FR2911239A1 - Call terminating system for e.g. global system for mobile communication network, has voice over Internet protocol platform implementing internet protocol by Internet protocol address, and protocol program transmitting and receiving calls - Google Patents

Abstract

The system has a reference authentication server (SAR) communicating with a home location register (HLR) via a mobile application part protocol. A radius and authentication relay server permits a gateway of a voice over Internet protocol (VoIP) mode to find an IP address from a mobile subscriber international number of a mobile telephone and to direct a call in a VoIP mode. Authentication relay client (CRA) program communicates with a subscriber identity module card and the relay server. VoIP platform implements the VoIP by the address, and a VoIP program transmits and receives the calls.

Description

Field of the Invention The present invention relates to a system of

  call termination by the IP Internet network to a mobile number to automatically receive in a mobile station not operating in GSM mode, calls for this mobile number. State of the art Current mobiles can use services: voice, messages, Internet, UMTS video in many countries. In addition, many travelers carry their PC and wish to use it for their telephone and other communications when they are abroad, for convenience and savings. They want to receive phone calls to their usual mobile number. And also, receive calls on their PC even if their mobile does not have roaming coverage, while the Internet is accessible in a wider way, without bilateral agreements. There are many providers that offer services using Voice over IP called VoIP mode which brings a clear cost reduction for calls abroad. The sending of calls by VoIP mode is simple, and it is usual now from a PC to make phone calls. To receive the calls, it is sufficient for the user to make a call forwarding from his mobile to the VoIP platform of his provider. But for that, it is necessary to use the mobile which is impossible if this one is in a zone not benefiting from a roaming agreement in the country visited. There is also recently the UNIK system of the mobile operator Orange. The user must be equipped with a special mobile GSM-WiFI mobile phone with 2 separate parts: 1] a GSM mobile for receiving calls in all cases; and their issue if it does not have WiFI coverage. a WiFI, exclusively to make calls, by registering on a WiFI terminal. In this system, call reception is conventional GSM and only works if there is GSM coverage since it does not pass through the IP network.

  OBJECT OF THE INVENTION The object of the invention is to develop a system which allows a provider, while the user can not use his mobile, to carry out, with his agreement, the return of the received calls and this with a authentication and security equal to that of the GSM system and thus to receive calls on his PC or a mobile not using the GSM function. DESCRIPTION AND ADVANTAGES OF THE INVENTION For this purpose, the invention relates to a call termination system characterized in that it comprises - an authentication and forwarding SAR server, installed in a GSM network and communicating via the MAP standard protocol with the HLR register of this network and also by a local or remote IP link, an authentication relay SRAR server and RADIUS, connected to the SAR server and allowing the VoIP mode platform, from the MSISDN number of the mobile, to find the IP address, dynamic, assigned to the mobile station and to direct the call in Volp mode, this server having only IP interfaces, 20 - a SIM card reader associated with the mobile station, a program (CRA) in the mobile station for communicating with the SIM card placed in the reader, and with the server SRAR, a VoIP platform between the telephone network and the IP telephony, implementing the VoIP protocol in having obtained the IP address from the mobile number, - a VoIP program in the mobile station, making it possible to make and receive calls to the IP address. The invention allows an extension of roaming by IP. The user will be able to receive calls on his PC, as he would receive them on his mobile, wherever the Internet is available, while the corresponding mobile, which does not roam in the hypothesis, can not do anything. The invention is very interesting for small operators who will be able to use PCs as mobiles in 35 countries where they do not have roaming agreements, but also to save money. The operation of controlling the receipt of calls to the mobile number is secure and can not be triggered by a third party fraudulently. The SIM card (with a reader connected to the PC) and the GSM method can therefore be used for authentication. According to another advantageous characteristic of the invention, the network of the SIM card of the number that can be called by a mobile station has an AUC authentication function associated with its HLR register to supply the authentication and forwarding server SAR and on request of the mobile station, provide it with a random number RAND and a code SRES formed from the random number RAND and the key Ki associated with the mobile number, the authentication and forwarding server transmitting these two data, the random number RAND and the SRES code to the authentication relay server + RADIUS SRAR, which transmits the random number RAND to the mobile station PC for it to compute from the SIM code, and applying the key Ki contained in the SIM card, the calculation of a SREScalc code, according to a method analogous to the calculation performed by the authentication function, the SIM card returning via the mobile station, the calculated code SREScalc to the relay relay + RADIUS for it to compare the SRES code and SREScalc code and in case of identity, it accepts the mobile station as being authorized by the SIM card while in case of difference it refuses the access to the mobile station, if accepted, the incoming call is transmitted to the mobile station. According to another advantageous characteristic, after the authentication performed between the SIM card and the AUC function, the mobile number is obtained by the RESTORE DATA procedure which makes it possible to call forward automatically for this number to a VoIP platform. who will end the calls on the client's PC. According to another advantageous characteristic, the SIM card reader is connected to the USB socket in each mobile station. Drawings Embodiments of the invention will be described hereinafter by way of example in the accompanying drawings in which: FIG. 1 shows the PC station registration procedure for receiving calls, FIG. Figure 2 shows the procedure of a call to a mobile number received on the PC set in VoIP mode, Figure 3 shows the card registration and authentication dialog during the registration procedure, Figure 4 shows the details of the authentication procedure of the SIM card, the details of the procedure for obtaining the MSISDN and the details of the procedure for call forwarding Description of embodiments The system according to the invention consists of: equipment and programs associated with a mobile network and mobile stations within the meaning of the invention, that is to say PCs and mobile handsets GSM-WiFI, not using the GSM function for example mobiles who are not e n situation to use the GSM function. According to the invention the mobile station receives the calls while the only connection available is IP, possibly wireless (WiFi) to the mobile. In the case of a mobile telephone in the form of a telephone, if the WiFI mode is active, in the GSM part of the mobile, only the authentication function of the SIM card is used but not the GSM radio part. Components of the system According to FIG. 1, the IP Call Termination system consists of an authentication SAR server accessible via a relay server and the mobile stations, that is to say the PCs or mixed phones include a SIM card reader and a program installed in the mobile station as well as a VoIP platform and a VoIP program.

  In the case of the mobile station constituted by a PC, it is either provided directly with a SIM card reader or connected to a SIM card reader. In the case of the mixed telephone, the SIM card reader is integrated in this mobile. The user of the PC as a mobile phone by the IP 35 or the mixed telephone by the IP channel requires the registration of the PC for receiving calls. This record is combined by a procedure for authenticating the SIM card used by the mobile station. This automatic procedure is performed immediately upon opening the PC. A deregistration procedure is also provided. After recording, the PC is reachable by calls or can make calls. The detailed structure of the system and the operation will be given below. 111 The SAR server is an authentication and forwarding server installed in a GSM network and communicating via the standard MAP protocol (in SS7) with the HLR register (s) of this network. It also communicates via a local or remote IP link. 111 The SRAR server is an Authentication Relay Server and RADIUS. This server connected to the SAR server allows the VoIP platform, from the MSISDN number, to find the dynamic IP address assigned to the PC and direct the VoIP call. This server only has IP interfaces. 111 The SIM card reader is associated with the mobile station, in the case of a mobile station constituted by a PC the SIM card reader already exists on this station or is connected to a USB key. In the case of a mobile station consisting of a GSM and WiFI mobile phone, the SIM card reader is obviously part of the mobile. A program (CRA) is installed in each mobile station to communicate with the SIM card in the reader, and with the server SRAR, 111. A VoIP platform is provided between the telephone network (including ISUP) and IP telephony. . It implements standard VoIP protocols such as SIP or H323, but any existing protocol can be used by easily adapting to the RADIUS protocol to obtain an IP address from a telephone number. VoIP program in each mobile station, making calls and receiving calls to IP addresses. The user puts his SIM card in the reader of his mobile station when he arrives in the visited country, especially if he does not have a roaming agreement. The SAR server has no interface for receiving or transmitting telephone communications but has an interface SS7 with the following three services MAP protocol: SEND AUTHENTICATION INFO or SEND PARAMETERS: this service allows, with the IMSI number, obtain the SRES keys and a random number (random number) RAND for the standard GSM authentication algorithm used. 10 111 RESTORE DATA: This service is used to read the MSISDN telephone number corresponding to the IMSI number of the SIM card in an HLR register. REGISTER Supplementary: This service controls the forwarding of all calls to the mobile to the active mobile station. Detailed Description of the Operation The main phases of operation of the IP call termination system are firstly the registration of the mobile station such as the PC or the GSM and WiFI mixed telephone not using the GSM function, and then receiving a call when the mobile unit is roaming and finally deregistering the mobile station so that the calls intended for it will follow the normal route and will end or be forwarded to voicemail. Finally, the details of different authentication procedures, obtaining the MSISDN number and the call forwarding 25 will be described. Registering the PC for receiving calls According to Figure 1, the user puts (1) his SIM card into the reader connected via a USB port to the PC. The previously loaded CRA software starts on presence detection of the reader reading the IMSI number of the SIM card; through the Internet it establishes a connection, previously configured to the domain name (or a known IP address) of the SRAR server. The CRA software transmits (2) the IMSI number to the SRAR server, which relays the request to the SAR server to authenticate it. With the IMSI number, the SAR server, through its interface SS7, requests (3) with a signal SEND_AUTHENTICATION_INFORMATION to the function AUC, a random number RAND and the code SRES which is calculated, with the algorithm A3, by the register HLR from random number RAND and key Ki. This key Ki is known only to the AUC function and the SIM card. The register HLR accesses the key Ki from the IMSI number, and generates a random number RAND, then calculates an SRES code and returns them (4) both to the SAR server. The SAR server notes the SRES code which it keeps and sends the random number RAND in response to the request of the SRAR server which retransmits it (5) to the program CRA in the mobile station, for example a PC. The mobile station's CRA program sends (6) the random number RAND to the SIM card, asking it to do the same calculation A3 with this random number RAND and its key Ki contained in its SIM card. The SREScalc code thus calculated is sent (7) to the mobile station which transmits it (8) to the SAR server through the SRAR server. The authentication and forwarding server SAR compares the SRCcalc code sent and the SRES code transmitted to it by the AUC function.

  If the SREScalc code is equal to the SRES code calculated by the AUC function of the HLR register, the SIM card is considered authentic and the SAR server then accepts the connection. But the connection is rejected if there is a difference between the calculated code and the code transmitted by the AUC function.

  A possible standard mechanism for interfacing the SRAR server and the SAR server is the SMPP protocol, for transporting the necessary data to the PC mobile station (SRAR server) - (SAR server). The interface of the CRA program with the SIM card and its various commands are described in the GSM standard 11.11 "Digital cellular telecommunications system (Phase 2+), Specification of the Subscriber Identity Module, Mobile Equipment (SIM-ME) interface". More precisely, the PC sends to the SIM card the command RUN GSM ALGORITHM with the random number RAND as parameter. The SIM card returns the calculated code SRESc.

  If the card is authenticated, the SAR server sends (9) to the HLR register a RESTORE DATA request which only needs the IMSI number and the HLR register returns the MSISDN number (ordinary number) of the mobile of the user. The SAR server already has the IP address of the PC, known since the initial connection. Then, the SAR server, always with the single IMSI number, through a request REGISTER_SS, (return unconditional), returns (11) all calls to the MSISDN number to the unique telephone number of the VoIP platform, for all the subscribers.

  Finally, the SAR server returns (12) the MSISDN number to the SRAR server which can then create the RADIUS entry. MSISDN -> IP address of the PC; (This address was noted when connecting (2) the PC and it will be used for calls by the PC.

  Very detailed traces are given to explain the operation. The description was made above in the case of a mobile station constituted by a PC. But these explanations also apply to a so-called GSM-WiFI mobile phone: simply replace the PC + USB SIM card reader with a GSM-WiFI mobile phone. This avoids having to remove the SIM card and put it back. Note that in the invention, the correspondents join the mobile by its usual mobile number but that the call is received in IP (including WiFI) from end to end, and not in GSM, including if the mobile n ' has no GSM roaming.

  IP Roaming Calling In accordance with Figure 2, a call (1) is made to the mobile number after the registration phase. The call arrives at the GMSC gateway of the GSM network. The GMSC gateway queries (2) the HLR register by a SEND ROUTING INFO request; the HLR responds (3) that the number is unconditionally returned to the unique number of the VoIP platform. The GMSC switch issues a call (4) to this number by putting in one of the call parameters the MSISDN number of the mobile called Original Called Number. It corresponds to one of the IAM message fields of the ISUP protocol), then the switch abuts (4 ') the input call (1) and the output (4). The VoIP platform extracts the MSISDN number from the call message and the RADIUS server from the SRAR server gives it the IP address of the PC. The VoIP platform then establishes the connection (5) with the PC station following a standard protocol such as H323 or SIP. Unregistered The system allows the PC client software, when the USB key is removed, to suppress roaming by IP, as follows. This information coming from the client, transmitted by the SS7 interface, is an ERASE_Supplementary_Services request, that is to say the removal of the unconditional forwarding. Any call to the mobile will either be failed or sent back to voicemail following the configuration of the mobile subscription. In the case of the WiFI phone, the link break with the SRAR server automatically triggers this de-registration procedure. The invention as described above also applies to the case of twin cards provided by some GMS operators. This is a subscriber who has two SIM cards 20 responding to the same telephone number but corresponding to two different MSISDN numbers assigned to the same subscriber. Management of the use of these two MSISDN numbers is done by the operator in a transparent way for the client. This case of the twin cards is for example that of a mobile and a car phone both answering the same call number but each having its different MSISDN number. The operator receiving a call to this common subscriber number executes a procedure to first call one of the SIM cards and then the other. In general, the call is first to the SIM card of the car phone and then to the SIM card of the mobile. Reverse order is also possible. In the case of a GSM and WiFI mixed telephone belonging to a pair of SIM cards, the invention applies under the same conditions as those described above. The detailed description of the procedure for authentication of the SIM card installed in the mobile unit as well as the details of the procedure for obtaining the MSISDN number and the details of the procedure for call forwarding are given in the figure. 3 and do not require a detailed description, the presented procedures being sufficiently explicit in themselves and illustrating the procedures given in FIGS. 1 and 2.

REFERENCES

  [1] Digital Cellular Telecommunication System (Phase 2+) Mobile Application Part (MAP) Specification (3GPP TS 29.002 Version 5.9.0 5 Release 5), w vw.etsi.org 20 25 GLOSSARY and ABBREVIATIONS USED

  AUC: integrated or separate function of an HLR register which manages the authentication

  CRA: (Authentication Relay Client). PC station program that activates when you plug the SIM card into the reader.

  10 GMSC: "Gateway MSC, a telephone switch that also provides mobility information through an SS7 network connection and roaming agreements.

  HLR: Home Location Register Main Location Register of a 15 mobile subscriber

  IMSI: International Mobile Subscriber Identity. Internal numbering to mobile networks with different country codes (208 for France instead of 33)

  MAP: Mobility Application Part. Standard high-level GSM protocol that performs all mobility-related exchanges (including roaming or roaming). It describes the services "REGISTER-SS SEND AUTHENTICATION and RESTORE DATA.

  MSISDN: Mobile Subscriber International Number The classic mobile number known to the world outside of its network.

  Roaming: (roaming), contractual and technical provisions 30 allowing a mobile subscriber to use his phone in networks other than his own.

  SAR: Authentication and return server for the authentication of the SIM card by communicating only a number alétaoire to the other 35 elements.

  SMPP: `Short Message Point to Point). The protocol standardized by w -w.smppfomm.org SRAR: Authentication Relay Server and RADIUS.

  SIM: (chip card) with the IMSI number characteristic of a subscriber and can be put in any GSM phone.

  SS7: (International SS7 network). Network of packets used between mobile networks for the transmission of signaling.

  VMS: (Voice Mail System), Voice Mail System. VoIP mode: ("Voice Over IP"), transmission of telephone calls over IP.

  WiFI: A system for transmitting data over the IP protocol by radio between "terminals" and mobiles or laptops having a WiFI interface.

Claims (4)

  1) Call termination system over the IP Internet network to a mobile number to receive automatically in a mobile station not operating in GSM mode, calls for this mobile number, characterized in that it comprises - a authentication and forwarding SAR server, installed in a GSM network and communicating via the standard MAP protocol with the HLR register of this network and also by a local or remote IP link, - an authentication relay SRAR server and connected RADIUS server to the SAR server and allowing the VoIP mode gateway, from the mobile MSISDN number, to find the dynamic IP address assigned to the mobile station and to direct the call in Volp mode, this server having only IP interfaces, - a SIM card reader associated with the mobile station, - a program (CRA) in the mobile station for communicating with the SIM card placed in the reader, and with the server SRAR, - a VoIP platform between the network telephone and IP telephony, implementing the VoIP protocol having obtained the IP address from the mobile number, - a VoIP program in the mobile station, for making calls and receiving calls to the address IP. 2) call termination system according to claim 1, characterized in that the network of the SIM card of the number that can be called by a mobile unit has an AUC authentication function associated with its HLR register to supply the server. authentication and forwarding SAR and provide him upon request of the mobile station a random number RAND and a code SRES formed from the random number RAND and the key Ki associated with the mobile number, the authentication and forwarding server transmitting these two data, the random number RAND and the SRES code to the authentication relay server + RADIUS SRAR, which transmits the random number RAND to the mobile station PC so that it computes from the SIM code, and by applying the key Ki contained in the SIM card, the calculation of a SREScalc code, according to a method similar to the calculation performed by the authentication function, the SIM card returning via the mobile station, the code SREScalc calculates the relay + RADIUS authentication server so that it compares the SRES code and the SREScalc code and that, in case of identity, it accepts the mobile station as being authorized by the SIM card whereas in case of difference it denies access to the mobile station, if accepted, the incoming call is transmitted to the mobile station. 3) Call termination system according to claim 2, characterized in that after the authentication performed between the SIM card and the AUC function, the mobile number is obtained by the RESTORE DATA procedure which makes it possible to make a reference Automatic calls for this number to a VoIP platform that will terminate calls on the customer's PC. 4) call termination system according to claim 1, characterized in that the SIM card reader is connected to the USB socket in each mobile station.