FR2972883A1 - Method for management of transfer of financial information between debited source account and credited beneficiary account associated with terminals in bank, involves transmitting context and terminal identifiers from terminal - Google Patents

Abstract

The method involves creating and storing (ET11) a context identifier (IDC) in a transfer request processing device (DSP), and associating (ET12) the context identifier with data related to a transfer request. The context identifier is transmitted (ET13) from the device to a first terminal (TRM1). The context identifier is transmitted (ET14) from the first terminal toward a second terminal (TRM2). The context identifier and a terminal identifier (ID2) of the second terminal are transmitted (ET15) from the second terminal to a destination of the device. Independent claims are also included for the following: (1) a system for management of transfer of information from a first entity toward a second entity (2) a device for management of transfer of information from a first entity toward a second entity (3) a transmitting terminal for transmitting a context identifier (4) a receiving terminal for receiving a context identifier from a transmitting terminal (5) a computer program comprising a set of instructions implemented on a management device (6) a computer program comprising a set of instructions implemented on a transmitting terminal (7) a computer program comprising a set of instructions implemented on a receiving terminal.

Description

Managing the transfer of information between entities associated with respective terminals through a communication network. TECHNICAL FIELD The present invention relates to a method of transferring information, via a communication network, between a first and a second entity associated with a first terminal and a second terminal, respectively. The information in question is a numerical value. An exemplary embodiment will be described in which the entities are a source account to be debited and a beneficiary account to be credited. In this example, a transfer will be for a financial transfer between these two accounts, the numerical value designating the amount object of the transfer. The terminals in question are equipped with physical and / or software resources, including a processor, capable of processing data. The terminals are also able to communicate through one or more communication networks. The terminals in question have a respective identifier, called "terminal identifier" in the following, linked to the entity to which the terminal is associated. The terminal identifier can be indifferently a network identifier (for example an IP address, an MSISDN identifier (acronym for "Mobile Station ISDN Number"), an identifier of the user (for example an email address), an identifier of the terminal ( for example, an IMEI ("International Mobile Equipment Identity") identifier or an identifier of the entity (for example a bank account number).

The identifier that will be chosen to illustrate the invention will be the MSISDN identifier hereinafter designated by the expression "telephone number".

STATE OF THE ART Many techniques are now available for making financial transfers. A common technique is to transmit a message, usually a short message type SMS (Short Message Service acronym) to a recipient number of a transfer management server. The management server has the function of receiving transfer requests and transferring an account to another account. The short message includes as parameter the telephone number associated with the account to be credited as well as the amount of credit to be made. Then the server receives the request and credits the recipient's account with the relevant bank account numbers and the amount. Current techniques all work in more or less the same way but share a common problem. Indeed, all requests for transfer of a first account to a second account, from a first terminal and for a second terminal associated with the second account must include the terminal identifier of the destination terminal, namely the second terminal. Consequently, any transfer must be preceded by a phase during which the user of the first terminal must recover the terminal identifier of the destination terminal. The known techniques are therefore impractical because the user of the second terminal may not wish to provide his terminal identifier; Known techniques are also impractical when the second terminal is a machine (P2M). The invention offers a solution which does not have the drawbacks of the state of the art. The invention For this purpose, according to a functional aspect, the subject of the invention is a method for managing an information transfer from a first entity to a second entity associated with a first terminal and a second terminal, respectively, the terminals being able to communicate via at least one communication network, the terminals being associated with a respective terminal identifier able to identify a terminal, a device connected to the network having the function of processing requests for the transfer of information between entities, characterized in that it comprises - a step of reception, by the device, of a transfer request from the first terminal, the request including at least the terminal identifier of the first terminal, - a creation and storage step in the device a context identifier; - a step of associating the context identifier with data related to the transfer request; transmission ape from the device to the first terminal of the context identifier, 15 - a second step of transmitting the context identifier from the first terminal to the second terminal, - a third transmission step from the second terminal to the destination. the device of the context identifier and the terminal identifier of the second terminal. Following the third transmission step, the device has all the data relevant to the realization of the transfer of information between the first entity and the second entity. According to the invention, following an information transfer request initiated by a first terminal, the device stores a context identifier 25 associated with data relating to the transfer to be performed. A destination terminal of the information to be transferred can therefore address the device and request the transfer by providing the context identifier and the terminal identifier of the destination terminal. It is thus clear that the payment can be made without the terminals concerned by the transfer requiring a pairing. A user of the first terminal is therefore able to request a transfer of information from the first entity to the second entity without having to know the terminal identifier of the second terminal.

The invention also ensures the anonymity of the terminal identifiers involved in the transfer. We will see later in the description that the entities can be bank accounts and that the transfer concerns either a debit or a credit. We will also see that the transfer is preferably performed only on agreement of the user of the terminal receiving the transfer. According to a first embodiment, the first terminal is the receiving terminal of the transfer request. According to a second embodiment, the first terminal is the requesting terminal of the transfer. Thanks to these two modes, it can be either the recipient of the transfer or the initiator of the transfer which triggers the transfer request. The transfer of the context identifier can be carried out in several ways: the transfer of the context identifier can be done by entering the context identifier on a keyboard of the second terminal. The context identifier can be sent vocally to the second terminal. The transfer of the context identifier can also be performed by means of a unidirectional short-range network. A unidirectional network ensures that the transmission of the context identifier from the first terminal to the second terminal will not be followed by a message such as an acknowledgment produced by the second terminal to the first terminal. This avoids any intrusion on the part of the second terminal, which receives the context identifier, for malicious purposes for example for obtaining the terminal identifier of the first terminal. This characteristic is an additional guarantee to maintain the anonymity referred to above. In particular, the short-range network is formed by shooting means installed on a terminal and a screen on another terminal. In this configuration, the screen of a terminal displays the context identifier, and the means of shooting of the other terminal capture the context identifier. In this configuration, the context identifier is for example represented by means of a graphic object of two-dimensional code type. According to a material aspect, the invention relates to a system for managing an information transfer from a first entity to a second entity associated with a first terminal and a second terminal, respectively, the terminals being able to communicate via the least one communication network, the terminals being associated with a respective terminal identifier capable of identifying a terminal, a device connected to the network whose function is the processing of information transfer requests between entities, characterized in that the device comprises - means for receiving a transfer request from the first terminal, the request including at least the terminal identifier of the first terminal, - means for creating and storing a context identifier - means for associating the identifier context with data related to the transfer request, - first means for transmitting the context identifier 25 from the spositive at the first terminal, - in that the first terminal comprises second transmission means able to transmit the context identifier from the first terminal to the second terminal, - in that the second terminal comprises third transmission means suitable for transmitting the received context identifier and the terminal identifier of the second terminal from the second terminal to the device.

According to another material aspect, the invention relates to a device capable of managing an information transfer from a first entity to a second entity associated with a first terminal and a second terminal, respectively, characterized in that it comprises first means of receiving, by the device, a transfer request from the first terminal, the request including at least the terminal identifier of the first terminal, - means for creating and storing a context identifier - means associating the context identifier with data related to the transfer request, followed by - first transmission means from the device to the first terminal of the context identifier, - second reception means adapted to receive the context identifier from the second terminal as well as the terminal identifier of the second terminal. According to another material aspect, the invention relates to a terminal, said first terminal, able to communicate via at least one communication network with a second terminal, the first terminal being associated with an entity, said first entity, from which information is able to be transferred to a second entity associated with the second terminal, the first terminal being characterized in that it comprises - information transfer request means from the first entity to a second entity associated with the second terminal, means for receiving a context identifier, means for transmitting the context identifier to the second terminal. According to another material aspect, the invention relates to a terminal, said second terminal, able to communicate via at least one communication network with another terminal, said first terminal, said second terminal being associated with a terminal identifier and an entity, said first entity, entity from which information is able to be transferred to a second entity associated with the second terminal, the first terminal being characterized in that it comprises - means for receiving a context identifier from the second terminal ; means for transmitting the context identifier and the terminal identifier of the second terminal to a device capable of transferring information from the first entity to a second entity associated with the second terminal; Another hardware aspect, the invention relates to a computer program adapted to be implemented on a device as defined above, the program comprising code instructions which, when executed by a processor, realizes the following steps: a first step of reception, by the device, of a transfer request from the first terminal, the request including at least the terminal identifier of the first terminal, a step of creation and storage of a context identifier - a step of associating the context identifier with data related to the transfer request, followed by - a step of transmitting from the device to the first ter minal of the context identifier, - a second reception step able to receive the context identifier and the terminal identifier from the second terminal. According to another material aspect, the invention relates to a computer program capable of being implemented on the first terminal defined above, the program comprising code instructions which, when executed by a processor, performs the following steps: a step of requesting the transfer of information from the first entity to a second entity associated with the second terminal, a step of receiving a context identifier, a step of transmitting the identifier of the context at the second terminal. According to another material aspect, the invention relates to a computer program capable of being implemented on the second terminal defined above, the program comprising code instructions which, when executed by a processor, performs the following steps: - a step of receiving a context identifier from the second terminal; a step of transmitting the context identifier and the terminal identifier of the second terminal to a device capable of transferring information from the first entity to a second entity associated with the second terminal.

It will be seen later that the entities represent bank accounts, that a transfer of information represents a financial transfer between two accounts.

The invention will be better understood on reading the description which follows, given by way of example and with reference to the accompanying drawings. The figures: FIG. 1 represents a computer system in which is illustrated an exemplary embodiment illustrating a payment method FIG. 2 illustrates a first embodiment of the invention. Figure 3 illustrates a second embodiment of the invention. Figures 4 to 6 illustrate possible variants to both embodiments. DETAILED DESCRIPTION OF AN EMBODIMENT EXCHANGING THE INVENTION FIG. 1 represents a SYS system comprising two terminals, namely a first terminal TRM1 and a second terminal TRM2, interconnected via a first network RES1. This first network is arbitrary. In our example, this first network is the Internet network. Both terminals belong to a first user UT1 and a second user UT2, respectively. The terminals are equipped with a first microprocessor MP1 and a second microprocessor MP2, respectively. In our example, for the implementation of a first embodiment which will be described hereinafter, the first terminal TRM1 further includes a first GUI GUI 1 allowing a user to enter data relating to a transfer. In a second mode, the second terminal will also be equipped with a GUI GUI, called second GUI. In the same way, in our example, for the implementation of the first embodiment which will be described hereinafter, the first terminal TRM1 further includes means for restoring ECR1 information. These means of rendering are for example a screen. In a second mode, the second terminal TRM2 will also be equipped with ECR2 reproduction means. As the two modes can be used cumulatively, to simplify the discussion, it is now considered that in the embodiments, the two terminals are both equipped with a GUI interface GUI1 and GUI2, and ECR1 and ECR2 recovery means , respectively, irrespective of the embodiment. At the first terminal TRM1 and the second terminal TRM2 corresponds a first entity and a second entity, respectively. In our example, as explained above, it will be seen that the transfer will be for a request for credit or debit on a bank account. In this configuration, the entities represent bank accounts, namely a first bank account and a second account identified by bank account numbers CB1 and CB2, respectively. These bank accounts CB1 and CB2 are stored in a memory belonging to a financial institution BK. Alternatively, the accounts could have been managed by two separate banks; in this latter configuration, the bank accounts would be stored in two separate memories belonging to two respective bank servers. However, to simplify the disclosure of the invention the present description will be limited to a single financial institution for example a bank BK. The terminals have a terminal identifier able to distinguish the terminals belonging to the first network RES1. In our example, the terminal identifier is an identifier of the network namely the MSISDN (Mobile Station ISDN Number) hereinafter referred to as the "telephone number". Thus, at the first and second terminals corresponds a first ID1 telephone number and a second ID2 telephone number, respectively. A DSP device, accessible by both terminals through their respective networks, acts as a trusted third party. This DSP device maintains a link between the terminals, in particular the terminal identifiers, and the entities, and controls the exchange of information between the two entities. In our example, the DSP device includes a database of correspondence BDD in which a correspondence is made between telephone numbers and respective bank account numbers.

It should be noted that the correspondence database could have been attached to the financial institution BK instead of the DSP device, and that the financial institution would have to establish the correspondence when it receives terminal identifiers involved in a transfer. information. In the following the organization will be illustrated by means of a server designated by the expression "banking server".

In our example, the two terminals are able to communicate via a second network RES2 allowing communication between terminals that have not been paired. In other words, a terminal belonging to this network can communicate with another terminal without requiring a prior phase to provide connection parameters. We will see in the following examples of network of this type. Figures 2 to 7 show axes illustrating the data exchange taking place between the first terminal, the second terminal, the DSP device and the bank server BK. In these figures, a time axis indicates the direction of execution of the steps. In this same figure, an exchange of data is symbolized by an arrow having an origin and an end, the origin being associated with the sender of a message, the end being associated with the recipient of the message. In these figures, an arrow having an origin and an end on the same axis represents a processing internal to the circuit concerned. Also, in these figures an arrow having an origin and an end on the same axis and the nature of the treatment is a given agreement in response to a received message, will be referenced OK. FIG. 2 illustrates a first embodiment in which the initiator of the transfer request is the first terminal TRM1. This first mode comprises the following steps referenced ET11 to ET18. In a first step ET11, the first terminal TRM1 transmits, following an action of the first user UT1 on the first terminal, to the device DSP, its phone number ID1 and a TNM amount to be transferred from the first account CB1. In our example, the action in question is an input by means of the first interface IHM1 of data relating to the transfer to be performed, and a validation of the entered data resulting in the transmission of a request for transfer of information from the first entity CB1 to the second entity CB2. In a second step ET12, the DSP device receives the request 15 via receiving means RCP, and creates, via means CRT creation of identifiers, IDC context identifier that it associates the information received, namely the telephone number ID1 and the amount MNT to be transferred. The context identifier is stored in memory. In a third step ET13, the device transmits to the first terminal TRM1 the IDC context identifier. In a fourth step ET14, the first terminal TRM1 receives and transmits the context identifier to the second terminal TRM2 via the second network RES2. In a fifth step ET15, the second terminal TRM2 receives the context identifier IDC and transmits it to the device DSP and its telephone number ID2. In a sixth step ET16, the DSP device receives the IDC context identifier and the ID2 phone number of the second terminal.

In a seventh step ET17, the DSP device optionally consults its database BDD and deduces the account numbers CB1 and CB2 associated with the numbers ID1 and ID2 concerned by the transfer.

At this stage of the process, the device has all the data relevant to the realization of a transfer, of a given amount, from the first account to the second account. During an eighth step ET18, the DSP device transmits to the bank server BK the relevant data, namely at least the ID1 and ID2 terminal identifiers and / or the CB1 and CB2 account numbers as well as the MNT amount. We will not go into the details of the communication that takes place between the device and the bank, as well as the way in which the bank server transfers the information between the first and the second entity, because without interest for the presentation of the invention.

Variations of this first embodiment can be envisaged. For example, according to a variant illustrated in FIG. 3, following the fourth step ET14, during which the second terminal TRM2 receives the IDC context identifier and before the terminal transfers its ID2 telephone number to the device and the IDC context identifier, the second terminal TRM2 sends the IDC context identifier to the DSP device and receives a response from the DSP device informing him of the amount of the transfer. According to this first variant, the second terminal sends its identifier ID2 only if the transfer is accepted (OK), for example by the user UT2 of the second terminal TRM2. If so, the second terminal TRM2 transmits the IDC context identifier and its ID2 telephone number to the DSP device. A second embodiment of the invention is illustrated with reference to FIG. 4. In this second embodiment, the recipient of the transfer, that is to say the second terminal TRM2, initiates a transfer request, unlike the first mode. in which it is the first terminal TRM1 which initiates the transfer request. In this second mode, the second terminal TRM2 belongs for example to a merchant of goods and / or services. The steps, referenced E121 to ET28, illustrating the second mode are as follows.

In a first step ET21, the second terminal TRM2 transmits, following an action of the second user UT2 on the second terminal TRM2, the DSP device its ID2 phone number and an amount MNT to transfer to the second account CB2. In our example, the action in question is an input by means of the second interface IHM2 of data relating to the transfer to be performed, and a validation of the data entered resulting in the transmission of a request for transfer of information from the first CB1 entity to the second entity CB2. During a second step E I22, the DSP device receives the request and generates an IDC context identifier that it associates with the information received, namely the ID2 phone number of the second terminal TRM2 and the amount MNT to be transferred. The context identifier is stored in memory. In a third step ET23, the DSP device transmits to the second terminal TRM2 the IDC context identifier. In a fourth step ET24, the second terminal TRM2 receives and transfers the IDC context identifier to the first terminal TRM1 via the second network RES2. During a fifth step ET25, the first terminal TRM1 receives the IDC context identifier and transfers it to the device DSP accompanied by its telephone number ID1. In a sixth step ET26, the DSP device receives the IDC context identifier as well as the telephone number ID1 of the first terminal TRM1.

During a seventh step ET27, the device DSP consults its database BDD and deduces the account numbers CB1 and CB2 associated with the telephone numbers ID1 and ID2 concerned by the transfer. At this stage of the process, the device has all the data relevant to the achievement of a transfer of a given amount of the first account to the second. During an eighth step E 128, the DSP device transmits the relevant data to the bank server BK. We will not go into the details of the communication that takes place between the device and the bank server because of no interest for the disclosure of the invention.

A first variant of the second mode, illustrated in FIG. 5, similar to the variant of the first mode illustrated in FIG. 3, can be envisaged. According to this first variant of the second mode, following the fourth step ET24, during which the first terminal TRM1 receives the IDC context identifier and before the first terminal TRM1 does not transfer to the device its telephone number ID1 and the identifier of In the IDC context, the first terminal TRM1 sends the IDC context identifier to the DSP device and receives a response from the DSP device informing it of the amount MNT of the transfer. According to this first variant, the user UT1 of the first terminal has the possibility of accepting or refusing the transfer. If it accepts, the first terminal transmits the identifier ID1 and IDC context ID to signify its agreement to operate the transfer. A refusal can be achieved for example by not responding to the message including the MNT amount received from the DSP device. Note that both embodiments may be used separately or coexist.

Variants common to both embodiments can be envisaged including the following. According to a second variant, applicable to the two embodiments, illustrated with reference to FIG. 6, following the eighth step ET18 or ET28, the DSP device transmits to the first terminal TRM1 and / or to the second terminal TRM2 a summary of the transfer in course or which took place, the summary comprising for example the identifier (or an alias) of the first and the second terminal and the date DTE of the transfer. According to a third variant, common to both modes, illustrated with reference to FIG. 7, the accounts can belong to two different banks and therefore to be stored on two separate bank servers BK1 and BK2, respectively. In this configuration, a message exchange can be provided between the bank servers BK1 and BK2 and the DSP device. For example, a first message from the DSP device is transmitted to the first bank server BK1, the message including the bank account number CB1 associated with the first terminal TRM1 and the amount MNT. The DSP device receives back a payment order PMT having a value equal to the amount MNT of the transfer. The payment order corresponds for example to a credit on an account associated with the device. The DSP device then transmits a message including, as parameters, the account number CB2 of the second terminal TRM2 and a sum of money MNT to be credited to the second account CB2. At this stage, the step described with reference to FIG. 4 can also take place at this stage of the process. In both embodiments, the transfer of the context identifier from the first to the second terminal, or vice versa, is accomplished through a second, preferably unidirectional short-range network. According to the embodiment chosen, in the fourth step ET14 or ET24, a terminal receives the transfer request from the other terminal. For example, in the first mode, in the fourth step ET14, the second terminal TRM2 is able to receive the IDC context identifier from the first terminal TRM1 via a second short-range network RES2. A short-haul network refers here to a network with limited distance coverage. In this context, the first terminal TRM2 can communicate data within a given DIST distance via the second network RES2.

The coverage of the second network RES2 is chosen so that a possible communication between two terminals through this second network is the witness of a proximity between the two terminals in question and implicitly a proximity of the user vis-à-vis -vis both terminals. The second network in question is for example a network RFiD (Radio Frequency Identification), a Bluetooth network, a network NFC (Near Field Communication). We will see in the following that this second network can also be constituted by a visual code generator and a shooting device able to take a view of the code and extract information. A sound pickup device, or a light emitter can also be used as a signal emitter, the code being emitted in the form of sound or light, respectively. More generally, the first terminal includes a transmitter capable of transmitting signals carrying data and the second terminal includes a sensor capable of capturing the signals, namely a microphone, a motion detector, or a light sensor. The example chosen to illustrate the second communication network is that of the camera. In this configuration, the first terminal and the second terminal are equipped with shooting means, a first CPT1 shooting means and a second CPT2 shooting means, respectively. In our example, the camera is a camera. In this configuration, the shooting means are connected to a first processing means MT1 and a second processing means MT2, respectively. In each terminal, the processor, the processing means and the processing means are connected via a respective bus BUS1 and BUS2.

Claims (15)

REVENDICATIONS1. Method for managing an information transfer from a first entity (CB1) to a second entity (CB2) associated with a first terminal (TRM1) and a second terminal (TRM2), respectively, the terminals being able to communicate via to least one communication network (RES1), the terminals being associated with a respective terminal identifier (ID1, ID2) capable of identifying a terminal, a device (DSP) connected to said at least one network, whose function is the processing of requests for transfer of information between entities, characterized in that it comprises - a step of receiving (ET11) by the device, a transfer request from the first terminal (TRM1), the request including at least the terminal identifier (ID1 ) of the first terminal, - a creation and storage step (ET12) in the device of a context identifier (IDC), - a step of association (Ef12) of the context identifier with data related to the transfer request, - a first transmission step (Ef13) from the device (DSP) to the first terminal (TRM1) of the context identifier, - a second transmission step (ET14) of the context identifier (IDC) from the first terminal ( TRM1) to the second terminal (TRM2), - a third transmission step (ET15) from the second terminal (TRM2) to the device (DSP) of the context identifier (IDC) and the terminal identifier (ID2 ) of the second terminal (TRM2). 2. Management method according to claim 1, characterized in that the first terminal is the receiving terminal of the transfer request. 18 3. Management method according to claim 1, characterized in that the first terminal is the transfer requesting terminal. 4. Management method according to claim 1, characterized in that the transfer of the context identifier is performed by entering the context identifier on a keyboard of the second terminal. 5. Management method according to claim 1, characterized in that the context identifier is sent vocally to the second terminal. 6. Management method according to claim 1, characterized in that the context identifier is transmitted by means of a unidirectional short-range network. 7. Management method according to claim 6, characterized in that the short-range network is formed by shooting means installed on a terminal and a screen on another terminal, in that the screen displays the identifier of context, and in that the means of shooting capture the context identifier. 8. Management method according to claim 7, characterized in that for shooting, the context identifier is represented by means of a graphic object. 9. System (SYS) for managing an information transfer from a first entity (CB1) to a second entity (CB2) associated with a first terminal (TRM1) and a second terminal (TRM2), respectively, the terminals being able to communicate via at least one communication network (RES1), the terminals being associated with a respective terminal identifier (ID1, ID2) capable of identifying a terminal, a device (DSP) connected to said at least one network (RES1) having for function the processing of information transfer requests between entities, characterized in that the device comprises- receiving means (RCP) of a transfer request from the first terminal, the request including at least the terminal identifier of the first terminal; means for creating and storing (CRT) a context identifier; means for associating (CRT) the context identifier with data related to the transfer request; transmitted sion of the context identifier from the device to the first terminal, - in that the first terminal comprises second transmission means (ECR1) capable of transmitting the context identifier from the first terminal to the second terminal, - in that that the second terminal comprises third transmission means able to transmit the received context identifier and the terminal identifier of the second terminal from the second terminal to the device. Device (DSP) capable of managing a transfer of information from a first entity to a second entity associated with a first terminal and a second terminal, respectively, characterized in that it comprises - first reception means (RCP ) a transfer request from the first terminal, the request including at least the terminal identifier of the first terminal, - creation and storage means (CRT) of a context identifier - association means (CRT) ) of the context identifier with data related to the transfer request, followed by first means of transmission from the device to the first terminal of the context identifier, second receiving means able to receive the context identifier from the second terminal and the terminal identifier of the second terminal. 11. Terminal (TRM1), said first terminal, able to communicate via at least one communication network with a second terminal (TRM2), the first terminal being associated with an entity, called first entity, from which information is able to be transferred to a second entity associated with the second terminal, the first terminal being characterized in that it comprises - information transfer request means from the first entity to a second entity associated with the second terminal, - reception means of the second terminal; a context identifier, means for transmitting the context identifier to the second terminal. 12. Terminal (TRM2), said second terminal, able to communicate via at least one communication network with another terminal, said first terminal, said second terminal being associated with a terminal identifier (ID2) and a first entity (CB1). entity, entity from which information is able to be transferred to a second entity associated with the second terminal, the first terminal being characterized in that it comprises - means for receiving a context identifier from the second terminal; means for transmitting the context identifier and the terminal identifier of the second terminal destined for a device capable of transferring information from the first entity to a second entity associated with the second terminal, 13. Computer program adapted to be implemented on a device as defined in claim 10, the program comprising code instructions which, when executed by a processor, performs the following steps: a first step receiving, by the device, a transfer request from the first terminal, the request including at least the terminal identifier of the first terminal, - a step of creating and storing a context identifier - a step of d associating the context identifier with data related to the transfer request, followed by - a step of transmission from the device to the first terminal of the context identifier, - a second reception step able to receive the identifier context as well as the terminal identifier from the second terminal. 14. Computer program adapted to be implemented on a terminal as defined in claim 11, the program comprising code instructions which, when executed by a processor, performs the following steps: a step of request for transfer of information from the first entity to a second entity associated with the second terminal, - a step of receiving a context identifier, - a step of transmitting the context identifier to the second terminal. 15. Computer program adapted to be implemented on a terminal as defined in claim 12, the program comprising code instructions which, when executed by a processor, performs the following steps: a step of receiving a context identifier from the second terminal; a step of transmitting the context identifier and the terminal identifier of the second terminal to a device able to transfer information from the first entity to a second entity associated with the second terminal.