FR2964486A1 - Mobile terminal i.e. cellular radio terminal, has radio frequency identification tag configuration application launched when detected radio frequency identification tag is determined to be blank by determination unit - Google Patents

Abstract

The terminal (1.1) has a detection unit for detecting presence of radio frequency identification tag (1.4). A determination unit determines blank character of the detected radio frequency identification tag when the presence of the tag is detected. Radio frequency identification tag configuration application is launched when the detected tag is determined to be blank by the determination unit. A near-field communication unit exchanges data with the radiofrequency tag. The detection and the configuration units are adapted for utilizing the near-field communication unit. Independent claims are also included for the following: (1) a method for configuring a radio frequency identification tag utilized by a mobile terminal (2) a computer program comprising instructions for implementing a method for configuring a radio frequency identification tag (3) a storage unit storing a computer program comprising instructions for implementing a method for configuring a radio frequency identification tag.

Description

The present invention relates to a mobile terminal comprising means for detecting the presence of a radio tag. The present invention also relates to a method implemented by this mobile terminal. The present invention also relates to a computer program for implementing the method and storage means storing such a computer program. Radio Frequency Identification (RFID) technology is used to store data on RFID tags or RFID tags. This technology includes several standards, corresponding to several frequencies used (13.56 MHz, 915 MHz, 2.45 GHz, etc.). The ISO 14443 A & B standards, more generally known as Near Field Communication (NFC) can for example be implemented. Radio tags are small objects, such as self-adhesive labels, which can be glued or incorporated into objects. For example, these objects may be in the form of a card. The RFID tags include an antenna associated with an electronic chip, which allows them to receive and respond to radio requests sent from an RFID reader / configurator, sometimes referred to as only a tag reader or RFID reader.

An RFID reader / configurator emits radio frequencies that activate any radio tag that is within transmission range. A radio-tag is generally a passive device requiring no on-board power source, the energy required for its operation being provided by a reader / configurator within range of which it is located.

A user may have a plurality of radio tags. These radio tags allow him to mark objects to identify them electronically. They can also, when provided by banking organizations, serve to identify the user during banking or commercial transactions. In particular, they can be used to store usage profiles, which make it possible to configure mobile terminals comprising an RFID reader. In this case of use, the user positions a radio-tag containing such a profile within range of the RFID reader of his mobile terminal. The latter detects the radio-label, obtains the profile stored on the radio-label and loads the profile thus obtained.

However, the user may find himself in the situation where he is unable to determine which of the radio-labels he has available which are blank and which allow him to store new profiles, or more generally new data. Blank radio-labels means a radio-tag that has no data or incomplete data. For example, a radio tag with only one identification number is considered blank. In addition, configuring a blank radio-tag can be tedious, especially for a user unfamiliar with this type of technology. He must indeed go through various menus to successfully launch the appropriate application that can configure its tags. The configuration of a radio-tag means storing data which, when read by a radio-tag reader, causes an action to be performed by an application of a mobile terminal to which the reader radio-tag belongs.

It is desirable to overcome these various disadvantages of the state of the art. In particular, it is desirable to provide a solution that makes it easy to configure a blank radio tag. In particular, it is desirable to provide a solution that allows a user to easily determine whether a radio tag is blank or if it is an already configured radio tag. It is particularly desirable to provide a solution that is simple to implement and low cost. The invention relates to a mobile terminal comprising radio tag presence detection means, characterized in that it further comprises: determination means, when the presence of a radio tag is detected by the means detection, virgin nature of the radio-tag detected; a radio tag configuration application, said application being launched when the detected radio tag is determined to be blank by the determination means. Thus, a user can easily determine if the radio tag is blank or if it is a radio tag already configured, and it is possible for him to easily configure this radio tag if it is blank.

According to a particular embodiment, the mobile terminal being of the type comprising near-field communication means for exchanging data with radio-tags, the detection means and the configuration means are adapted to use said means of communication in the field .

Thus, the configuration of the radio-tag is only possible if it is positioned at a small distance, for example less than 10 centimeters, from the mobile terminal. According to a particular embodiment, the radio tag configuration application comprises means for selecting a type of configuration from a predefined list of configuration types. Thus, the user can quickly reach the desired radio-tag configuration. According to a particular embodiment, the means for launching the radio tag configuration application comprise means for requesting confirmation from a user to actually launch the radio tag configuration application. Thus, the user can easily determine if the radio-tag is blank, and if his desire was not to configure a blank radio-tag, but to use an already configured tag-tag, this confirmation request allows the tag to be blank. mobile terminal does not inadvertently launch the configuration application.

According to a particular embodiment, the mobile terminal is a cellular radio terminal. The invention also relates to a radio-tag configuration method implemented by a mobile terminal, said method comprising the following steps of: - detection of presence of radio-tag; determination, when the presence of a radio tag is detected during the detection step, of the blank character of the detected radio-tag; - launching, on the mobile terminal, a radio-tag configuration application, when the radio-tag is determined to be blank.

According to a particular embodiment, the method comprises a step of selecting a type of configuration from a predefined set of configuration types. According to a particular embodiment, the method is implemented by a cellular radio terminal.

The invention also relates to a computer program, which can be stored on a medium and / or downloaded from a communication network, in order to be read by a computer system or a processor. This computer program includes instructions for implementing the method mentioned above, when said program is executed by a computer system or a processor. The invention also relates to storage means comprising such a computer program. The characteristics of the invention mentioned above, as well as others, will emerge more clearly on reading the following description of an exemplary embodiment, said description being given in relation to the attached drawings, among which: Fig. 1 schematically illustrates a system comprising a mobile terminal and a plurality of radio tags, and wherein the invention can be implemented; FIG. 2 schematically illustrates the architecture of the mobile terminal of the system of FIG. 1; FIG. 3 schematically illustrates the architecture of a radio-tag of the system of FIG. 1; FIG. 4 schematically illustrates an algorithm implemented by the mobile terminal of the system of FIG. 1; FIG. 5 schematically illustrates a radio tag configuration application, initiated by the mobile terminal of the system of FIG. 1, according to one embodiment of the invention. Fig. 1 schematically illustrates a system in which the invention can be implemented.

The system comprises a mobile terminal 1.1 and a plurality of radio tags 1.4. The mobile terminal 1.1 conventionally comprises a screen 1.2 on which a user can view applications and interact with them using a keyboard 1.3. The mobile terminal 1.1 comprises a radio tag reader / configurator, not shown in FIG. 1, which allows it to store data on radio tags 1.4, configure these tags 1.4 and recover the data stored on these tags 1.4. Thus, the mobile terminal 1.1 includes radio tag presence detection means, radio tag reading means and radio tag configuration means. Thus, the mobile terminal 1.1 can exchange data with the radio tags 1.4. The mobile terminal 1.1 is for example a cellular mobile radio terminal, a personal digital assistant PDA (Personal Digital Assistant in English), a personal computer tablet type (Tablet Personal Computer in English, also called Electronic Tablet in French), etc. In a preferred embodiment, the mobile terminal 1.1 is a mobile terminal of cellular radio. The user enters a radio-tag 1.5 and positions it within range of the reader / configurator of the radio-tag of the mobile terminal 1.1. In other words, the user positions the radio-tag 1.5 near the mobile terminal 1.1. The maximum distance separating the radio-tag 1.5 from the mobile terminal 1.1 depends on the RFID technology used. In a particular embodiment, the mobile terminal 1.1 uses a NFC near-field communication to exchange data with the radio tags 1.4. In the context of a NFC near-field communication, this maximum distance is of the order of 10 centimeters. Exchanges can then take place between the radio-tag 1.5 and the mobile terminal 1.1. Fig. 2 schematically illustrates the architecture of the mobile terminal 1.1. The mobile terminal 1.1 comprises, connected by a communication bus 2.1: - a processor, microprocessor, microcontroller (noted μc) or CPU (Central Processing Unit in English or Central Processing Unit in French) 2.2; - Random Access Memory RAM (Random Access Memory in French) 2.3; - a ROM (Read Only Memory in English or Memory to Read Only in French) 2.4; a storage medium reader 2.5, such as a SD (Secure Digital Card) card reader; a radio tag reader / configurator 2.6; interface means 2.7 with a communication network, for example a cellular radiotelephone network; and - 2.8 man-machine interface means, in particular for managing the screen 1.2 and the keyboard 1.3. The microcontroller 2.2 is capable of executing instructions loaded in the RAM 2.3 from the ROM 2.4, an external memory (not shown), a storage medium, such as an SD card or the like, or a communication network. When the mobile terminal 1.1 is turned on, the microcontroller 2.2 is able to read RAM 2.3 instructions and execute them. These instructions form a computer program. This computer program causes the implementation, by the microcontroller 2.2, of all or part of the algorithm described below in relation to FIG. 4. All or part of the algorithm described below in relation to FIG. 4 can be implemented in software form by executing a set of instructions by a programmable machine, such as a DSP (Digital Signal Processor in English or a Digital Signal Processing Unit in French) or a microcontroller, such as the microcontroller 2.2, or be implemented in hardware form by a machine or a dedicated component, such as an FPGA (Field Programmable Gate Array) or an ASIC (Application-Specific Integrated Circuit). or Integrated Circuit Specific to an Application in French). Fig. 3 schematically illustrates the architecture of the radio-tag 1.5. The radio-tag 1.5 comprises: an antenna 3.1; a 3.2 power supply circuit (English Power Supply) and load modulation (Load Modulator); and - a chip 3.3 (Chip in English). The representation of the antenna 3.1 as an external antenna to the radio-tag 1.5 is of course schematic. In the context of RFID technology, the antenna 3.1 is typically internal to the radio-tag 1.5. In the case where the radio tag 1.5 uses NFC communication to exchange data with the mobile terminal 1.1, the power supply and charge modulation circuit 3.2 uses the energy provided by the radio frequency signals transmitted by the reader / configurator 2.6 of the mobile terminal 1.1 to supply the chip 3.3. The radio frequency signals transmitted by the reader / configurator 2.6 of the mobile terminal 1.1 thus provide enough energy for the chip 3.3 to decode the information received via these signals, process this information and generate signals in response. Fig. 4 schematically illustrates an algorithm implemented by the mobile terminal 1.1.

In a step 4.1, the mobile terminal 1.1 determines whether the presence of a radio tag is detected, that is to say that a radio-tag is within range of the reader / configurator 2.6 of the mobile terminal radio-tag 1.1. If the presence of any tag radio is detected, step 4.1 is repeated; otherwise a step 4.2 is executed. In step 4.2, the mobile terminal 1.1 makes an attempt to read any data stored by the detected radio tag 1.5. In other words, the RFID reader / configurator 2.6 of the mobile terminal 1.1 transmits radio frequency signals corresponding to a request to obtain any data stored by the radio-tag 1.5. In a next step 4.3, the mobile terminal 1.1 determines whether the radio-tag 1.5 is blank or contains data. In the case where the radio-tag 1.5 is blank, the mobile terminal 1.1 performs a step 4.5, otherwise it performs a step 4.4.

In step 4.4, the mobile terminal 1.1 performs an action in accordance with the data read from the radio-tag 1.5. For example, if the tag-tag 1.5 contains a virtual card VCARD (Virtual Card) containing the coordinates of a person, the mobile terminal 1.1 displays this virtual card and can offer options to the user. These options may consist in: storing the virtual card in an electronic address book included in the mobile terminal 1.1; - contact the person by telephone number or an e-mail address in the virtual card; - etc.

Other actions are of course possible depending on the data read from the radio-tag 1.5, such as for example the loading of a usage profile stored on the radio-tag 1.5. Once the step 4.4 has been executed, the mobile terminal 1.1 again implements step 4.1, and resumes waiting for a radio tag detection. The terminal 1.1 may, before implementing step 4.1 again, carry out a predefined duration waiting step, in order to allow time for the user to position the radio-tag 1.5 out of range of the reader / configurator 2.6 of the mobile terminal's radio-tag 1.1.

In step 4.5, the mobile terminal 1.1 initiates a radio tag configuration application. Thus, the user can easily configure a blank radio-label, without having to navigate menus proposed by the mobile terminal 1.1 via its screen 1.2. An example of a radio tag configuration application is described below in connection with FIG. 5. The mobile terminal 1.1 may first require confirmation from the user to actually launch the radio tag configuration application. Thus, the user knows that the radio-tag is blank, and can easily configure it by confirming the launch of the configuration application. It can also invalidate the launch of the configuration application and position another radio-tag within reach of the mobile terminal reader / configurator 2.6 of the mobile terminal 1.1. In a subsequent step 4.6, the mobile terminal 1.1 obtains a configuration of radio-tag. This configuration can be set automatically or manually. An example of a configuration defined manually, that is to say by interaction with the user, is presented below in relation with FIG. 5. In the case of an automatic configuration, the mobile terminal 1.1 can obtain the data necessary for this automatic configuration from the ROM 2.4 and store them on the radio-tag 1.5.

In a subsequent step 4.7, the mobile terminal 1.1 requires a write on the radio-tag 1.5, the configuration obtained in step 4.6. In other words, the radio tag reader / configurator 2.6 of the mobile terminal 1.1 transmits radio frequency signals corresponding to a data storage request relating to the configuration obtained in step 4.6. These radiofrequency signals are then received by the radio tag 1.5, which then stores the configuration transmitted by the reader / configurator 2.6 via these signals. Once step 4.7 has been executed, the mobile terminal 1.1 again implements step 4.1, and resumes waiting for a radio tag detection. The terminal 1.1 may, before implementing step 4.1 again, carry out a predefined duration waiting step, in order to allow time for the user to position the radio-tag 1.5 out of range of the reader / configurator 2.6 of the mobile terminal's radio-tag 1.1. Fig. 5 schematically illustrates a radio tag configuration application launched by the mobile terminal 1.1 in step 4.5 already described.

On the screen 1.2 is displayed a 5.1 radio tag configuration application. The radio tag configuration application 5.1 allows the user of the mobile terminal 1.1 to select a type of configuration from a predefined list of configuration types. The user can navigate through the predefined list of configuration types and can select a configuration, using the 1.3 keyboard. According to a first example, the predefined list makes it possible to configure the tag-tag 1.5 to store a VCARD virtual card, by selecting the configuration type 5.2. When the radio-tag 1.5 thus configured is positioned within range of an RFID or NFC reader, depending on the technology used, a mobile terminal can thus provide the mobile terminal with the stored virtual card, for example to enrich an address book stored in the mobile terminal. This allows a person to easily and quickly give his contact information to a user of the mobile terminal.

According to a second example, the predefined list makes it possible to configure the radio-tag 1.5 to store an Internet Bookmark, by selecting the configuration type 5.3. When the radio-tag 1.5 thus configured is positioned within the range of an RFID or NFC reader, depending on the technology used, a mobile terminal can thus provide the Internet favorite stored in the mobile terminal, for example to ensure that the mobile terminal automatically accesses the Internet site corresponding to the stored Internet This allows a user of the mobile device to quickly and easily access one of his favorite websites. According to a third example, the predefined list makes it possible to configure the tag-tag 1.5 to store an alarm profile, by selecting the configuration type 5.4. When the radio-tag 1.5 thus configured is positioned within range of an RFID or NFC reader, depending on the technology used, a mobile terminal can thus provide the alarm profile stored in the mobile terminal, for example that the mobile terminal automatically schedules an alarm application according to the stored alarm profile. This allows a user of the mobile terminal to easily and quickly program his alarm clock. According to a fourth example, the predefined list makes it possible to configure the radio-tag 1.5 to store an automatic call profile of the telephone number, by selecting the configuration type 5.5. When the radio-tag 1.5 thus configured is positioned within range of an RFID or NFC reader, depending on the technology used, a mobile terminal can thus provide the automatic telephone number call profile stored at the terminal. mobile, for example that the mobile terminal automatically makes a phone call based on the automatic call profile phone number. This allows a user of the mobile terminal to easily call a loved one or emergency services.

Claims (10)

CLAIMS1) Mobile terminal (1.1) comprising radio-tag presence detection means, characterized in that it further comprises: - determination means, when the presence of a radio-tag is detected by the means of detection, the virgin nature of the radio-tag detected; a radio tag configuration application (5.1), said application being launched when the detected radio tag is determined to be blank by the determination means. 2) A mobile terminal according to claim 1, of the type comprising means for communicating in the near field for exchanging data with radio tags, characterized in that the detection means and the configuration means are adapted to use said means of communication. communication in the field. 3) mobile terminal according to any one of claims 1 and 2, characterized in that the radio tag configuration application comprises means of selection of a type (5.2, 5.3, 5.4; predefined list of 20 types of configuration. 4) Mobile terminal according to any one of claims 1 to 3, characterized in that the means for launching the radio tag configuration application comprises means for requesting confirmation from a user to actually launch the radio tag configuration application. 5) mobile terminal according to any one of claims 1 to 3, characterized in that the mobile terminal is a cellular radio terminal. 30 6) A method of radio tag configuration implemented by a mobile terminal (1.1), said method comprising a radio tag detection (4.1) presence step, characterized in that it further comprises the following steps of : - determination (4.3), when the presence of a radio tag is detected during the detection step, the blank character of the detected radio-tag; - launch (4.5), on the mobile terminal, of a radio tag configuration application (5.1), when the radio tag is determined to be blank. 7) radio tag configuration method according to claim 6, characterized in that it comprises a step of selecting a type of configuration from a predefined set of configuration types. 8) The method of radio tag configuration according to any one of claims 6 and 7, characterized in that the mobile terminal is a cellular radio terminal. 9) Computer program, characterized in that it comprises instructions for implementing, by a mobile terminal, the radio-tag configuration method according to any one of claims 6 to 8, when said program is executed by a processor of said mobile terminal. 10) Storage means, characterized in that they store a computer program comprising instructions for implementing, by a mobile terminal, the radio tag configuration method according to any one of claims 6 to 8 when said program is executed by a processor of said mobile terminal.