EP3479487A1 - Detection and communication system for mobile devices. - Google Patents

Abstract

Detection and communication system for mobile devices, comprising at least two mobile devices (D1, D2), of the mobile telephone, tablet, connected watch or similar type, each mobile device being equipped with means of long-range communication, of the wifi type, and with means of short-range communication, of the Bluetooth® type, said system comprising an identification platform allowing the users to identify their mobile devices, characterized in that said system detects all the mobile devices identified on said identification platform which enter the fields of said long- and/or short-range communication means, and in that, in the absence of a telephone communication network, notably of the 2G, 3G, 4G, 5G, UMTS, GPRS, EDGE type, said long-range communication means push the signals of said short-range communication means, in such a way that two identified mobile devices can, inside the fields of said long-range communication means, communicate via their short-range communication means, even beyond the range of said short-range communication means.

Description

 Detection and communication system for mobile devices

 The present invention relates to a detection and communication system for mobile devices.

 Conventionally, mobile devices, such as mobile phones, tablets, connected watches or the like, can be detected and communicate remotely either via the telephone network, including 2G, 3G, 4G, 5G antenna arrays. GPRS (General Packet Radio Service), EDGE (Enhanced Data Rates for GSM Evolution), UMTS (Universal Mobile Telecommunications System), etc., or via long-distance wireless communication protocols, including Wi-Fi, or short distance, especially the Bluetooth® type. Typically, the range of WiFi type networks is of the order of a few hundred meters, while that of Bluetooth® type networks is of the order of a few tens of meters. Social networks, such as Facebook® or similar, include identification platforms that allow users to identify themselves and thus communicate with other users also identified. This communication uses either the telephone networks or the networks of the wifi type. For the detection of mobile devices, GPS (Global Positioning System) signals are generally used. In the absence of telephone networks, and in the absence of GPS signals, only the networks of the wifi and Bluetooth® type are therefore available. This can then pose communication problems between the mobile devices, and can make the detection of mobile devices impossible, typically in enclosed basement locations, such as bars or discotheques, or in stadiums or theaters.

 The present invention aims to provide a detection and communication system for mobile devices that does not reproduce the disadvantages of existing systems.

The present invention also aims to provide a detection and communication system for mobile devices which allows mobile devices to communicate even in the absence of telephone network.

 The present invention also aims to provide a detection and communication system for mobile devices that can detect mobile devices even in the absence of telephone network and / or GPS signal.

 The present invention also aims to provide a detection and communication system for mobile devices that is simple and inexpensive to implement and use.

 The present therefore relates to a detection and communication system for mobile devices, comprising at least two mobile devices, of the mobile phone, tablet, connected watch or similar type, each mobile device being equipped with long-distance communication means, of the wifi type. , and short-distance communication means of the Bluetooth® type, said system comprising an identification platform enabling users to identify their mobile devices, characterized in that said system detects all the mobile devices identified on said identification platform which enter the fields of said large and / or short distance communication means, and that, in the absence of a telephone communication network, in particular of the 2G, 3G, 4G, 5G, UMTS, GPRS, EDGE type, said long-distance communication means pushes the signals of said short-distance communication means, so that two Mobile idifiers can, within the field of said long-distance communication means, communicate via their short-distance communication means, even beyond the range of said short-distance communication means.

 Advantageously, said identification platform is connected to at least one social network of Facebook® type.

Advantageously, the Bluetooth is type 1, 2,3,4, especially at the frequency 2.4 GHZ. Advantageously, the wifi is based on the 802.1 1 standard, at a frequency of 2.4 to 5 GHZ, and in particular in the forms A, B, G, N, AC, AD, AH.

 Advantageously, the Bluetooth® and the wifi are added for each mobile device, thus creating an antenna specific to each mobile device.

 Advantageously, the data transfer rate between mobile devices in communication is of the order of 10 to 20 kbps / s, typically approx. 15 kbps / s.

 Advantageously, the system comprises a mobile application installed on each mobile device.

 These and other features and advantages will appear more clearly in the following detailed description, with reference to the accompanying drawings, given as non-limiting examples, and in which:

 FIG. 1 is a simplified diagram of the operating principle of a communication system using the telephone network,

FIG. 2 is a similar diagram illustrating two mobile devices without access to the telephone network,

 FIG. 3 is a diagram illustrating the detection of a mobile device with a detection and communication system for mobile devices according to an advantageous embodiment of the present invention, and

 FIG. 4 is a diagram illustrating the communication between two mobile devices with a detection and communication system for mobile devices according to an advantageous embodiment of the present invention.

Figure 1 illustrates the conventional operation of two mobile devices (or peripherals) connected to the same antenna A of a telephone network. This antenna A can conventionally be a 2G antenna, 3G, 4G, 5G, UMTS, GPRS, EDGE, etc. Of course, any number of mobile devices can connect simultaneously. The antenna in emission pushes a signal to allow the mobile devices to hang the antenna.

 Thus, the mobile devices D1 and D2 need the antenna A to capture the same frequency and thus communicate.

 Figure 2 shows two mobile devices that are not connected to a telephone network. The two mobile devices comprise long-distance communication means, of the wifi type, and short-distance communication means of the Bluetooth® type.

 Bluetooth® can be in particular of type 1, 2,3,4 (in particular with the frequency 2,4 GHZ) and the wifi can be based on the norm 802.1 1 (with a frequency of 2,4 to 5 GHZ) and in particular in the forms

A, B, G, N, AC, AD, AH.

 The system includes an identification platform that allows users to identify their mobile devices. Advantageously, this identification platform is based on existing social networks, such as for example Facebook®, Linkedin®, Viadeo® or the like. The user can therefore identify himself on the identification platform for example with his Facebook® account. This simplifies the connection and identification.

 According to the invention, said system detects all the mobile devices identified on said identification platform that enter the fields of the wifi and / or Bluetooth®. This detection does not require a telephone network or a GPS signal.

 If a telephone network is available, particularly of type 2G, 3G,

4G, 5G, UMTS, GPRS, EDGE, each mobile device can communicate through said telephone network with one or more of the detected mobile devices.

In the absence of such a telephone communication network, the wifi pushes the Bluetooth® signals, so that two mobile devices identified can, within the field of the wifi, communicate via Bluetooth®, even beyond the range of said Bluetooth®. The present invention makes it possible to add the bluetooth® and wifi antennas for each mobile device, thus creating an antenna specific to each mobile device.

 Thus, the mobile devices using the system of the invention can have their own signaling and communication antennas, detectable by each identified mobile device located in the fields of wifi and / or Bluetooth®.

 Advantageously, the system of the invention, to allow communication between two mobile devices D1 and D2, requires only 10-20 kbps / s of transfer rate, preferably about 15 kbps / s, to be able to operate, and it is therefore possible to hang a signal several hundred meters to communicate.

 The signal carrier is related to the quality of each mobile device. The present invention is thus positioned before the conventional social networks, of the Facebook® type. It allows to create a clean network, by detection wifi and / or Bluetooth®. The wireless pushing Bluetooth®, we can extend the range of Bluetooth® to several hundred meters.

 Each user can set up his account, either on the identification platform, or via a classic social network of the Facebook® type.

 The system of the invention thus makes it possible to detect identified mobile devices that pass close to oneself, even in the absence of telephone network and / or GPS signal. These detected mobile devices can communicate as long as they are in the fields of wifi and / or Bluetooth®. They can also simply be listed when they are detected and then available to communicate when a phone network becomes available or during a synchronization.

Thus, for example during a journey by train, the system of the invention makes it possible to list all the identified mobile devices that have passed close to you all along the journey. At the end of the trip, the user can see the profiles of each of these mobile devices and communicate if he wishes. Similarly, in a disco in the basement, where there is no telephone network or GPS, the system of the invention can detect all mobile devices identified, and communicate with them through wifi and / or Bluetooth. If users have entered their Facebook® addresses or similar, they can subsequently communicate classically via said social network. The present invention thus facilitates the construction and development of its network.

 Advantageously, the system of the invention is associated with a mobile application, which can be installed on any type of mobile device.

 The present invention has been described with reference to an advantageous embodiment, but it is understood that a person skilled in the art can make any modifications, without departing from the scope of the present invention as defined by the appended claims.

Claims

claims

1. - Detection and communication system for mobile devices, comprising at least two mobile devices (D1, D2), mobile phone type, tablet, connected watch or the like, each mobile device being equipped with long-distance communication means, wifi type, and Bluetooth®-type short-distance communication means, said system comprising an identification platform enabling users to identify their mobile devices, characterized in that said system detects all the mobile devices identified on said identification platform which enter in the fields of said large and / or short distance communication means, and in the absence of a telephone communication network, in particular of the 2G, 3G, 4G, 5G, UMTS, GPRS or EDGE type, long-distance communication means push the signals of said short-distance communication means, so that two mobile devices identified In the field of said long-distance communication means, they can communicate via their short-distance communication means even beyond the range of said short-distance communication means.

2. - System according to claim 1, wherein said identification platform is connected to at least one social network type Facebook®.

3. - System according to claim 1 or 2, wherein the Bluetooth is type 1, 2,3,4, in particular at the frequency 2.4 GHZ.

4. - System according to any one of the preceding claims, wherein the wifi is based on the 802.1 1 standard, at a frequency of 2.4 to 5 GHZ, and especially in the forms A, B, G, N, AC, AD, AH.

5. - System according to any one of the preceding claims, wherein the Bluetooth® and wifi are added for each mobile device, thereby creating an antenna specific to each mobile device.

6. - System according to any one of the preceding claims, wherein the data transfer rate between mobile devices (D1, D2) in communication is of the order of 10 to 20 kbps / s, typically approx. 15 kbps / s.

7. - System according to any one of the preceding claims, comprising a mobile application installed on each mobile device.