile device SSI at least one information recorded on said other mobile device SVP. The term "remote transmission" is understood to mean the remote transmission of information, by means of long distance radiocommunication, greater than 50 meters, for example according to a WIMAX, GPS, UMTS and LTE standard. The term "short-distance communication" is understood to mean the remote transmission of information, by means of short-range radiocommunication means, for distances of less than 50 meters, for example according to a Bluetooth or WiFi standard. According to a particular embodiment, the invention relates to a location method implementing a mobile device SU, provided with radio communication means characterized in that it comprises geolocation steps when said mobile device SU, is located in a coverage area of a geolocation signal in that it further comprises, in the absence of coverage of said geolocation signal, steps of establishing a dialogue with another mobile device SVi by a short communication remote, to receive on the mobile device SU, at least one location information recorded on said other mobile device SV. According to a variant, the method comprises a step of comparison between the information stored in the memory of the device SU, and the information recorded on a mobile device SVP and recording the most relevant information. Preferably, the relevancy calculation is a function of the respective hours of recording of the last information of SU, and the last information of SVP. According to one variant, the calculation of relevance is carried out on the mobile device SV; as a function of the time of the last recording of the recorded information and the time of establishment of said dialogue. According to another variant, the relevance calculation is performed on the mobile device SVy as a function of the user's movement activity from the place of recording of the information. The invention also relates to a method of remote transmission, in particular of geolocation, characterized in that a commanding computer application is executed on each of the devices SU, and SVP, when the device is outside a coverage area. and that, prior to a predetermined time, it has recorded information, periodically transmitting a declaration signal, the application also commanding, when detecting a declaration signal, establishing said dialogue to transfer the information recorded from the mobile device declaring to the mobile device SUi. The invention also relates to a computer program capable of being recorded in the memory of a mobile device, characterized in that it controls the execution by the processor of said mobile device of steps for acquiring at least one piece of information. teletransmitted when said mobile device SU, is located in a coverage area of a teletransmission signal and, in the absence of coverage of said teletransmission signal, steps of establishing a dialogue with another mobile device SV; by a short-distance communication, to receive on the mobile device SU, at least one information recorded on said other mobile device SV. The invention also relates to a system for implementing the method comprising a plurality of individual mobile devices SV; on which is recorded a computer program referred to above and a plurality of vehicles having radiocommunication means capable of establishing a dialogue with said individual mobile devices SV; and transmit at least one piece of information when there is no teletransmission coverage. DETAILED DESCRIPTION OF AN EMBODIMENT OF THE INVENTION The invention will be better understood on reading the detailed description which follows, relating to a nonlimiting exemplary embodiment, with reference to the appended drawing, in which FIG. schematic view of the teletransmission process. The invention is implemented using a software library installed on mobile terminals operating the iOS operating system. The architecture of the components used is shown in FIG. 1. The implementation comprises a preliminary phase and an active phase for each of the users SUi and SVj and then a common phase of interactions between SUi and SVj. SUi preliminary phase The SUi user usually uses the Ai metro station. This information is provided by the user during a prior declaration or following the observation of his movements. The GPS coordinates of metro station A are (latAi, longAi). The software library is initialized with the GPS coordinates of the subway station A 1 and a procedure p intended to receive the updates of the user's position. The initialization of the software library creates a geographical barrier around the subway station A 1 by registering an instance of CLRegion named "regionA" corresponding to a circle 100m in diameter centered on the position (latAi, longAi). - 6 - An instance of CLLocationManagerDelegate named "locationManagerDelegateA" is designated to receive the crossing events of "regionA".

Active phase of SUi The user SU, crosses the geographical barrier around the subway station A ,. The operating system of the SU terminal, sends to "locationManagerDelegateA" the crossing event of 10 "regionA". "locationManagerDelegateA" then requests the operating system to receive updates of the user's location. "locationManagerDelegateA" receives the user's timestamped location 15. This position is at the p procedure provided when initializing the library. The user SU, is traveling on a train that directs towards the station Mi.

The train then enters a tunnel now being geolocated by the CLLocationManager. "locationManagerDelegateA" receives an error message stating that geo-positioning could not be updated. "locationManagerDelegateA" creates: 25 - An instance of MCSession named "oessionGPS" whose serviceType is "NearbyPeerGPS", as well as instances of MCNearbyServicetrowser and MCNearbyServiceAdvertiser that allow other participants, associated with the software library, 30 to join automatically "sessionGPS". - An instance of MCSessionDelegate named "sessionDelegateA" is designated to receive status change events from participants at "sessionGPS". 35 - SITI Preliminary Phase User SVj is accustomed to using underground subway station M]. This information is provided by the user during a prior declaration or following the observation of his movements. The GPS coordinates of the metro station M are (latMj, longMj). The software library is initialized with the GPS coordinates of the Mj metro station.

The initialization of the software library creates a geographical barrier around the metro station M by recording an instance of CLRegion named "regionM" corresponding to a circle 100m in diameter centered on the position (latMj, longMj).

An instance of CLLocationManagerDelegate named "locationManagerDelegateM" is designated to receive the crossing events of "regionM". SVi active phase 20 The user SVj crosses the geographical barrier around the subway station Mj. The SVJ terminal operating system sends "locationManagerDelegateM" the crossing event of "regionM". 25 "locationManagerDelegateM" then requests the operating system to receive updates of the user's location. "locationManagerDelegateM" receives the user's timestamped geographic position. This position is recorded as (latMj, longMj, tMj). The SVj user enters the Mj subway station. "locationManagerDelegateM" receives an error message indicating that the geographic position could not be updated. - 8 - "locationManagerDelegateM" then creates: - An instance of MCSession named "sessionGPS" whose serviceType is "NearbyPeerGPS", as well as instances of MCNearbyServiceBrowser and MCNearbyServiceAdvertiser that allow other participants, associated with the software library, to join automatically "sessionGPS". - An instance of MCSessionDelegate, maintaining the position (latM ,, longM ,, tM,), and named "sessionDelegateM" is designated to receive the status change events of the participants at "sessionGPS". - A procedure to collect the ac activity of the SV user, determined by the CMMotionActivityManager. - A procedure to collect from the CMStepCounter the number of steps taken by the user SV ,. The session "sessionGPS" is interrupted if one of the following conditions occurs: - The ac activity of the user SV, is not the stationary state or the step. - The number of steps taken by the user is greater than 500. 25 - The time elapsed since the creation of "sessionGPS" is greater than 15 minutes. Common phase at eri and SU; The train in which the user SUi 30 travels reaches the subway station Mi. The user SV, is in front of the doors of this train. The terminals of the users SUi and SV, then detect the presence of MCSession instances with the same serviceType "NearbyPeerGPS". - 9 - The instances of MCNearbyServiceBrowser and MCNearbyServiceAdvertiser of each of the sessions then establish a correspondence between the "sessionGPS" instances of SUi and SVj. SVj "sessionDelegateM" receives the event describing the "sessionGPS" participation of the MCPeerID instance named "peerUi" corresponding to the SUi terminal. "sessionDelegateM" stores the value tj corresponding to the date and the current time of the presence of the train in the station Mj. "sessionDelegateM" sends the information (latM5, longM5, t.) to "peerUi". "sessionDelegateA" then receives the information (latM5, longM5, tj) which is transmitted to the provided procedure p when the library is initialized If there are several SU 'SU1, SU users, traveling on board the train , a match is established between the "sessionGPS" instances of SU 'SU1, SU, and SVP.

The information (latM5, longM5, tj) is thus propagated identically to SU 'SU1, where SUn meets several users SVo, SVI. SV, during its journey, a correspondence is established successively between the "sessionGPS" instances of SUi and SV '25 SV1, SV ,. The information (latMo, longm 't,), (latM1, t1), (latM' longM 't') are thus obtained throughout the SUi path. The present realization is based on the "Multipeer Connectivity" technology of the iOS system. This has the following advantages: - simplified management of sessions, - taking into account heterogeneous short-distance communications (Bluetooth as well as WiFi) within the same session. An embodiment implementing only the central or peripheral mode of Bluetooth would be desirable to establish distance-to-distance communication between mobile terminals operating on different operating systems.

Claims (9)

CLAIMS1 - Method for remote data transmission using a mobile device SUi provided with radiocommunication means, comprising steps of acquiring at least one information transmitted when said mobile device SUi is located in a coverage area of a signal remote transmission characterized in that it further comprises, in the absence of coverage of said teletransmission signal, steps of establishing a dialogue with another mobile device SV; by a short-distance communication, for receiving on the mobile device SUi at least one information recorded on said other mobile device SV ;. 2 - Locating method using a mobile device SUi provided with radiocommunication means according to claim 1 characterized in that it comprises geolocation steps when said mobile device SUi is located in a coverage area of a geolocation signal in that it further comprises, in the absence of coverage of said geolocation signal, steps of establishing a dialogue with another mobile device SV; by a short-distance communication, for receiving on the mobile device SUi at least one location information recorded on said other mobile device SV. 3 - Location method according to claim 1 or 2 characterized in that it comprises a step of comparing the information stored in the memory of the device SUi and the information recorded on a mobile device SV; and recording the most relevant information. 4 - Location method according to claim 35, characterized in that the calculation of relevance is a function of the respective hours of recording of the last information of SU, and the last information of SVj. 5 - Location method according to claim 3 characterized in that, the calculation of relevance is performed on the mobile device SVi, depending on the user SVi's movement activity from the place of registration of the information . 6 - A method of remote transmission according to claim 3 characterized in that the calculation of relevance is performed on the mobile device SVP, depending on the time of the last record of the recorded information and the time of establishment of said dialogue. 7 - Method of remote transmission, including geolocation according to any one of the preceding claims, characterized in that one executes on each of the devices SU, and SVP a computer application commander, when the device is outside a zone of cover and that it has recorded before a predetermined time information, the periodic issuance of a declaration signal, the application also commanding, when detecting a declaration signal, establishing said dialog to transfer the information recorded from the mobile device declaring to the mobile device SU,. 8 - A computer program capable of being recorded in the memory of a mobile device, characterized in that it controls the execution by the processor of said mobile device of steps of acquisition of at least one information transmitted when said mobile device SU, is located in a coverage area of a teletransmission signal and, in the absence of coverage of said teletransmission signal, steps of establishing a dialogue with another mobile device SVi by short-distance communication, for receiving on the mobile device SUi at least one information recorded on said other mobile device SVJ. 9 - System for implementing the method according to at least one of claims 1 to 7 characterized in that it comprises a plurality of individual mobile devices SVi on which is recorded a computer program according to claim 8 , as well as a plurality of vehicles comprising radiocommunication means able to establish a dialogue with said individual mobile devices SVi and transmit at least one piece of information when there is no teletransmission coverage.