FR2898239A1 - METHOD FOR REDIRECTION OF A CALL AND MOBILE TERMINAL ADAPTED TO IMPLEMENT SUCH A METHOD - Google Patents

Abstract

This method of redirecting a call can be implemented by a first mobile terminal in a telecommunication network. It comprises: a step (E10) of receiving this call; a step (E50) of sending a call forwarding request to at least a second mobile terminal active near the first terminal; and when receiving (E60) a positive response to this request: a step (E70) for transferring this call to one of the second active mobile terminals in a communication channel established between the first mobile terminal and the second mobile terminal .

Description

Method of redirecting a call and mobile terminal adapted to implement

  This invention relates to a call redirection method and a mobile terminal capable of implementing this method. BACKGROUND OF THE INVENTION In a preferred use, the call redirection method according to the invention can be implemented in the form of a service offered by a mobile operator by registering or registering users wishing to benefit from this service. The call redirection method according to the invention aims, in a general way, a solution for handling calls intended for a user when this call can not succeed, in particular because of the unavailability of this user or his terminal . Call forwarding mechanisms are known that make it possible to transfer a call intended for a first terminal to a second terminal under predefined conditions, for example in the case of occupancy or non-response. In this solution, it is necessary for the call to succeed that the user is close to the second terminal, and that this terminal is available. Also known call forwarding mechanisms to a voicemail, these mechanisms allowing only the caller to leave a later searchable message by the recipient user of this call. OBJECT AND SUMMARY OF THE INVENTION The main object of the present invention is to overcome the aforementioned drawbacks.

  More precisely, it relates, according to a first aspect, to a method of redirecting a call transmitted by a source terminal that can be implemented by a first mobile terminal receiving this call in a telecommunications network, this method comprising the following steps: a step of receiving the call by the first mobile terminal; a step of sending a call forwarding request to at least one second mobile terminal active near the first mobile terminal; and, in case of receiving a positive response to this request: a step of transferring the call to one of these second active mobile terminals in a local communication channel established between the first mobile terminal and the second mobile terminal, so as to establish a communication between the source terminal and the second mobile terminal. Correlatively, the invention relates to a mobile terminal able to communicate with other mobile terminals in a telecommunications network, this terminal comprising: means for receiving a call transmitted by a source terminal; means for sending a call redirection request to at least one second mobile terminal active near this mobile terminal; Means for transferring the call to one of these second active mobile terminals in a local communication channel established between this mobile terminal and the second mobile terminal, so as to establish a communication between the source terminal and this second mobile terminal . The method and the terminal according to the invention thus allow a call to terminate on a mobile terminal located near the addressee of this call. The redirection service according to the invention differs from the current call transfer services to terminals or predefined zones by a solution in which the call is transferred to a terminal chosen dynamically as a function of its proximity to the terminal. recipient of the call, at the time of this call. The call redirection method may for example be used in a public place, for example a café, to redirect a call to the mobile terminal of a nearby unknown. In another usage scenario, the call can be used in a business context to redirect a call to the terminal of a collaborator located in the same meeting room. In a particular embodiment of the invention, the conditions under which the call is transferred to the second mobile terminal are defined by configuration parameters of the first terminal. These configuration parameters may, for example, specify that the call is transferred upon receipt, on busy, or after a predefined number of rings. In a particular embodiment, the first mobile terminal verifies, prior to sending the redirection request to a second active mobile terminal, that the second active mobile terminal is registered in a list called "list of potential target terminals". Otherwise, it does not issue a redirection request. In another particular embodiment of the invention, non-exclusive of the preceding, the first mobile terminal verifies that the source terminal is registered in a list called "list of authorized source terminals". Otherwise, it does not issue a redirection request. In another particular embodiment of the invention, the first mobile terminal verifies, prior to sending the redirection request, that each of the mobile terminals in play, namely the source terminal, the first mobile terminal and the second mobile terminal. active mobile terminal recipient of the request, is registered in the same list called "group list". In a particular embodiment of the invention, the terminals can register in at least one of the aforementioned lists for a predetermined duration. For example, a group of friends wishing to prepare a weekend, can register in a temporary group list for the duration of this preparation. In a particular embodiment of the invention, the first mobile terminal comprises at least one of these lists. One or more of these lists may for example be recorded or combined with an address book of the first mobile terminal, for example in a SIM card. In a particular embodiment of the invention, the first mobile terminal is adapted to obtain at least one of these lists from a server of the telecommunications network. When the first terminal is able to support the SIP protocol, this server can be constituted by a SIP proxy. This server can also be constituted by a location server.

  This location server can be constituted by a HLR server ("Home Location Register") of the GSM network. In this embodiment, obtaining the necessary information for the transfer of call to the HLR server can be carried out by means of the supplementary service control procedures defined by the GSM 04.10 standard. When a communication channel is established between the source terminal and the first terminal, for example to enable the sending of a waiting message, this information can be obtained during communication and processed by the CC layers (Cali Control ) defined by this standard as, in known manner, for the management of a double call. This particular embodiment is particularly advantageous because such a location server is able to communicate to the first terminal the list of potential target terminals actually present in the area of the first terminal. In a particular embodiment of the invention, the call redirection request includes an identifier of the source terminal at the origin of this call. Thus, the second mobile terminal can accept or reject the call transfer depending on the source terminal at the origin of this call. In a particular embodiment of the invention, the method comprises a step during which the first mobile terminal sends a confirmation message to the source terminal, the step of sending a call redirection request being carried out. only if you receive a positive response to this confirmation message. Thus, the call is transferred to a second mobile terminal only after the caller's explicit agreement. In this particular embodiment, it is conceivable to establish a communication channel between the caller and the first mobile terminal during the entire selection phase of the second terminal and call redirection. This communication channel can be used to issue a waiting message to the calling user. In an alternative embodiment of the invention, the first mobile terminal sends call redirection requests, blindly, hoping that a second terminal responds positively.

  In a second variant, before the step of sending this redirection request, the method according to the invention comprises a step of detecting the presence of at least one second terminal capable of receiving the call and active near the first terminal.

  In a particular embodiment of the invention, the first mobile terminal checks, before sending the request to a second mobile terminal, the receipt of a notification message from this terminal. In this scenario, it can be envisaged that the second mobile terminals, detecting the presence of the first terminal, send a notification message to signal the fact that they are active and inclined to receive a call for this first terminal. In a particular embodiment, the first mobile terminal considers that a second mobile terminal is active and close to it when these two terminals belong to the same wireless local area network. In particular, this wireless local area network may be constituted by a network compliant with the Bluetooth standard or with the WiFi standard as defined by the IEEE (Institute of Electrical and Electronics Engineers). In the case of a WiFi network, we can refine this location by integrating the WiFi access point a more accurate location system using triangulation or membership in a given repeater. In a known manner, a WiFi mobile must signal itself when entering a WiFi zone. In a particular embodiment of the invention, when the mobile enters a WiFi zone, it communicates its identity and the list of mobile terminals with which it agrees to implement the call redirection service. Thus, when a mobile terminal of this zone receives a call, it can redirect this call immediately to another terminal of the zone which has previously agreed to this effect. In a particular embodiment of the invention, the local communication channel between the first and the second mobile terminal is established in accordance with the Bluetooth (registered trademark) standard. Thus, the method according to the invention establishes a Bluetooth channel between the called mobile terminal and the final recipient, so as to obtain a mixed GSM / Bluetooth uninterrupted channel between the caller and the final recipient.

  In a particular embodiment of the invention, the local communication channel 5 between the first and the second mobile terminal is established in accordance with the WiFi standard. Thus, the method according to the invention establishes a VoIP channel between the called mobile terminal and the final recipient so as to obtain a mixed GSM / VoIP uninterrupted channel between the caller and the final recipient. In a particular embodiment, the various steps of the redirection method are determined by computer program instructions. Consequently, the invention also relates to a computer program on an information medium, this program being capable of being implemented in a mobile terminal device or more generally in a computer, this program comprising adapted instructions. implementing the steps of a redirection method as described above. This program can use any programming language, and be in the form of source code, object code, or intermediate code between source code and object code, such as in a partially compiled form, or in any another desirable form. The invention is also directed to a computer-readable information carrier having instructions of a computer program as mentioned above. The information carrier may be any entity or device capable of storing the program. For example, the medium may comprise storage means, such as a ROM, for example a CD ROM or a microelectronic circuit ROM, or a magnetic recording means, for example a floppy disk or a disk. Hard disk. On the other hand, the information medium may be a transmissible medium such as an electrical or optical signal, which may be conveyed via an electrical or optical cable, by radio or by other means. The program according to the invention can be downloaded in particular on an Internet type network. Alternatively, the information carrier may be an integrated circuit in which the program is incorporated, the circuit being adapted to execute or to be used in the execution of the method in question.

  BRIEF DESCRIPTION OF THE DRAWINGS Other features and advantages of the present invention will emerge from the description given below, with reference to the accompanying drawings which illustrate an embodiment having no limiting character. In the figures: - Figure 1 shows schematically a mobile terminal according to the invention; FIG. 2 represents the mobile terminal of FIG. 1 in its environment; FIG. 3 represents, in flowchart form, the main steps of a call redirection method according to the invention in a preferred embodiment; and FIG. 4 represents messages exchanged during a method according to the invention in a particular embodiment implementing the SIP protocol.

  DETAILED DESCRIPTION OF AN EMBODIMENT FIG. 1 represents a mobile terminal 10 according to the invention. In the embodiment described here, this mobile terminal 10 comprises a processor 11, a read-only memory 12, a random access memory 13 and a flash-type non-volatile rewritable memory 14.

  In the example described here, a computer program comprising the instructions for executing the steps of the call redirection method according to the invention is stored in the read-only memory 12, the main steps of this method being represented in form. a flowchart in Figure 3 described below.

  In the example described here, the mobile terminal 10 comprises a GSM module 16 and a SIM card 15 in which is stored an address book 19. We will assume, in this example, that the mobile terminal 10 5 according to the invention comprises a WIFI module 17 and a Bluetooth module 18. These modules are, in this example, used both to detect the presence of active mobile terminals near the mobile terminal 10, and to establish, if necessary, a communication channel 10 with one of these terminals. Of course, at least one of these modules is optional, the mobile terminal 10 according to the invention may include means for detecting presence and different communication establishment. Figure 2 shows the mobile terminal 10 according to the invention in its environment. In this figure, referenced 2 the PSTN switched telephone network and 3 the Internet network. A source terminal 21 is connected to the PSTN network 2. As a variant, the source terminal 21 can be connected to another type of network, for example to the GSM network. The networks RTC 2 and Internet 3 are interconnected by means of a gateway 8a. Reference 4 designates a base transceiver station (BTS) of a public telecommunications network 25 conforming to the GSM standard. In the example described here, it will be considered that the mobile terminal 10 according to the invention is under the coverage of the base station 4. In a known manner, this base station 4 is controlled by a controller 5 (in English "Base"). Station Controller (BSC) itself connected to a switching center 6 (in English "Mobile Services Switching Center" MSC). This switching center 6 is interconnected to the switched telephone network 2 so as to allow, in a known manner, the routing of a telephone call between the source terminal 21 and a GSM terminal under the cover of the base station 4.

  In known manner, the GSM network comprises a location server 7 (in English "Home Location Register" HLR) which maintains the position of the GSM terminals in the network. In the embodiment described here, we will assume that the location server 7 comprises a list L1 of all the mobile terminals having subscribed to a service by which they allow another mobile terminal to transfer them a call. In the example described here, the location server 7 also comprises a list L2 of all the terminals that can be at the origin of a call that can be redirected by the invention. In the example described here, the location server 7 comprises a list L3 in which terminals can be registered to form a group within which the calls can be redirected. As previously described, the recording in a list L1, L2 or L3 may be temporary, and for example linked to a particular event. In the example described here, we will consider that the source terminal 21 is registered in the list L2 of authorized source terminals. In the example described here, we will consider that the list L1 of 20 potential target terminals includes the identifier of a mobile terminal GSM 23. We will also assume that the source terminal 21 and the mobile terminals 10 and 23 are adapted to implement implement the SIP signaling protocol as defined by the Internet Engineering Task Force (IETF) in RFC 3261. In the example described here, we will assume that the SIP clients of the terminal 23 and the mobile terminal 10 are respectively connected. to a SIP proxy server 31a and a SIP proxy server 31b. In Figure 2, there is referenced 32 a SIP redirection server. FIG. 2 shows an access point 9 of a wireless local area network according to the WiFi standard. This access point 9 defines a cell 33 in which is located the mobile terminal 10 according to the invention and the mobile terminal 23 recorded in the list L1, this terminal comprising a WiFi module. In known manner, the access point 9 is connected to the IP network 3 via a gateway 8b.

  In this example, we will consider that a GSM terminal 22, located near the mobile terminal 10, is not a potential target terminal, the latter not being registered in the list L1. In the example described here, we will assume that the mobile terminal 10 establishes a Bluetooth connection with the mobile terminal Bluetooth 22. We will now describe with reference to Figure 3 the main steps of a redirection method according to the invention in a particular embodiment.

  We will first consider that the mobile terminal 10 receives, from the location server HLR 7, via the base station 4, the list of GSM terminals located in its vicinity. In this case, we will consider that the mobile terminal 10 knows that the GSM terminals 22 and 23 are in its vicinity.

  Furthermore, we will consider that entering the WiFi cell 33 the mobile terminal 10 according to the invention has received information that the GSM terminal 23 was connected to the access point 9 according to the WiFi protocol. Finally, we will consider that the mobile terminal 10 has detected the presence of the mobile terminal GSM 22 by receiving Bluetooth signaling messages transmitted by this terminal 22. During a first step E10 the source terminal 21 connected to the network RTC 2 sends a call to the mobile terminal 10 according to the invention. In the example described here, we will consider that the user of the mobile terminal 10 has chosen to redirect any call upon receipt, this redirection being subject to the agreement of the caller. Thus, during a step E20, the mobile terminal 10 according to the invention transmits, via the GSM communication channel established with the source terminal 21, a message inviting the user of this terminal 21 to confirm whether accepts or not that his call is redirected to a second mobile terminal partner of the mobile terminal 10. We will assume that the user of the source terminal 21 agrees, for example by sending a DTMF key sequence. This positive response is received by the mobile terminal 10 during a step E30.

  This step is then followed by a step E40 during which the mobile terminal 10 detects the presence of mobile terminals located in its vicinity. In the example described here, this detection step E40 consists of compiling the various information received from the access point 9, the location server HLR 7 of the GSM network and the presence signals received according to the Bluetooth protocol. Thus, during this detection step E40, the mobile terminal 10 has detected the presence of the mobile terminals 22 and 23.

  During a step [45, the mobile terminal 10 according to the invention checks, on the one hand, if the call sent by the source terminal 21 can be transferred to a third party, and secondly, if the terminals mobiles 22 and 23 are potential target terminals within the meaning of the invention, that is to say belonging to users who subscribed to the redirection service.

  In the embodiment described here, this double check is done by reading lists L2 and L1 respectively. In the embodiment described here, it is not checked whether the terminals 21, 10 and 22, 23 belong to the same group. In one variant, the mobile terminal 10 simply checks whether at least one of the mobile terminals 22, 23 is registered in its address book 19. In the example described here, the mobile terminal 21 is registered in the list L2 of the authorized source terminals and only the mobile terminal 23 is registered in the list L1. Accordingly, during a step E50, the mobile terminal 10 according to the invention sends a call redirection request to the mobile terminal 23. We will assume, in this example, that this redirection request includes the identifier 21 of the source terminal and that upon receipt of this redirection request, the mobile terminal 23 accepts to receive a call from this terminal 21. Thus, on receipt (step E60) of this positive response transmitted by the mobile terminal 23, the mobile terminal 10 establishes a communication channel with the mobile terminal 23 and transfers the call from the source terminal 21 in this communication channel.

  We will now describe with reference to Figure 4 how the call of the source terminal 21 for the mobile terminal 10 can be transferred to the mobile terminal 23 in an embodiment implementing the SIP protocol. In a known manner, when the source terminal 21 wants to make a SIP call, the SIP client of this terminal sends an INVITE request to the SIP proxy 31a to which it is connected. This request is sent to the redirection SIP server 32. The redirection server 32 sends back to the SIP proxy server 31a the address of the mobile terminal 10 by a MOVED response indicating that the destination mobile terminal 10 has changed its proxy server. The proxy server 31a sends an ACK request to the redirection server 32, not shown here, to acknowledge this message. Then, the proxy server 31a sends an INVITE request to the proxy server 31b of the recipient. On receipt of this INVITE request, the destination proxy server 31b sends an INVITE request to the mobile terminal 10. This request includes the identifier of the source terminal 21. In the example described here, we consider that the mobile terminal 10 wishes to redirect the request. call to the GSM terminal 23 as previously described with reference to FIG.

  Consequently, the mobile terminal 10 according to the invention sends a redirection request "REDIRECT" to the proxy server 31b to which it is connected, this redirection request comprising the address of the SIP client of the mobile terminal 23. Upon receipt of this request for redirection, the SIP proxy 31b sends an INVITE request to the mobile terminal 23. We assume in this example that the user of the mobile terminal 23 accepts this call. Communication is then established in accordance with the SIP protocol between the source terminal 21 and the mobile terminal 23.

Claims (15)

  A method for redirecting a call transmitted by a source terminal (21) that can be implemented by a first mobile terminal (10) receiving this call in a telecommunications network (2, 3), this method comprising the steps following: a step (E10) for receiving said call by said first mobile terminal (10); a step (E50) of sending a call forwarding request to at least one second active mobile terminal (23) in the vicinity of said first mobile terminal (10); and, in case of reception (E60) of a positive response to said request: a step (E70) of transferring said call to a said second active mobile terminal (23) in a local communication channel established between said first mobile terminal (10) and this second mobile terminal (23), so as to establish a communication between said source terminal (21) and the second mobile terminal (23).   2. redirection method according to claim 1, characterized in that it comprises, prior to the sending (E50) of said redirection request, a step (E45) during which the first mobile terminal (10) verifies that said at least one second active mobile terminal (22, 23) is registered in a list (L1) called list of potential target terminals.   3. Redirection method according to claim 1 or 2, characterized in that it comprises a step (E45) in which the first mobile terminal (10) verifies that said source terminal (21) is registered in a list (L2). ) said list of authorized source terminals.   4. redirection method according to any one of claims 1 to 3, characterized in that it comprises, prior to the sending (E50) of said redirection request, a step (E45) during which the first terminal mobile (10) verifies that said source terminal (21), said first mobile terminal (10) and said at least one active second mobile terminal (22, 23) are recorded in a same list (L3) said group list.   5. redirection method according to any one of claims 2 to 4, characterized in that it comprises a step in which at least one of said terminals (21, 10, 22, 23) is recorded in at least one said lists (L1, L2, L3) for a predetermined duration.   6. redirection method according to any one of claims 2 to 5, characterized in that said first mobile terminal (10) comprises at least one of said lists (L1, L2, L3).   7. redirection method according to any one of claims 2 to 6, characterized in that said first mobile terminal (10) is adapted to obtain at least one of said lists (L1, L2, L3) from a server ( 7, 31) of said telecommunications network.   8. Redirection method according to any one of claims 1 to 7, characterized in that it comprises a step ([20) during which said first mobile terminal (10) sends a confirmation message to said source terminal (21). ), said sending step (E50) of a call redirection request being performed only in case of reception (E30) of a positive response to said confirmation message.   9. redirection method according to any one of claims 1 to 8, characterized in that, before said sending step (E50), said first mobile terminal (10) verifies ([40] the receipt of a message of presence notification from said at least one second mobile terminal (22, 23).   10. Redirection method according to any one of claims 1 to 8, characterized in that said first mobile terminal (10) considers that a second mobile terminal (22, 23) is active and in its vicinity, as long as said first (10) and second (22, 23) terminals belong to the same wireless local area network.   11. Redirection method according to any one of claims 1 to 10, characterized in that said local communication channel between said first (10) and second (22) mobile terminals is established in accordance with the Bluetooth (registered trademark).   12. redirection method according to any one of claims 1 to 10, characterized in that said local communication channel between said first (10) and second (23) mobile terminals is established in accordance with the WiFi standard.   13. Mobile terminal (10) capable of communicating with other mobile terminals (22, 23) in a telecommunications network, this terminal comprising: means (16) for receiving a call transmitted by a source terminal (21). ); means (17, 18) for sending a call redirection request to at least one second mobile terminal (23) active near said first terminal (10); and - means (17) for transferring said call to a said second active mobile terminal (23) in a local communication channel established between said first mobile terminal (10) and said second mobile terminal (23), so as to establish a communication between said source terminal (21) and said second mobile terminal (23).   A computer program comprising instructions for performing the steps of the call redirection method according to any one of claims 1 to 12 when said program is executed by a computer.   15. A computer-readable recording medium (12) on which is recorded a computer program comprising instructions for executing the steps of the call redirection method according to any one of claims 1 to 12.30.