FR2911468A1 - Telephonic communication i.e. voice call, continuity ensuring method for e.g. mobile telephone, involves authorizing connection of communication to permit voice call continuity during fields' communication when preset condition is respected - Google Patents

Abstract

The method involves determining a respect of a predetermined condition concerning a location of a mobile terminal e.g. mobile phone, by telephonic communication i.e. voice call. Connection of the telephonic communication is authorized for permitting voice call continuity during communication between communication fields e.g. global system for mobile communication (GSM) mobile telephone cellular network and voice over Internet protocol (VoIP) network, when the predetermined condition is respected. Independent claims are also included for the following: (1) a telephonic communication continuity ensuring device comprising a request determining unit (2) a computer program comprising instructions to perform a method of ensuring continuity of telephonic communication (3) an information medium comprising instructions to perform a method of ensuring continuity of telephonic communication (4) a signal emitted by a telephone terminal, comprising a terminal identifier.

Description

The present invention relates to a method and a device for

  communication intended to ensure continuity of communication. It applies, in particular, to the field of telephone communications likely to successively implement a mobile telephone network and a computer network, such as the Internet, known as VoIP (acronym for Voice on Internet Protocol for voice on internet protocol). Voice continuity, known as VCC (acronym for Voice Cali Continuity), refers to the continuity of communications between one area of communication means to another according to their availability, without the communication being cut off. Among these areas of communication means are in particular, the field of conventional telephony, fixed or mobile and the field of VoIP implemented through a terminal home Internet access (or HomeGateway), professional or collective (or hot spot), communicating wireless short-distance, for example according to the protocol Wifi (acronym for Wireless fidelity for wireless fidelity). The continuity of voice makes it possible in particular to prolong a call initiated or received when one moves away from this terminal of access to the Internet (for example when leaving the house or the office) and that one exceeds the range of communication with this terminal. In the same way, this continuity makes it possible to pass in VolP a call initiated or received on a mobile network when approaching an access IP (acronym of internet protocol for Internet protocol), in particular while returning in its domestic zone , or homeZone or professional.

  The 3GPP standard (acronym for the 3rd Generation Partnership Project for Third Generation Partnership Project) defines voice continuity in TS 23.206 and TS 24.206. The chosen solution proposes to anchor the calls in an application server, or AS (acronym of Application Server) located in the IMSNoIP network (acronym for IP Multimedia Subsystem for IP multimedia subsystem). Anchor means here that the call goes through the application server, the signaling of the call being routed to this application server so that it can, if necessary, organize the transfer of domain. These documents provide an anchoring of calls (of all calls according to configuration), passed in GSM / CS (acronym for Global System for Mobile I Circuit Switch for global system for mobile / circuit switching) or on an IMSNoIP network, on a server application connected to the IMSNoIP network, according to the following procedure: - the terminal having initiated or received a call in VoIP, whose signal quality with its access to the Internet becomes weak, initiates a HandOver (in French change of hands), together of operations allowing a mobile phone to change cells without interruption of service, by initiating a circuit switching call to the voice continuity application server, - the terminal having initiated or received a circuit switching call which detects a connection to an internet access terminal allowing VoIP, initiates a HandOver by initiating a VoIP call to the voice continuity application server. This technique works in the case of calls initiated or received in VoIP, but this becomes problematic for calls initiated or received on a mobile network that will have to be routed to the domain IP means with an overload of signaling and gateways ( in english gateways). The present invention aims, in a first aspect, a method of continuity of communication, characterized in that it comprises: - a step of determining compliance with a predetermined condition 30 concerning a telephone communication and - when said condition is met, an authorization step of anchoring said telephone communication to allow continuity of voice in one area of communication means to another area of communication means. Thanks to these provisions, are anchored only calls that meet the predetermined condition, which avoids cluttering the anchoring systems by calls that do not require it. The use of at least one anchoring condition thus enables the operator to optimize his network. It thus obtains a gain at the network level (in terms of signaling), at the dimensioning level of the equipment (it reduces the risk of bottlenecks), and / or at the level of the path covered by the call (the unanchored calls with a shorter path Calls initiated (or received) on a mobile network should rarely switch to VoIP, for example when arriving in the home zone or within range of a collective access point to the Internet and the implementation of the present invention provides means for selectively limiting the anchoring of these calls in the domain of the internet means, whereby it is possible not to anchor all the calls made from a mobile phone to the Internet. IP network and avoids the overhead caused by the majority of calls made from mobile and which are unlikely to go into VoIP. oix by activating its resources only if the user is ready from his home Internet access point or from a collective Internet access point, for example a wifi hot spot. According to particular features, said predetermined condition relates to the location of at least one terminal concerned by said telephone communication. According to particular features, said predetermined location condition authorizes the anchoring of initiated communications when the terminal is in range of a communication device of the user's home area.

  According to particular features, said predetermined location condition allows the anchoring of communications when the terminal is in range of a predetermined community access terminal. According to particular features, the communication continuity method as briefly described above includes a step of locating at least one terminal. Thanks to each of these provisions, the anchoring is performed when the user is within range of a communication device allowing a change of communication medium (handover), which avoids anchoring communications that are unlikely to change. communication support. Indeed, in the majority of cases, calls initiated on a mobile network, far from home, are not likely to switch to VoIP when arriving within range of the domestic area and it is therefore unnecessary and expensive to anchor them systematically. According to particular characteristics, during the step of determining compliance with the predetermined condition, a server compares the location of the terminal with information of location of collective Internet access terminals and / or information of location of the home base station of the user. According to particular features, said predetermined condition relates to a request for anchoring by a terminal. Thus, the phone initiating the call may, for example, use a particular header to indicate that the call must, or must not be anchored. It is observed that as regards the receiving telephone, it is preferable that the decision to anchor or not the communication is implicit, for example by being determined during the rental register information sent by the terminal to the network. According to particular features, said predetermined condition relates to the availability of anchoring resources. Thanks to these arrangements, a resource optimization of the voice continuity application server is performed, linked to the availability of resources, especially in the transient phases, by activating these resources only if they are sufficiently available. For example, we decide on the anchoring or not based on available information indicating whether the possibilities of triggers (in French triggers) are insufficient. According to a second aspect, the present invention aims a communication continuity device, characterized in that it comprises: - means for anchoring a telephone communication, to allow the continuity of voice during a range of means of communication to another field of communication means, - means for determining compliance with a predetermined condition relating to a telephone communication and - anchoring authorization means authorizing the anchoring of the communication when said condition is met. According to a third aspect, the present invention is directed to a computer program loadable into a computer system, said program containing instructions for implementing the communication continuity method as succinctly set forth above, when this program is loaded and executed by a computer system. According to a fourth aspect, the present invention aims at a support of information readable by a computer or a microprocessor, removable or not, retaining instructions of a computer program, characterized in that it allows the implementation of the continuity process communication as succinctly set forth above. According to a fifth aspect, the present invention relates to a signal transmitted by a telephony terminal, characterized in that it comprises an identifier of the terminal and information representative of an anchoring authorization of at least one telephone communication concerning said terminal. . The advantages, aims and particular characteristics of this communication continuity device, of this computer program, of this information medium and of this signal being similar to those of the communication continuity method as briefly described above, they are not remembered here.

  Other advantages, aims and features of the present invention will emerge from the description which follows, made for an explanatory and non-limiting purpose with reference to the appended drawings, in which: FIG. 1 schematically represents a communication device object of the present invention and the areas of use of a mobile telephone, FIG. 2 represents, in the form of a logic diagram, the steps implemented in a first particular embodiment of the communication method which is the subject of the present invention and FIG. 3 represents, in the form of a logic diagram, the steps implemented in a second particular embodiment of the communication method that is the subject of the present invention. Throughout the description, a telephone is called any communicating mobile terminal for initiating or receiving a communication, including telephone, on a mobile network and an IP telephony network. This definition corresponds to the concept of mobile station (in English MS or mobile station) used in telephony. A phone can therefore be a mobile phone, a personal digital assistant (known as PDA, acronym for personal digital assistant) or a smartphone, that is to say a personal digital assistant with telephony functions, for example . Note that the description given below relates, for example, the continuity of voice. However, the scope of the present invention extends to the continuity of any communication, for example a communication with image transmission, particularly animated, or data. FIG. 1 shows three zones: a zone 101 which corresponds to an area where the VoIP / IMS is accessible, the terminal being in the communication range of a collective access terminal or its terminal; household or professional access, - an area 102 which corresponds to the coverage of the mobile telephony network close to the home, the office or public internet access points and - an area 103 which corresponds to a remote area, from which the probability of using a voice continuity mechanism is low. The voice continuity consists of passing without a communication break, from a zone 101 to a zone 102 or from a zone 102 to a zone 101 (that is to say from a domain of communication means, for example one mobile phone network to another, for example means for VoIP / IMS communication, or vice versa). For this purpose, a voice continuity application server 105 determines whether a call initiated or received by a mobile phone 110 fulfills a predetermined condition and, if so, anchors the call. The application server 105 implements, for example, the steps illustrated in FIG. 2 or 3. It can be observed that, in other embodiments, a server dedicated to carrying out the method that is the subject of the present invention (not shown) determines, for each call on a mobile network, whether the predetermined anchor condition is met and transmits the call or anchor data of the call to the service continuity application server. voice 105 only if the predetermined condition is met, so that the voice continuity application server anchors the call in question. It is noted that the anchoring condition can be applied both to the telephone initiating the communication and to the terminal receiving the communication. In order to implement the method that is the subject of the present invention, the voice continuity application server 105 comprises: - means for anchoring a telephone communication, of known type, - means for determining compliance with a predetermined condition concerning a telephone communication, for example a processor implementing a program implementing the method that is the subject of the present invention, and - anchoring authorization means authorizing the anchoring of the communication when said condition is respected, for example a processor implementing a program implementing the method that is the subject of the present invention. To enable the implementation of the computer program, the server 105 uses a computer-readable information medium or a microprocessor, removable or not, retaining instructions of the program.

  The computer program, loadable in a computer system, contains instructions allowing the implementation of the communication continuity method when this program is loaded and executed by a computer system, for example the server 105. It can be seen in FIG. for a first particular embodiment of the communication method that is the subject of the present invention, a step 200 of determining a condition for anchoring a communication. In the example illustrated in FIG. 2, this condition relates to the location of at least one telephone concerned by the call and in FIG. 3 an explicit or implicit request for an anchor sent by at least one of the telephones concerned by the call. . It will be noted here that a condition actually implemented may comprise several particular conditions such as those set forth with reference to FIGS. 2 and 3 connected by logical operators, such as and and or. With regard to the example of Figure 2, it is assumed that this is a condition allowing the anchoring of a communication when: the user is close to a place where he usually goes, for example his home or office, and which has access to IP telephony, that is to say, it is in a zone 101 where the voice over IP is accessible known by the server associated with the user for the VCC service, or by the terminal of the user, in which case it is this terminal that informs the server of the triggering or not of the anchor or the user is near a public terminal of access to IP telephony, for example a predefined Wifi VoIP terminal to the configuration of the service at the user or operator level. Then, in a step 202, a user initiates or receives a telephone call. During a step 204, the location of at least one of the users, calling and called, is determined. For example, in step 204, a used GSM terminal, a VLR address, or a location of a cell of a cellular telephone network to which the telephone is connected is determined.

  It is recalled here that the VLR (acronym for Visitor Location Register) is an element of the GSM mobile cellular network. The VLR is a temporary database containing information about all users who are managed by the MSC (acronym for Mobile Service Switching Center for Mobile Service Center) to which this VLR is attached. The smallest spatial unit for locating a subscriber using a mobile station is the Location Area. This zone is in fact the grouping of several cells, so concerns (a priori) several BTS (acronym basic transceiver station for base transmission station) at a time: each zone receives a unique code, the Location Area Code. At a given moment, a subscriber is only in one Location Area, so only one VLR contains an entry in its base concerning this subscriber. This uniqueness is used to find a subscriber in the network. The VLR contains, inter alia, the following information: - IMSI (acronym for International Mobile Subscriber Identity for International Mobile Subscriber Identity), -TMSI (acronym for Temporary Mobile Subscriber Identity for Temporary Mobile Subscriber Identity), - MSRN ( acronym for Mobile Subscriber Roaming Number for 30 mobile subscriber transfer number), - LAI (acronym for Location Area Identification for location area identification), - the MSC address and - the HLR address (acronym for home) location register for central location register), a central database containing information about any subscriber authorized to use this network.

  The LAI is an identifier which includes in particular the Location Area Code of the area in which the mobile phone in question is located. When the mobile phone changes location area or when it has just been turned on, it sends a Location Update message to indicate in which zone (LAI) and in which cell it is located. find. Conversely, if an outside call wants to join this mobile phone, a particular message (called paging) is sent on the signaling channel throughout the location area with the temporary identifier (TMSI) as the key for the mobile phone stands out and indicates in which cell it is.

  During a step 206, the voice continuity application server compares the location of at least one telephone concerned by the communication with the contents of a database specifying, on the one hand, the antennas close to each other. a terminal for access to a public voice over IP service, for example a Wifi hot spot, and, secondly, the location of each home or business access point of the user of this telephone. During a step 208, the voice continuity application server determines whether the predetermined condition concerning the location of the user is fulfilled. If the predetermined condition is not fulfilled, during a step 210, the voice continuity application server does not perform the anchoring and, during a step 212, the communication is established without anchoring. , in a manner known per se, over the mobile telephone network or voice over IP, regardless of the evolution of the location of the users concerned by the communication.

  If the predetermined condition is fulfilled, during a step 214, the application server authorizes the anchoring and, during a step 216, the anchoring is performed and the communication is established on the mobile telephone network or voice over IP. Then, during a step 218, it is determined whether the communication must pass on other means of communication. For example, the communication must pass over other means of communication when the user can access an IP telephony service or when he can no longer access such a service. For example, the user can access an IP telephony service when he is within reach of a Wifi terminal. Otherwise, step 218 is repeated. If yes, during a step 220, the communication is passed to the other means of communication by implementing the anchoring established during step 216 and it returns to Step 218. It will be noted that several switching of communication means may succeed one another during the same telephone communication, for example when a user who has an access zone to an IP telephony service then enters another zone. access to such a service.

  FIG. 3 shows, for a third particular embodiment of the communication method that is the subject of the present invention, a step 300 of determining a condition for anchoring a communication. In the example illustrated in FIG. 3, this condition concerns an explicit or implicit agreement on the part of each user of a calling or called mobile telephone. The anchoring condition is expressed as the value of information transmitted by the mobile phone to authorize or prohibit the anchoring. It should be noted here that this information can be the result of a specific input by the user before a telephone call, the result of a selection of a functioning parameter of the mobile telephone and this information can be communicated by the mobile telephone for each new call or keep in a database until it is modified by the user. With regard to the receiving telephone, it is preferable that the decision to anchor or not the communication is implicit, for example by being determined during the rental register information sent by the terminal to the network and kept by a database. With regard to the example of Figure 3, it is assumed that this is a condition allowing the anchoring of a communication when information is transmitted by the mobile phone. It is observed that this information is not necessarily transmitted during the initialization of the call, but can also, depending on the embodiments, be preliminary, by information sent by the terminal to the network.

  Then, during a step 302, a user enters an anchor request or an anchor refusal, for example via operating parameter menus of his mobile phone or specifically for the next call and he initiates or receives a phone call. The information transmitted to the mobile telephone network concerning this call represents this request or this refusal, for example in a header. In this embodiment of the method that is the subject of the present invention, a signal transmitted by the telephony terminal is implemented, a signal that includes an identifier of the terminal and information representative of an authorization for anchoring at least one communication. telephone relating to said terminal. During a step 304, it is determined whether information transmitted by the telephone represents an anchoring request. In a step 308, the voice continuity application server determines whether the predetermined condition regarding the user's request is met. If the predetermined condition is not fulfilled, during a step 310, the voice continuity application server does not perform the anchoring and, in a step 312, the communication is established without anchoring , in a manner known per se, on the mobile telephone network or voice over IP.

  If the predetermined condition is fulfilled, during a step 314, the application server authorizes the anchoring and, in a step 316, the anchoring is performed and the communication is established on the mobile telephone network or voice over IP. Then, during a step 318, it is determined whether the communication must pass on other means of communication. For example, the communication must pass over other means of communication when the user can access an IP telephony service or when he can no longer access such a service. For example, the user can access an IP telephony service when he is within reach of a Wifi terminal. Otherwise, step 318 is repeated. If yes, during a step 320, the communication is passed to the other means of communication by implementing the anchoring established during step 316 and it returns to step 318. In variants, the predetermined anchoring condition relates to the availability of anchoring resources: these resources are only activated if they are sufficiently available. For example, we decide whether to anchor or not based on the available information indicating whether the possibilities of the triggers are insufficient. These are, for example, CAMEL triggers (acronym for Customized Application for Mobile Network Enhanced Logic for Custom Application for Enhanced Mobile Network Logic). As understood by reading the description, the implementation of the present invention allows the network operator to optimize the use of resources, including the voice continuity application server of his network. For example, in the case of the use of location information, the implementation of the present invention makes it possible not to anchor all the calls made on the mobile telephone network and thus avoid the overload caused by the majority Calls made on the mobile phone network that have no chance of switching to VoIP. This results in a gain in the network, as far as signaling is concerned, in the dimensioning of the equipment since it avoids excessive use of resources and the path covered by the call. It is observed that the description given above concerns the continuity of voice. However, the scope of the present invention extends to any continuity of communication, for example with image or data transmission.

Claims (6)

  1 - Method of continuity of communication, characterized in that it comprises: - a step (206, 208, 308) of determining the respect of a predetermined condition concerning a telephone communication and -when said condition is respected, a step ( 214, 314) anchoring said telephone communication to allow voice continuity in one area of communication means to another area of communication means. 2 - Process of continuity of communication according to claim 1, characterized in that said predetermined condition relates to the location of at least one terminal concerned by said telephone communication. The method of continuity of communication as claimed in claim 2, characterized in that said predetermined location condition authorizes the anchoring of initiated communications when the terminal is within range of a communication device of the user's home area. 4 û Process of continuity of communication according to any one of claims 2 or 3, characterized in that said predetermined condition concerning the location authorizes the anchoring of communications when the terminal is within range of a collective access terminal to the Internet predetermined. 5 Procédé Process of continuity of communication according to any one of claims 2 to 4, characterized in that it comprises a step (204) for locating at least one terminal. The method of communication continuity according to claim 5, characterized in that, during the step of determining compliance with the predetermined condition (206, 208), a server compares the location of the terminal with the location information of the terminal. collective access terminals and / or a location information of the user's home access terminal .- A method of communication continuity according to any one of claims 1 to 6, characterized in that said predetermined condition relates to an application for anchoring by the terminal. 8 û Process of continuity of communication according to any one of claims 1 to 7, characterized in that said predetermined condition relates to the availability of anchoring resources. 9 - Communication continuity device (105), characterized in that it comprises: - means for anchoring a telephone communication, to allow continuity of voice during a domain of communication means to another domain communication means; means for determining the respect of a predetermined condition relating to a telephone communication; and anchoring authorization means authorizing the anchoring of the communication when said condition is met. 10 - computer program loadable in a computer system, said program containing instructions for implementing the communication continuity method according to any one of claims 1 to 8, when the program is loaded and executed by a computer system . 11 - Support for information readable by a computer or a microprocessor, removable or not, retaining instructions of a computer program, characterized in that it allows the implementation of the method of continuity of communication according to any one of Claims 1 to 8. 12 - Signal transmitted by a telephony terminal, characterized in that it comprises an identifier of the terminal and information representative of an authorization to anchor at least one telephone communication concerning said terminal.