WO2008025853A2 - Method of remotely controlling a radio communication terminal - Google Patents

Abstract

The invention relates to a method of remotely controlling a radio communication terminal (400) that can switch from a first mode of operation requiring a first set of personalization data to a second mode of operation requiring a second set of personalization data, the method comprising a step of switching from the first to the second mode, according to a switching criterion related to the control of the terminal. According to the invention, the method comprises the following steps: a) establishing communication (E13) between the terminal, operating in the second mode, and control equipment (500); b) remote control of a control operation of the terminal, by the control equipment, via the communication (E14).

Description

 Method for remote control of a radiocommunication terminal, radio terminal, control equipment, computer program product and corresponding storage means.

FIELD OF THE INVENTION The field of the invention is that of radiocommunications and more particularly radio communication terminals, such as radiotelephones, PDAs ("Personal Digital Assistant" in English), radiocommunication devices intended to be embedded for example in machines or vehicles. More specifically, the invention relates to a technique of "remote control" of such terminals.

2. Prior Art

For the sake of simplification of the description, reference will be made throughout the rest of this document to describing the particular case where a GSM radiocommunication terminal is remotely controlled by a control device, for example as described in FIG. Patent WO 00/40049, for carrying out supervision operations (for example the analysis of the operation of the terminal) and maintenance (for example the updating of a software embedded in the terminal). It is also assumed that the GSM radio terminal comprises a personalized SIM card (for a "Subscriber Identity Module" in English, ie a SIM card with data customization enabled). For the record, a SIM card is a module comprising all the subscriber data, namely an International Mobile Subscriber Identity (IMSI) identity number, an authentication key Ki, and associated algorithms. authentication of the subscriber by the GSM network.

In general, the radiocommunication terminals are tested in the most exhaustive way possible before they are placed on the market. However, the complexity of these devices is increasing steadily and it seems very difficult to test them fully. This is particularly because they embark large and complex software means, and they can be faced with many situations and applications.

Manufacturers of radiocommunication terminals and mobile operators are therefore forced to broadcast products that may still have some software defects ("bugs" in English) that have not been identified, for example because they correspond to very specific circumstances, very rare or very difficult to anticipate and reproduce in the laboratory.

Such "bugs" may for example be related to: - characteristics of the network; to the SIM card; to the hardware and / or software environment.

Although simulators and emulators are used to try to identify and correct these defects, there may still be situations in which the radiocommunication terminal does not respond as it should. It is then necessary to analyze the operation of this terminal, in order to identify the origin of the fault, and if necessary to make the necessary corrections.

To perform these operations, measurement and test devices, such as protocol analyzers, are generally used which are able to observe and analyze the data exchanges performed according to the protocols used by the radiocommunication terminal.

This technique is effective, but often not easy to implement, since it involves having a complex apparatus nearby. When the faulty radiocommunication terminal is a radiotelephone, the user must therefore send it back to a test laboratory, having explained as precisely as possible the identified defect and the conditions in which it appears. This is an uncomfortable process, which deprives the user of his radiotelephone for several days or even weeks. There is also a significant risk that the defect is not well identified, if the description of the problem is incorrect or incomplete.

In the case of radiocommunication devices installed in machines, either disassemble them to return them to a laboratory, or move on site with the test equipment. Again, we understand that in both situations it is complex and costly, both financially and financially.

3. OBJECTIVES OF THE INVENTION The object of the invention is notably to overcome these disadvantages of the prior art.

More specifically, an objective of the invention, in at least one of its embodiments, is to provide a control technique of a radiocommunication terminal that is simple and effective to implement, especially in terms of activation of operating modes.

Another object of the invention, in at least one of its embodiments, is to provide such a technique, which is ergonomic and eliminates, or at least limits, the manual input operations to be performed by the user for switch from one operating mode to another. The invention, in at least one of its embodiments, is also intended to provide such a technique that does not require the sending of the faulty radiocommunication terminal to a remote site, nor the movement of a specialist with his equipment test.

In other words, an objective of the invention, in at least one of its embodiments, is to provide such a technique that makes it possible to perform the analysis of a defect, and where appropriate to perform the necessary repair operations, remotely.

Another objective of the invention, in at least one of its embodiments, is to propose such a technique that makes it possible to carry out test, analysis and repair processes in a very rapid manner, without the terminal of radiocommunication is immobilized and unusable for long periods, greater than several hours or even days or weeks.

Another objective of the invention, in at least one of its embodiments, is to propose such a technique that is particularly well suited to the maintenance and / or the supervision of a large number of radiocommunication terminals implemented in point-to-point applications of the type M2M (for "machine to machine" in English).

The invention, in at least one of its embodiments, also aims to provide such a technique that is inexpensive and compatible with all existing radiocommunication terminals. 4. Presentation of the invention

These objectives, as well as others which will appear later, are achieved by means of a remote control method of a radiocommunication terminal that can switch from a first mode of operation requiring a first set of data of customization to a second mode of operation requiring a second set of customization data, the method comprising a step of switching from the first to the second mode, as a function of at least a first switching criterion linked to the control of said radio terminal.

According to the invention, the method comprises the following steps: a) establishing a communication between the radiocommunication terminal, operating in said second mode, and a control equipment; b) remote control of at least one control operation of said radio terminal, by said control equipment, via said communication.

The invention therefore consists in remotely controlling the control operations of a radiocommunication terminal by means of a control device, instead of an in situ control (which supposes the local presence of test apparatuses). In addition, it is possible to use, at a remote site, powerful means, without the need to physically intervene on the terminal.

To do this, it is advantageous to use two sets of personalization data; a first game dedicated to a conventional radio mode and a second game dedicated to a control mode.

The present invention covers a first case in which the personalization data sets are specific to the same operator.

The present invention covers a second case in which the games of personalization data are specific to networks (of different types, for example GSM and UMTS) of the same operator.

The invention also covers a third case in which the personalization data sets are specific to distinct operator networks. According to the invention, switching from one mode to another is conditioned by the fact that a failover criterion is verified. Such a criterion may for example be: automatic detection (by the terminal) of a software or hardware defect; - a daily check of availability of new software

(for example, in the case of positive verification, the software is updated); a request from the user (for example when he detects a malfunction during use); - a request for control equipment; a time slot (for example from 1:00 to 2:00 in the morning, a communication is established between the radiocommunication terminal and the control equipment); detection of a level / draw of an external electrical signal (this signal may for example be generated by a device monitoring the proper operation of the terminal (commonly called "watchdog")).

According to a particular characteristic of the invention, the execution of at least one of the steps a) and b) is conditioned by the fact that at least one control condition is verified.

The present invention covers a first use case in which one switches in the second mode without establishing communication or perform control operations.

The invention covers another use case in which one switches to the second mode, then establishes a communication, but without subsequently ordering the execution of control operations. Thus, it is possible to switch to the second mode without making communication. Indeed, it can for example wait for a certain period of time (1 hour for example), a possible request for connection of a software update control equipment. The control equipment may not wish to send (to the terminal) a software update, in which case there will be no communication.

According to an advantageous aspect of the invention, the first personalization data set is specific to a user of said terminal, and the second set of personalization data is specific to an entity distinct from said user and associated with said control equipment.

Thus, it is possible to separate the billing related to the communications of the user from that related to the control operations.

For example, the software update operations may be performed at the expense of the radiocommunication module provider embedded in the terminal.

Preferably, said at least one control operation belongs to the group comprising: maintenance operations of said radiocommunication terminal; and - supervision operations of said radiocommunication terminal.

In a first particular embodiment of the invention, the step of switching from the first to the second mode comprises the following steps, performed by the control equipment: - obtaining a first decision of switching from the first to the second mode; and transmitting to the radiocommunication terminal a toggle request from the first to the second mode.

In this first particular embodiment, the decision to switch from the first to the second mode is obtained by the control equipment or from other equipment (for example a server) or from a operator. In other words, the control equipment controls the change of identity in the terminal. Thus, all the intelligence and the logic of decision are deported at the level of the control equipment, which makes the invention exploitable for any type of radiocommunication terminal, the latter thus requiring no complex and expensive adaptation to be compatible with the method according to the invention, which is particularly interesting.

Advantageously, the control equipment also performs a step of transmitting to the radiocommunication terminal of said second set of personalization data.

Thus, it is possible to use the same second set of personalization data to control, in turn, separate terminals. Indeed, once a terminal has been controlled (for example to perform a supervision operation), the second set of personalization data is released, in other words it becomes available again as the second set of data of customization possible for another terminal.

It is important to note that the second set of personalization data may be transmitted in clear or encrypted form.

In a second particular embodiment of the invention, the step of switching from the first to the second mode comprises the following steps, performed by the radiocommunication terminal: obtaining a second decision of switching from the first to the second mode; transmitting to the control equipment said first to second mode switching decision; and obtaining said second set of personalization data from the control equipment.

In this second particular embodiment, the decision to switch from the first to the second mode is obtained by the terminal or from another equipment (for example a server) or an operator. It is also noted that the terminal communicates with the control equipment (in using the first personalization data set, previously activated in the terminal) to obtain a second set of personalization data.

In a third particular embodiment of the invention, the step of switching from the first to the second mode comprises the following steps, performed by the radiocommunication terminal: obtaining a second decision of switching from the first to the second mode; and reading said second set of personalization data in storage means included in the radiocommunication terminal. This third particular embodiment covers the case in which the terminal makes the decision to switch from the first to the second mode and implements the second set of personalization data, without the intervention of the control equipment.

It is important to note that the second set of personalization data can be stored in clear or encrypted form.

Preferably, the remote control step is followed by a step of switching from the second to a third mode, as a function of at least a second switching criterion linked to the control of said radiocommunication terminal, said third mode being identical or distinct said first mode.

The present invention covers a first case in which the third mode of operation is identical to the first mode of operation. Thus, the remote control step is followed by a step of switching from the second to the first mode. The invention also covers a second case in which the third mode of operation is distinct from the first mode of operation.

In a fourth particular embodiment of the invention, the step of switching from the second to the third mode comprises the following steps, performed by the control equipment: - obtaining a third decision of switching from the second to the third mode; and transmitting to the radiocommunication terminal a request to switch from the second to the third mode.

Preferably, said step of obtaining the first, respectively third, decision comprises an evaluation step by the control equipment of said at least a first, respectively second, failover criterion.

Thus, the switchover decision is made by the control equipment itself.

Advantageously, the control equipment also performs a step of transmitting to the radiocommunication terminal a third set of personalization data.

In a fifth particular embodiment of the invention, the step of switching from the second to the third mode comprises the following steps, performed by the radiocommunication terminal: - obtaining a fourth decision of switching from the second to the third mode; transmission to the control equipment of said second to third switching decision; and obtaining said third set of personalization data from the control equipment.

In a sixth particular embodiment of the invention, the step of switching from the second to the third mode comprises the following steps, performed by the radiocommunication terminal: obtaining a fourth decision of switching from the second to the third mode; and reading said third set of personalization data in storage means included in the radiocommunication terminal.

Preferably, said step of obtaining the second, respectively fourth, decision comprises a step of assessment by the radiocommunication terminal of said at least a first, respectively second, tilt criterion. Thus, the switchover decision is made by the radiocommunication terminal itself.

Advantageously, said radiocommunication terminal comprises a SIM card. According to the invention, each switching step comprises a step of activating a personalization data set stored in said SIM card and corresponding to the current operating mode chosen from said first, second and third modes of operation.

Note that the personalization data set may be: previously stored in the SIM card; - is transmitted dynamically (for example by a network operator) to the SIM card and stored by it.

The invention also relates to a radiocommunication terminal comprising means for switching from a first operating mode requiring a first set of personalization data to a second operating mode requiring a second set of personalization data.

According to the invention, the terminal comprises: means for obtaining a decision to switch from the first to the second mode, taken as a function of at least a first switching criterion linked to the control of said radiocommunication terminal; means for obtaining said second set of personalization data; means for establishing a communication between the radiocommunication terminal, operating in said second mode, and a control equipment; means enabling said terminal to be controlled remotely, for at least one control operation, by said control equipment, via said communication.

It is important to note that the switchover decision can be made either internally (i.e., the terminal appreciates the failover criterion, and then links the second set of personalization data to storage means included in the terminal), or by receiving a toggle request issued by the control equipment.

The invention also relates to remote control equipment of a radiocommunication terminal that can switch from a first operating mode requiring a first set of personalization data to a second operating mode requiring a second set of personalization data. According to the invention, the equipment comprises:

means for obtaining a decision to switch from the first to the second mode, taken as a function of at least a first switching criterion linked to the control of said radiocommunication terminal;

means for establishing a communication with said terminal, operating in said second mode;

means for remotely controlling at least one control operation of said radiocommunication terminal, via said communication.

Note that the switchover decision can be made either internally (that is to say that the control equipment appreciates the failover criterion, and if necessary, transmits to the terminal the second set of personalization data), or by receiving a changeover decision issued by the terminal. The invention also relates to a computer program product comprising program code instructions for executing the steps of the aforementioned method, when said program is executed on a computer.

The invention further relates to a computer readable storage means, storing a set of instructions executable by said computer to implement the above method. 5. List of figures

Other features and advantages of the invention will emerge more clearly on reading the following description of a preferred embodiment, given as a simple illustrative and nonlimiting example, and the appended drawings, among which: FIG. 1 represents a flowchart illustrating an embodiment particular of the method according to the invention, in the case where the decision of tilting is taken by the control equipment; FIG. 2 represents a flowchart illustrating a particular embodiment of the method according to the invention, in the case where the decision to switch over is taken by the radiocommunication terminal and where the control equipment sends to the radiocommunication terminal a second set of personalization data; FIG. 3 represents a flowchart illustrating a particular embodiment of the method according to the invention, in the case where the decision to switch is taken by the radiocommunication terminal, without the intervention of the control equipment; FIG. 4 shows the simplified structure of a particular embodiment of a radiocommunication terminal according to the invention; and Figure 5 shows the simplified structure of a particular embodiment of a control equipment according to the invention.

6. Detailed description

The invention therefore aims to provide a remote control technique of a radiocommunication terminal using a first set of personalization data enabled (denoted IMSI1, KiI). As already indicated, this control aims to allow the control of maintenance operations and / or supervision of the terminal, from a remote control equipment.

The control according to the invention is obtained by the activation of a second personalization data set (denoted IMSI2, Ki2) in the terminal. The general principle of the invention is based on a technique of change of identity (and thus of personalization data set), allowing the radiocommunication terminal to switch between a first and a second mode of operation, then to return to the first mode. or a third mode.

As an example, it is assumed throughout the rest of this document that the control according to the invention consists in updating a software embedded in a radiocommunication terminal, during a predetermined time slot, for example from 1:00 to 2:00 am (first failover criterion).

FIG. 1 shows a flowchart illustrating a first particular embodiment of the method according to the invention, in the case where the decision to switch from the first to the second mode is taken by the control equipment.

It is assumed that the radiocommunication terminal comprises a personalized SIM card, itself comprising a first personalization data set (IMSI1, KiI) associated with the first operating mode (at this moment, the radiocommunication terminal operates in the first mode) . In addition, and by way of example, the first personalization data set (IMSI1, KiI) is specific to a first terrestrial public network of a first operator (for example the GSM network of the operator SFR), chosen by the user of the terminal. During a first step ElO, the control equipment selects the radio terminal to be controlled (within the meaning of the invention). In other words, the control equipment obtains the personalization data set (IMSIl, KiI) specific to the user of the terminal to be controlled and the corresponding MSISDN (for Mobile Station ISD Number) telephone number. .

During a step EI l, the control equipment determines whether the first aforementioned failover criterion is checked. In the present embodiment, the control equipment checks whether the time at which it wants to carry out the control of the terminal (selected in the step ElO) is in the authorized time slot, that is to say between IhOO and 2:00 am. If the aforementioned failover criterion is verified, we go to a step E12, otherwise we return to step ElO.

The following steps relate to a switching phase of the first to the second operating mode.

In step E12, the control equipment sends the radiocommunication terminal a request to switch from the first to the second mode containing a second set of personalization data (IMSI2, Ki2). specific to an entity separate from the user (hereinafter referred to as the master entity) and associated with the control equipment. In addition, and by way of example, the second personalization data set (IMSI2, Ki2) is specific to a second public terrestrial network of a second operator (for example the UMTS network of the Bouygues operator). In an alternative embodiment, the second personalization data set (IMSI2, Ki2) is contained in a message transmitted after the switch request. Note that the second set of personalization data (IMSI2, Ki2) is generated or selected by the control equipment dynamically. In this first particular embodiment, the control equipment encrypts the switching request (and therefore the second set of personalization data (IMSI2, Ki2)), before sending it to the terminal. It is important to note that the encrypted request is sent to the terminal via the GSM link of the SFR operator.

As already indicated, in another particular embodiment, the first and second sets of customization data may be specific to the same terrestrial public network of the same operator (for example the GSM network of the operator SFR).

Then, during a step E13, the second set of personalization data (IMSI2, Ki2) associated with the master entity is stored in the SIM card of the terminal. At this moment, the terminal is registered on the Bouygues operator's UMTS communication network with the identity of the master entity, and can therefore be controlled by the control equipment to carry out maintenance operations and / or terminal supervision (in other words, at this time, the radiocommunication terminal operates in the second mode). As already indicated, the invention makes it possible to clearly separate the identity of the user from that of the master entity, and therefore the billing related to the communications of the user from that related to the control operations.

Finally, during a step E 14, the maintenance and / or supervision operations defined by the control equipment are executed, namely, in our example, a software update. The following steps relate to a switching phase from the second to the first operating mode.

During a step El 5, it is determined whether the software update is complete (second failover criterion). If the software update is completed, we go to a step E16, otherwise we return to step E14.

Then, during step E16, the control equipment sends to the radiocommunication terminal a request to switch from the second to the first mode containing the first personalization data set (IMSI1, KiI) obtained in step E10. In an alternative embodiment, the first personalization data set (IMSI1, KiI) is contained in a message transmitted after the switch request. In this first particular embodiment, the control equipment encrypts the switchover request (and therefore the first set of personalization data (IMSIl, KiI)), before sending it to the terminal.

It is important to note that the encrypted request is sent to the terminal via the UMTS link of the Bouygues operator.

Finally, during a step E17, the first personalization data set (IMSI1, KiI) associated with the user is stored in the SIM card of the terminal. At this time, the terminal is registered on the SFR operator's GSM communication network with the identity of the user, and can therefore be used by the user to receive / transmit telephone calls via the GSM link. (In other words, at this moment, the radiocommunication terminal operates in the first mode).

FIG. 2 shows a flowchart illustrating a second particular embodiment of the method according to the invention, in the case where the decision to switch from the first to the second mode is taken by the radiocommunication terminal and where the control equipment sends to the radiocommunication terminal a second set of personalization data.

It is assumed that the radiocommunication terminal comprises a personalized SIM card, itself comprising a first personalization data set (IMSI1, KiI) associated with the first mode of operation (at this point). moment, the radiocommunication terminal operates in the first mode). In addition, and by way of example, the first personalization data set (IMSI1, KiI) is specific to a first terrestrial public network of a first operator (for example the GSM network of the operator SFR), chosen by the user of the terminal.

During a first step E20, the terminal determines whether the first aforementioned failover criterion is checked, that is to say if it is located in the time slot dedicated to controlling the terminal, namely between 1:00 and 2:00 am . If the aforementioned failover criterion is verified, it goes to a step E21, otherwise it remains in step E20.

The following steps relate to a switching phase of the first to the second operating mode.

In step E21, the terminal sends to the control equipment a message indicating a decision to switch from the first to the second mode. It is important to note that this message is sent to the control equipment via the GSM link of the SFR operator.

In return, during a step E22, the control equipment sends the terminal a response containing a second personalization data set (IMSI2, Ki2) specific to an entity distinct from the user (hereinafter called the master entity) and associated with the control equipment. In addition, and by way of example, the second personalization data set (IMSI2, Ki2) is specific to a second public terrestrial network of a second operator (for example the UMTS network of the Bouygues operator). Note that the second set of personalization data (IMSI2, Ki2) is generated or selected by the control equipment dynamically. In this second particular embodiment, the control equipment encrypts the response, before sending it to the terminal. It is important to note that the encrypted response is sent to the terminal via the GSM link of the SFR operator.

Then, during a step E23, the second set of personalization data (IMSI2, Ki2) associated with the master entity is stored in the SIM card of the terminal. At this time, the terminal is registered on the communication network UMTS of the Bouygues operator with the identity of the master entity, and can therefore be controlled by the control equipment to carry out maintenance and / or supervision of the terminal (in other words, to this end). moment, the radiocommunication terminal operates in the second mode). Finally, during a step E24, the maintenance and / or supervision operations defined by the control equipment are carried out, namely, in our example, a software update.

The following steps relate to a switching phase from the second to the first operating mode. During a step E25, it is determined whether the software update is complete

(second failover criterion). If the software update is completed, we go to a step E26, otherwise we return to step E24.

Then, during step E26, the terminal sends the control equipment a message indicating a decision to switch from the second to the first mode. It is important to note that this message is sent to the control equipment via the UMTS link of the Bouygues operator.

Then, during a step E27, the control equipment sends the terminal a response containing the first personalization data set (IMSIl, KiI) associated with the user. Finally, during a step E28, the first personalization data set (IMSI1, KiI) associated with the user is stored in the SIM card of the terminal. At this time, the terminal is registered on the SFR operator's GSM communication network with the identity of the user, and can therefore be used by the user to receive / transmit telephone calls via the GSM link. (In other words, at this moment, the radiocommunication terminal operates in the first mode).

3, a flowchart illustrating a third particular embodiment of the method according to the invention is described, in the case where the decision to switch from the first to the second mode is taken by the radiocommunication terminal, without the intervention of the control equipment. It is assumed that the radiocommunication terminal comprises a SIM card and storage means, comprising two sets of personalization data, a first set of data (IMSI1, KiI) specific to a first terrestrial public network of a first operator (for example the GSM network of the operator SFR) and a second data set (IMSI2, Ki2) specific to a second terrestrial public network of a second operator (for example the UMTS network of the operator Bouygues). In the present embodiment, the first game is associated with the user and the second game with the entity associated with the control equipment (called master entity). It is also assumed that at this time the radiocommunication terminal is operating in the first mode (in other words, the first game is stored and activated in the terminal's SIM card).

During a first step E30, the terminal determines whether the first aforementioned failover criterion is checked, that is to say if it is in the time slot dedicated to the control of the terminal, namely between 1:00 and 2:00 am . If the aforementioned failover criterion is verified, it goes to a step E31, otherwise it remains in step E30.

The following steps relate to a switching phase of the first to the second operating mode.

In step E31, the terminal links the second set of data (IMSI2, Ki2) stored in the storage means of the terminal.

Then, during a step E32, the second set of customization data (IMSI2, Ki2) associated with the master entity is stored in the SIM card of the terminal. At this moment, the terminal is registered on the Bouygues operator's UMTS communication network with the identity of the master entity, and can therefore be controlled by the control equipment to carry out maintenance operations and / or terminal supervision (in other words, at this time, the radiocommunication terminal operates in the second mode).

Finally, during a step E33, the maintenance and / or supervision operations defined by the control equipment are carried out, namely, in our example, a software update. The following steps relate to a switching phase from the second to the first operating mode.

In a step E34, it is determined whether the software update is complete (second failover criterion). If the software update is completed, we go to a step E35, otherwise we return to step E33.

Then, during step E35, the terminal links the first set of data (IMSI1, KiI) stored in the storage means of the terminal.

Finally, during a step E36, the first personalization data set (IMSI1, KiI) associated with the user is stored in the SIM card of the terminal. At this time, the terminal is registered on the SFR operator's GSM communication network with the identity of the user, and can therefore be used by the user to receive / transmit telephone calls via the GSM link. (In other words, at this moment, the radiocommunication terminal operates in the first mode). In an alternative embodiment, it is possible to consider switching from the second to a third mode of operation (distinct from the first mode). Indeed, after the execution of a supervision operation, the radiocommunication terminal or the control equipment can decide, for example for reasons of communication quality, to use a third set of personalization data (IMSI3, Ki3) associated with the user and specific to a third public terrestrial network of a third operator (for example the GSM network of the operator Orange). To implement such a switch, with reference to FIG. 3, it suffices to replace the steps E35 and E36 by the steps E35 'and E36', described below: In the step E35 ', the terminal links the third dataset (IMSI3,

Ki3) stored in the storage means of the terminal.

In step E36 ', the third personalization data set (IMSI3, Ki3) associated with the user is stored in the SIM card of the terminal. At this time, the terminal is registered on the Orange operator's GSM communication network with the identity of the user, and can therefore be used by the user to receive / transmit telephone calls, via the GSM link (in other words, at this time, the radiocommunication terminal operates in the third mode).

Of course, the skilled person will extend without difficulty this teaching (switching from the second to the third mode of operation, instead of switching from the second to the first mode) to the examples described with reference to Figures 1 and 2.

FIG. 4 schematically shows the structure of a radiocommunication terminal 400 according to the invention, which comprises a memory 410, and a processing unit 420 equipped with a microprocessor μP, which is controlled by a computer program ( or application) 430 implementing certain steps of the method according to the invention described in FIGS. 1 to 3. The processing unit 420 receives as input a toggle request 440 from one operating mode to another (called operating mode request). The microprocessor μP processes this request, according to the instructions of the program 430, to position the radiocommunication terminal 400 in the requested operating mode.

FIG. 5 shows schematically the structure of a control device 500 according to the invention, which comprises a memory 510, and a processing unit 520 equipped with a microprocessor μP, which is controlled by a computer program ( or application) 530 implementing certain steps of the method according to the invention described in FIGS. 1 to 3. The processing unit 520 receives as input a message (transmitted by the radiocommunication terminal 400) indicating a decision of the tilt 540 of one mode of operation to another (called operating mode requested). The microprocessor μP processes this message, according to the instructions of the program 530, to obtain a personalization data set (IMSI, Ki) associated with the requested operating mode.

Claims

A method of remotely controlling a radiocommunication terminal (400) that can switch from a first mode of operation requiring a first set of personalization data to a second mode of operation requiring a second set of customization data, the method comprising a step of switching from the first to the second mode, as a function of at least a first switching criterion linked to the control of said radio communication terminal (400), characterized in that the method comprises the following steps: a) establishing a communication (E 13) between the radiocommunication terminal operating in said second mode and control equipment (500); b) remote control of at least one control operation (E 14) of said radio terminal, by said control equipment, via said communication.

2. Method according to claim 1, characterized in that the execution of at least one of the steps a) and b) is conditioned by the fact that at least one control condition is verified.

3. Method according to any one of claims 1 and 2, characterized in that the first personalization data set is specific to a user of said terminal (400), and the second set of personalization data is specific to a separate entity said user and associated with said control equipment (500).

4. Method according to any one of claims 1 to 3, characterized in that said at least one control operation belongs to the group comprising: maintenance operations of said radiocommunication terminal; and supervision operations of said radio communication terminal (400).

5. Method according to any one of claims 1 to 4, characterized in that the step of switching from the first to the second mode comprises the following steps, performed by the control equipment (500): obtaining a first decision switching (EI 1) from the first to the second mode; and transmitting (E 12) to the radiocommunication terminal a toggle request from the first to the second mode.

6. Method according to claim 5, characterized in that the control equipment also carries out a step of transmission to the radiocommunication terminal (400) of said second set of personalization data.

7. Method according to any one of claims 1 to 4, characterized in that the step of switching from the first to the second mode comprises the following steps, performed by the radiocommunication terminal: - obtaining a second decision of the changeover of the first to second mode; transmitting to the control equipment said first to second mode switching decision; and obtaining said second set of personalization data from the control equipment.

8. Method according to any one of claims 1 to 4, characterized in that the switching step of the first to the second mode comprises the following steps, performed by the radiocommunication terminal: obtaining a second decision of the switchover of the first in the second mode; and reading said second set of personalization data in storage means included in the radiocommunication terminal.

9. Method according to any one of claims 1 to 8, characterized in that the remote control step is followed by a step of switching from the second to a third mode, according to at least a second criterion of failover related to the control of said terminal radiocommunication, said third mode being identical or distinct from said first mode.

10. Method according to claim 9, characterized in that the step of switching from the second to the third mode comprises the following steps, performed by the control equipment (500): obtaining a third decision of switching from the second to the third fashion ; and transmitting to the radiocommunication terminal a request to switch from the second to the third mode.

11. The method of claim 5 or 10, characterized in that said step of obtaining the first, respectively third, decision comprises an evaluation step by the control equipment (500) of said at least a first, respectively second , failover criterion.

12. The method according to claims 10 and 11, characterized in that the control equipment also performs a step of transmitting to the radiocommunication terminal (400) of a third set of personalization data.

13. The method as claimed in claim 12, characterized in that the step of switching from the second to the third mode comprises the following steps, performed by the radiocommunication terminal: obtaining a fourth decision of switching from the second to the third mode; transmission to the control equipment of said second to third switching decision; and - obtaining said third set of personalization data from the control equipment.

14. The method of claim 12, characterized in that the step of switching from the second to the third mode comprises the following steps, performed by the radiocommunication terminal (400): - obtaining a fourth decision of switching from the second to the third fashion ; and reading said third set of personalization data in storage means included in the radiocommunication terminal.

15. Method according to any one of claims 7, 8, 13 and 14, characterized in that said step of obtaining the second, respectively fourth, decision comprises a step of assessment by the radiocommunication terminal of said at least one first, respectively second, failover criterion.

16. Method according to any one of claims 9 to 15, characterized in that said radiocommunication terminal comprises a SIM card, and in that each step of failover comprises a step of activating a stored personalization data set. in said SIM card and corresponding to the current operating mode selected from said first, second and third modes of operation.

17. A radiocommunication terminal (400) comprising means for switching from a first operating mode requiring a first set of personalization data to a second operating mode requiring a second set of personalization data, characterized in that it comprises means for obtaining a decision to switch from the first to the second mode, taken as a function of at least a first switching criterion linked to the control of said radiocommunication terminal;

means for obtaining said second set of personalization data; - Means for establishing a communication between the radiocommunication terminal, operating in said second mode, and a control equipment;

means enabling said terminal to be remotely controlled, for at least one control operation, by said control equipment, via said communication.

18. Remote control equipment (500) of a radiocommunication terminal that can switch from a first mode of operation requiring a first set of personalization data to a second operating mode requiring a second set of personalization data, characterized in that it comprises:

means for obtaining a decision to switch from the first to the second mode, taken as a function of at least a first switching criterion linked to the control of said radiocommunication terminal;

means for establishing a communication with said terminal, operating in said second mode;

means for remotely controlling at least one control operation of said radiocommunication terminal, via said communication.

19. Computer program product downloadable from a communication network and / or recorded on a computer readable medium and / or executable by a processor characterized in that it comprises program code instructions for the execution of the steps of the program. method of controlling at least one of claims 1 to 16, when said program is run on a computer.

20. A storage medium, readable by a computer, storing a set of instructions executable by said computer to implement the control method according to any one of claims 1 to 16.