FR3049085A1 - COMMUNICATION DEVICE FROM BIOMETRIC DEVICES FOR COMMUNICATING WITH OTHER DEVICES ON THE 443MHZ FREQUENCY BAND AND FOR MAKING AN AUTONOMOUS MESH NETWORK - Google Patents

Abstract

The invention relates to an autonomous and wireless communication device comprising: a 433Mhz transmitter / receiver module; • a directional and short-range communication module; • a unidirectional and long-range communication module; • a module for storing messages waiting; • a module for connecting the device to a satellite connection. The autonomous and wireless communication device is configured to enable a plurality of biometric devices, whether or not they are integrated in telephones, to create on the one hand an autonomous mesh network of communication and on the other hand initialize NFC (Near Field Communication) type transactions with other devices capable of receiving said transactions.

Description

INTRODUCTION

The present invention relates to the field of autonomous mesh networks. More particularly, the invention relates to means enabling biometric devices to communicate with other biometric devices or not capable of receiving said communications.

Current biometric devices, such as fingerprint recognition systems embedded in mobile phones, have known limitations. In particular, it is possible to communicate via WiFi networks - acronym for "Wireless Fidelity" - or even a GSM network, which stands for "Global System for Mobile Communication" - between different mobile phones, but none currently allows the use of a biometric authentication performed on one of these devices as part of an authentication. Other devices to overcome these limitations are thus known. In particular, it is possible to perform a biometric authentication via a Bluetooth connection, however these devices require at least a prior registration of the Bluetooth device and none use the frequency band mainly open on the Planet as the frequency 433Mhz, none also allows to achieve an autonomous mesh network capable of communicating step by step with other biometric devices or even use this frequency to achieve near field communications such as NFC. This is why there is a need for means of communication from biometric devices, making it possible to use the frequency most widely open on the planet, making it possible to create an autonomous mesh network in order to transmit authentications beyond the scope of a given transmitter device and making it possible to carry out transactions from near field communications.

One of the objects of this invention is to enable biometric devices to communicate with other devices on the 443Mhz frequency band. Another object is to make it possible to produce an autonomous mesh network from said biometric devices. Another object of this invention is to allow initiating transactions through a communication in close fields. Another object is to allow the integration of the communication module inside a phone.

BRIEF DESCRIPTION OF THE FIGURES Other features and advantages of the present invention will appear, in the following description of embodiments, with reference to the accompanying drawings, in which: [Figure 1] schematic views of the profile and face of the device of FIG. positioning according to one embodiment of the invention, when a 5 mm wide finger and a 25 mm wide finger is inserted; [Figure 2] schematic views of the positioning device according to one embodiment of the invention, integrated with a telephone whose screen is arranged around or above the positioning device; [Figure 3] schematic view of the communications between the different components of a biometric device according to one embodiment of the invention; [Figure 4] schematic view of the long-range (PLO) and short-range (OCP) propagation between the different biometric devices according to one embodiment of the invention.

DETAILED DESCRIPTION

With reference in particular to FIG. 4, an autonomous and wireless communication device according to one embodiment of the invention will now be described.

The communication device (5) comprises a transmitter and receiver module 433Mhz (1) autonomous and wireless communication, the communication module comprising means adapted to allow data exchange, via at least one radio link without fi; said communication module makes it possible to broadcast, receive, interrogate and redisseminate the public information on the transactions transmitted by said communication modules of said biometric devices in the vicinity, including said device itself; said communication module is configured to create an autonomous mesh communication network capable of: • filling the inaccessibility of at least part of the information available on the decentralized network of message chains accessible for example through the Internet network; a group of isolated individuals using said device (5) to be able to continue trading transactions using said device while having information about the transactions involved - Figure 4; • allow the exchange of encrypted messages step by step through said mesh network between at least one individual; • propagate on the receiving devices (DR) transactions pending transmission propagated by other devices (5) around when it is connected to said network, for example the Internet; • interrogate devices around for example the presence and content of a given transaction. All information passing through said network module is either public to the receiving devices or encrypted between at least one individual or at least one receiving device (DR) so that no confidential information comes to be disclosed.

The communication device (5) comprises: • a 433Mhz transmitter / receiver module (1) • a short-range directional antenna (3) • a long-range unidirectional antenna (2) • a calculation module (4) • a zone memory (MM) • a micro-USB socket (USBF)

FIG. 4 shows transactions broadcast to the surrounding devices, the device integrates a communication module (5) operating in the 433Mhz band. This band being largely free on the whole of the Planet. The device integrates a transmitter and a receiver as well as two active antennas. The first antenna (3), limited in terms of transmission / reception only operates a few tens of centimeters (also known as NFC: near-field communication) and is used to detect and initialize transactions without contact around, this antenna (3) is also directional. The second antenna (2), not flanged, will issue transactions to a hundred meters on cleared land nearby thus maximizing the chances for a transaction to reach the network hosting the receiving devices (DR), for example a traveler passing through a remote village will recover the pending transactions for distribution as it passes through his hotel. This autonomous mesh network will also, without connection to the Internet network to exchange messages nearby (directly or through other devices) such as emails or instant messages.

This radio transmission / reception is deactivated during biometric measurements as well as when the device is disconnected from the phone. The innovation in this device is to allow a set of devices to be able to operate almost autonomously through a mesh network - for example in a remote village in the world - by allowing devices in the vicinity to be able to know the state of transactions without reducing their confidentiality. The device (DB) via the additional USB (USBF) connection further enables the host system to be connected to a satellite transceiver enabling it to receive and transmit messages (MSG) via a satellite connection.

FIG. 1 represents the autonomous and wireless communication device (5) integrated in a biometric measurement device (DB) according to one embodiment of the invention.

FIG. 2 represents, in addition, the autonomous and wireless communication device (5) integrated into a telephone according to one embodiment of the invention.

Claims (7)

1) A wireless and autonomous communication device, characterized by its integration in a device for at least one biometric measurement, comprising means adapted to allow data exchange, via at least one wireless radio link on at least one broadcast frequency band between 433Mhz and 440Mhz; said communication device is configured to broadcast, receive, interrogate, inform and rebroadcast messages from or to said at least one device for at least one biometric measurement; said communication device is configured to create a standalone mesh communication network. 2) Device according to claim 1, wherein the communication device further comprises a short-range and directional antenna configured to establish communication with at least one device at a short distance 3) Device according to claims 1 and 2, wherein the communication device further comprises a long-range and unidirectional antenna configured to establish a communication over a large distance from or to a device. 4) Device according to claims 1, 2 and 3, wherein the communication device further comprises a long-range antenna and unidirectional, configured to establish a communication over a long distance from or to said at least one device allowing the less a biometric measure. 5) Device according to claims 1, 2 and 3, wherein the communication device is configured to be integrated in a telephone. 6) Device according to any one of the preceding claims, wherein the communication device is configured to use at least one other type of network to retrieve and transmit transactions to a global network. 7) Device according to any one of the preceding claims, wherein the communication device is configured to use at least one satellite type connection to retrieve and transmit transactions to a global network.