JPH10510685A - Mobile station access for cordless terminal mobility - Google Patents

Abstract

SUMMARY A method and apparatus for providing services to a portable terminal in a wireless communication system is disclosed. If the portable terminal roams outside the home switch's service area, the service for that subscriber routes both the signaling link (eg, carrying control information from a press key) and the call holding connection back through the home switch. This allows the service to be handled without having to track the subscriber. This routing can be performed when the call is initiated or after the service has been summarized.

Description

DETAILED DESCRIPTION OF THE INVENTION Mobile station access for cordless terminal mobility Background of the Invention 1) Field of the invention The present invention relates to a communication network having the capability of cordless terminal communication, and more particularly to a supplementary cordless terminal which is subscribed in a home exchange irrespective of the physical location of the cordless terminal, i.e., regardless of which switch it is communicating with. The present invention relates to a method and an apparatus for making a service available. 2) Examination of related technologies Since the advent of mobile wireless communication systems, the demands for these services have exceeded expectations. Thus, system designers are constantly facing the challenge of increasing system capacity without reducing call quality below acceptable levels for consumers. This challenge has been addressed in a variety of creative ways. For example, a digital communication system is expected to have a capacity increase three to seven times that of the original analog system. Despite the increasing reputation of mobile communication systems in recent years, old fixed communication networks are still the main communication means. For this reason, hybrid communication systems, ie, mixed fixed and wireless technologies, have recently been developed. In a hybrid communication system such as a personal communication system (PCS), the coverage of a fixed network is supplemented by the coverage of a wireless network to increase the capacity and mobility of a portable terminal. However, to provide such benefits, designers must face the challenges facing the wireless industry as well as the challenges known in fixed networks. Wireless networks, such as cellular networks, have to deal with various situations that are not found in fixed networks, such as interference and roaming. Roaming occurs when a mobile station served by a home transmitting station passes through its geographic coverage area and enters another coverage area. If the mobile station is calling or being connected, it is necessary to switch from the home transmitting station to a new responsible station. Therefore, a hybrid system having a portable terminal that is supported over a wireless link to one of a plurality of switches must also address call and connection switching. Another problem arises with regard to supplementary services that can be provided to subscribers using such mobiles. These supplementary services include, for example, call forwarding and call (call) transfer, which were temporarily used widely in fixed communication networks. Of course, subscribers of the newly developed hybrid system will resist the implementation of hybrid communications unless they expect their portable units to provide the same functionality as using a fixed network. Hybrid systems introduce several compatibility issues that impact the subscriber's ability to consistently accept supplementary services. The transmitting station and / or switch connecting the portable terminal to the fixed part of the system may be made by various manufacturers. Different manufacturers may perform the same service in different ways (due to lack of standards), which may adversely affect the mobile terminal's ability to be served on a device other than its home device. In addition, services provided by subscribers at the home station may not be available at the transmitting station and / or switch to which the portable terminal is connected after roaming. Such variations only confuse and annoy consumers who have consistently accepted a particular set of supplementary services on demand in conventional fixed networks, and only experience the unreliability of hybrid networks. One possible solution to this dilemma is to provide a consistent environment for roaming mobile users in a hybrid system. If all the devices used by such users are the same, supplementary services can be provided uniformly regardless of the geographical location of the subscriber. However, given the competitive environment of this industry, this solution would not be commercially viable. A second solution is to standardize the supplementary services and the manner in which they are performed so that devices are created that provide a consistent set of supplementary services to roaming mobiles from different manufacturers. However, it is unlikely that the standardization process of these services will mitigate the aforementioned problems of the system in the near future. GSM, a standard used for cellular communications in parts of Europe, provides a service profile that makes a subscriber follow a switch to which his device is connected after roaming. For example, if a subscriber with call forwarding access travels in an area served by a switch other than his home switch, a description indicating the subscription is also sent to the switch. SUMMARY OF THE INVENTION According to an exemplary embodiment of the present invention, supplementary services to which a subscriber has subscribed (eg, call forwarding, call forwarding, call forwarding, etc.) even if the subscriber is connected to a switch other than its home switch. Extending conventional fixed networks using wireless technology so that path replacement, call completion, call interruption, donot disturb service, message service, etc., is provided to its subscribers. it can. Furthermore, this can also be achieved when the home exchange and other exchanges are not compatible with respect to the types of services that can be supported. These and other features of the invention can be achieved, for example, by routing calls to subscribers roaming to an area served by another switch back through the home switch. In this way, the subscriber can always have access to the services of the switch, regardless of the current geographical location of the subscriber's equipment. According to one exemplary embodiment of the present invention, both a signaling connection and a call bearing connection are established between the visited switch and the home switch. In another exemplary embodiment of the present invention, a signaling connection is established between the visited switch and the home switch, but the visited switch maintains the call connection. BRIEF DESCRIPTION OF THE FIGURES The invention will now be described with reference to the drawings, in which: FIG. 1 is a functional block diagram of the architecture of a personal communication service (PCS). FIG. 2 is a functional block diagram showing a location update of a cordless terminal mobile station (CTM) during roaming. FIG. 3 is a functional block diagram showing a first step of establishing a call to a CTM subscriber. FIG. 4 is a functional block diagram showing a second step of establishing a call to a CTM subscriber. FIG. 5 is a functional block diagram showing a first step of establishing a call from a CTM subscriber. FIG. 6 is a functional block diagram showing a second step of establishing a call from a CTM subscriber. 7 (a) to 7 (c) are representative flow diagrams according to the present invention. Detailed description of the embodiment FIG. 1 shows a representative PCS embodiment of the present invention, which is shown here as a first reference to illustrate various connections used in later embodiments. PSTN / ISDN 10 represents a fixed network through which connections and calls are made. The TCAP (Transaction Capacity Application Unit) 11 exchanges protocol data units using a general standardized protocol function (providing a common general system for transferring information between two nodes). . The SCP provides Intelligent Network Service Logic to the network by referring to the service control point. Home database (HDB) 13 stores information identifying the subscriber's current location and provides this location information to any requesting switch in the network. It also stores the relevant parameters of the cordless transmitter or subscriber. As described below, the HDB 13 can be co-located with the home local exchange 17 or centrally located. AUTH 14 is a repository of authentication data that can be used to authenticate access to the system. Visited local exchange (VLE) 15 is an exchange or switch responsible for the location visited by the subscriber. Although not shown, one of ordinary skill in the art will readily recognize that there are many such visited local exchanges to which a portable terminal can be connected, but for simplicity of illustration, only one is provided. Is illustrated. Each visited local exchange 15 has one or more base stations 16, referred to as radio fixed parts (RFPs), connected thereto for wireless transmission to the hybrid network. A home local exchange (HLE) 17 is an exchange that has direct access to the HDB for a particular CTM subscriber, provides CTM services to the subscriber, and can have at least one RFP 18 connected thereto. As will be described in detail below, the home local exchange 17 is connected to the subscriber continuously even when the portable terminal 19 of the subscriber is roaming to another area, for example, the area served by the visited local exchange 15. To be. Having described the main functional blocks of FIG. 1, the various connections indicated by the lines in between will now be described. A portable terminal, for example, a cordless telephone such as element 19, is connected to the hybrid system via an air interface indicated by line 20. Communication over the air interface can be accomplished using any one of several well-known techniques, such as DECT and CT2, which specify the format of the wireless data communication. One skilled in the art will readily appreciate that the selection of a particular access technology is made by a variety of design considerations, such as frequency reuse, local terrain and service capabilities. The wireless fixed units 16 and 18 are connected to each switch 15 and 17 by a link (which may be a wire link, an optical fiber link, a microwave link, etc.) using, for example, an ISDN access protocol known as DSS1. . In an exemplary embodiment, the ISDN access protocol is modified. The first and second levels of the protocol (which deal with physical / electrical signal interaction and synchronization, respectively) are not changed so that the present invention can be used without substantial modification of existing hardware. . However, only part of the third level is interpreted by the visited local exchange 15 unlike existing systems. The third level portion interpreted by the visited local exchange 15 performs the process of directing the signal to the network. Portions of the protocol that are not interpreted by the visited local exchange 15 are interpreted by the home local exchange 17 to provide other services, including call forwarding, supplementary services such as making the transmission of the visited local exchange 15 transparent. You. To show this difference, the protocol is marked DSS1 + 1 in the figure. As described below, various connections provide a protocol that allows the visited local exchange 15 and the home local exchange 17 to function cooperatively. These protocols are referred to herein as "MAAP" (Mobile Access Application Part) protocols. MAAP-LC is a subset of this protocol and contains messages that allow HDB 13 to keep track of the location of the home local exchange subscriber and pass information about it. This subset of protocol commands can be implemented, for example, as well as the GSM MAP protocol to support mobility. For the GSM MAP protocol, interested readers can refer to the document "GSM 9.02" Version 2 Draft, June 1992, Part III, pages 173-226. The MAAP-CC subset relates to call control, i.e., shift control between the visited local exchange 15 and the home local exchange 17, and is implemented, for example, in a manner similar to that of GSM MAP commands that support switching between exchanges. be able to. As described below, this connection provides a signaling link between the visited local exchange 15 and the home local exchange 17. Finally, the protocol MAAP-AC relates to the commands used by the visited local exchange to allow the portable terminal 19 to optionally authenticate the portable terminal 19 upon access. INAP (intelligent network application) connections provide intelligence to the network, such as 800 number services and premium rate services. The ISUP / TUP / MFC connection between the visited local exchange 15 and the home local exchange 17 is a call bearing connection for performing call routing between the two. Having described exemplary embodiments in accordance with the present invention, it will now be shown how these elements provide various functions. First, position updating will be described with reference to FIG. In order for the system to handle the movement of a portable terminal from one service area to another service area, the mobile station needs to alert its new switch to its presence. This process is commonly known as registration and is performed in a manner based on the particular access technology used for the air interface, for example, DECT or CT2. When the portable terminal 19 roams to a new location, for example, the area served by the visited local exchange 15, the terminal sends a notification of its presence to the visited local exchange 15 via the air interface 20. At this time, the visited local exchange 15 uses the MAAP-LC protocol and the MAAP-AC protocol, and optionally performs a terminal authentication procedure using, for example, a portable terminal identification number, an electronic serial number, and a certain combination of counters. Can be performed. The visited local exchange 15 then informs the HDB 13 of the new location and requests the previous visited local exchange or, if not present, the home local exchange 17 to deregister the mobile terminal 19. Next, the HDB 13 confirms registration with the visited local exchange 15. According to one exemplary embodiment, the HDB 13 also sends to the visited local exchange 15 the address of the home local exchange 17 which supports the subscriber of the mobile terminal 19 with the service, together with a confirmation of the registration. Also, the address of the home local exchange 17 associated with the subscriber can be maintained in the HDB 13 so that the visited local exchange 15 can access it as needed. The visited local exchange 15 can use this address to establish a signaling link and / or route the call through the home local exchange 17. For example, when a telephone call arrives at the home local exchange 17 of the fixed network 10 from the unit 24 to be connected to the roaming subscriber, the home local exchange 17 determines the location of the subscriber (that is, the address of the visited local exchange) in advance. Unless returned to the local exchange 17, it sends a request to the HDB 13 to obtain the location of the subscriber using MAAP-LC. HDB 13 then returns the address of the visited local exchange 15 that the subscriber is currently visiting. The home local exchange 17 establishes a MAAP-LC session (ie, a signaling connection) to the visited local exchange 15 and informs the visited local exchange 15 about the call. The visited local exchange 15 then sends the routing number, e.g. The directory telephone number, represented as a 164 number, is returned to home local exchange 17. The home local exchange 17 establishes a normal call holding connection with the visited local exchange 15. When the connection is completed, the visited local exchange 15 pages the subscriber's mobile terminal 19 and connects the reply to the home local exchange 17. The home local exchange 17 thus has access to both call and control signals, e.g., keystrokes pressed, so that any service the subscriber later requests, as if the portable terminal 19 had its own wireless terminal. It can be performed as if it were directly connected to one of the fixed parts (for example, RFP 18). The mobile terminal 19 accesses the network by sending a service request (eg, a SETUP message) to the appropriate visited local exchange via the air interface, as shown in FIG. The visited local exchange 15 then establishes a signaling connection with the home local exchange 17 and forwards the service request to the home local exchange 17 (using MAAP-CC). When the home local exchange 17 analyzes the request, it sends a routing number to the visited local exchange 15 requesting that the call holding connection to the home local exchange 17 be extended. The visited local exchange 15 can use any available trunk signaling system that meets the transmission medium requirements (TMR) required to extend the connection. The home local exchange 17 thus has access to both the call and signaling connections, thus providing any services to the portable terminal 19 as if the portable terminal were using one of the home local exchange's own RFPs. be able to. FIG. 6 shows that a normal telephone call to a subscriber can be connected anywhere within the fixed network 10. FIGS. 7 (a) to 7 (c) are flowcharts of a typical embodiment of the present invention. FIG. 7 (a) begins at step 70 where the portable terminal is registered with the visited local exchange that has roamed to its transmission range or service area. Thereafter, in an optional step 71, the identity of the portable terminal 19 can be authenticated. The HDB 13, which tracks the location of the portable terminal, is notified in step 72 about the new location of the portable terminal by registration of the portable terminal. Next, as shown in step 73, home database 13 optionally informs home local exchange 17 of the new location of the mobile terminal. To avoid potential confusion, as shown in step 74, the presence of the portable terminal is deregistered from the home local exchange 17 or another visited local exchange where the portable terminal has left its service area. Next, as shown in step 75, the home local exchange address can be sent to the new visited local exchange so that the new visited local exchange can point the portable terminal that initiated the connection to the correct address. The visited local exchange 15 can request this address from the HDB 13 as needed. In FIG. 7 (b), a call setup procedure from the terminal 24 connected to the home local exchange 17 to the portable terminal 19 in the service area of the visited local exchange 15 is shown. In step 77, the address of the visited local exchange 15 is obtained from the HDB 13 if it has not previously communicated with the home local exchange 17. Next, at step 78, a MAAP-CC link is established between the home local exchange 17 and the visited local exchange 15. In step 79, the routing or telephone directory number is sent to the home local exchange 17 so that the visited local exchange 15 can receive the call. At block 80, the call is connected to the visited local exchange 15. Next, at step 81, the visited local exchange 15 pages the portable terminal 19 and at block 82 a call is passed to the home local exchange 17. The home local exchange 17 thus has both signaling (MAAP-CC) and call connection, so that a supplementary service can then be performed as indicated by block 83. FIG. 7 (c) shows an exemplary embodiment of the present invention in which a call originates from the portable terminal 19. Here, the first block 84 indicates that a call setup message is sent to the visited local exchange 15 via the RFP 16. In the next step 85, a MAAP-CC link is established between the visited local exchange 15 and the home local exchange 17. At block 86, a request for service transfer over the MAAP-CC link is sent to the home local exchange 17. Thereafter, the routing number from the portable terminal is sent to the visited local exchange 15. Thereby, the call connection can be extended to the home local exchange 17. Thus, the home local exchange 17 can provide supplementary services to the portable terminal 19 again based on the subscriber profile stored therein as if the portable terminal 19 was connected via the RFP 18 instead of the RFP 19. . Having described exemplary systems and methods that provide the ability to take advantage of the stability afforded to a subscriber's service by returning a call through the subscriber's home switch, such services will now be implemented in practice. Complete the study with an example called. Although the following example uses a call completion-busy subscriber service, it will be appreciated by those skilled in the art that other services may be implemented in accordance with the present invention as well. Elements and connections will be described with reference to FIG. 3 without overlapping the drawings. Here, it is assumed that the terminal 24 sends a call to the portable terminal 19 via the fixed network 10. Home local exchange 17 analyzes this number and, because the call is routed through home local exchange 15, home local exchange 15 detects that the portable is busy. Assume that the subscriber of terminal 24 has subscribed to the call completion / busy subscriber service. In this case, the user of the unit 24 can invoke this service, for example, by pressing an appropriate key. When called, the home local exchange 17 monitors the original call of the portable terminal via a signaling (MAAP-CC) link. When the portable terminal 19 is free, that is, when an on-hook signal is generated, this signal is returned to the home local exchange 17 via the signaling link. Home local exchange 17 recognizes that it is continuing to monitor the portable terminal and informs unit 24 that the call can be completed. The previous exemplary embodiment relates to a system and method in which both signaling and call holding connections are returned via the home local exchange 17. However, there are situations in which it is desirable to maintain the call holding obligation in the visited local exchange 15 and only make a signaling connection with the home local exchange 17. For example, the service invoked by the subscriber may include forwarding the call to another user having equipment in proximity to the visited local exchange 15. Next, representative embodiments according to this aspect of the present invention will be described. First, a call originating from a portable terminal will be described. As in the previous embodiment, the portable terminal accesses the network by sending a connection request to the nearest exchange (visited local exchange 15) via the air interface. Visited local exchange 15 analyzes the number and establishes a signaling link to home local exchange 17. The home local exchange 17 analyzes the dialed number using, for example, an external database, and confirms what number is dialed in the visited local exchange 15. This number is then returned to the visited local exchange 17 to extend the call holding connection. The visited local exchange 15 uses any available trunk signaling system that meets the required transmission medium requirement (TMR) when extending the connection to the dialed number. It also monitors the call and returns progress information (ringing, answer) to the home local exchange 17 via a signaling link. It will be appreciated that in this exemplary embodiment, home local exchange 17 has access only to the signaling link and not to both the signaling link and the call holding connection. Instead, the call holding connection is optimized, for example, to take the shortest path between the visited local exchange 15 and the called subscriber in the fixed network. For a connection to a portable terminal, when the terminal is connected to the visited local exchange 15, the operation of the system is, for example, as follows. When the portable terminal roams into the area served by the visited local exchange 15, the terminal sends a notification to its presence to the visited local exchange 15. Next, the visited local exchange 15 informs the home database 13 of the portable terminal about the location of the subscriber. In this regard, the operation is similar to that described above with respect to the embodiment of FIG. Next, reference is made to FIG. For example, when a call arrives at the gateway local exchange (GLE) 26, which is limited to roaming subscribers, that exchange sets up a signaling link (MAAP-CC connection) to the home local exchange 17 and requests further instructions. . The home local exchange 17 sets up a call to the visited local exchange 15 and requests that the exchange locate the portable terminal 19. The visited local exchange 15 pages the portable terminal, and if successful, E.P. The 164 number (routing or telephone number) is returned to the home local exchange 17 so that a signaling connection to the portable mobile via the visited local exchange 15 can be established. The home local exchange 17 then sends the received number to the exchange serving as the calling device, which uses that information to establish a call holding connection to the portable terminal in an optimal way, eg, the shortest path. This often means that call holding connections are not passed to the home local exchange 17. Having described the basic connection assumptions in which the signaling connection and the call holding connection are established separately, we now describe how services can be invoked according to this embodiment. When the service request is received, the home local exchange 17 informs the visited local exchange 15 and the exchange serving the other connected subscriber the appropriate number for this routing (for example the E.164 number). ) To change the call holding connection to pass through the home local exchange 17. In this way, the home local exchange 17 again owns both the signaling connection and the call holding connection, and the services can be implemented by the home local exchange 17 and the consumer can make these services transparent and stable. experience. The invention described here includes various variations. The embodiments described are illustrative in all respects and are not restrictive, the scope of the invention is indicated by the appended claims, and all equivalents and modifications within the scope recited therein are not claimed. Shall be included.

────────────────────────────────────────────────── ─── Continuation of front page    (72) Inventor Nordberg, Christian             Sweden S-118 52 S             Tokholm, Maria Plastgardos             Gata 31 Be

Claims (1)

[Claims]   1. Profiles of user attributes associated with a given subscriber of a portable terminal The home exchange to be stored and the user attribute of the subscriber need not be stored and are fixed. At least one visited exchange to which the fixed radio transceiver is operatively connected; In mobile communication systems, mobile access for portable terminal mobility is provided. A method of providing, comprising:   When the portable terminal attempts to establish communication with another terminal, Generating a call at the mobile terminal, wherein the step of generating the call comprises:     Sending a service request from the portable terminal to a visited exchange; ,     Establish a signaling connection between the visited exchange and the home exchange Steps to     Forwarding the service request to the home switch via the signaling connection Steps to     Sending a routing number from the portable terminal to the visited exchange; And     Establishing a communication connection to the home switch;     Providing a supplementary service requested by the home exchange to a portable terminal And a method comprising:   2. Profiles of user attributes associated with a given subscriber of a portable terminal The home exchange to be stored and the user attribute of the subscriber need not be stored and are fixed. At least one visited exchange to which the fixed radio transceiver is operatively connected; In mobile communication systems, mobile access for portable terminal mobility is provided. A method of providing, comprising:   When the calling terminal attempts to establish communication with the portable terminal, the home exchange Call from a switch to a portable terminal within the service area of the visited switch. Setting up the call,     Obtaining the address of the visited exchange in which the portable terminal is located; And     Between the home exchange and the visited exchange based on the address Establishing a signaling connection;     Transmitting a routing number to the home switch;     Establishing a communication connection between the visited exchange and the home exchange. And     Paging the portable terminal from the visited exchange. ,     A step of extending the communication connection from the visited exchange to the portable terminal. Tep,     Performing the requested supplementary service from the home switch. Method.   3. 3. The method of claim 2, wherein the portable terminal is located at the business location. The step of obtaining the address of the Ted switch further comprises the step of: When the portable terminal enters the service area of the visited exchange, the portable terminal is A method comprising a locating step of registering with a switchboard.   4. 4. The method of claim 3, wherein the locating step further comprises: The portable terminal in a home database that tracks the location of the portable terminal Informing about the new location of the.   5. 5. The method of claim 4, wherein the locating step further comprises: The identity of the portable terminal before informing the home database Authenticating the user.   6. 5. The method according to claim 4, wherein the portable terminal is located at the business location. The step of obtaining the address of the Ted switch comprises accessing the home database. Access.   7. 4. The method according to claim 3, wherein said locating step comprises the step of: From the switchboard where the portable terminal has left the service area. A method that involves dissolving a presence registration.   8. 3. The method of claim 2, wherein the method further comprises:   When a portable terminal attempts to establish communication with another terminal, the portable terminal Generating a call at the end, wherein said generating step comprises:     Sending a service request from the portable terminal to the visited exchange;     Establish a signaling connection between the visited exchange and the home exchange Steps to     Forwarding the service request to the home switch via the signaling connection Steps to     A step of sending a routing number from the home exchange to the visited exchange. And     Establishing a communication connection between the portable terminal and the home switch. And     The user profile stored in the home switch to the portable terminal. Providing the supplementary services requested by the rules.   9. User service profile associated with a given portable terminal subscriber A home switch for storing the user service and the user service of the subscriber. And at least one visited to which the fixed radio transceiver is operatively connected Mobile station access for portable terminal mobility in a system with A method of providing a process, comprising:   When a portable terminal attempts to establish communication with another terminal, Generating a call at the terminal, wherein the step of generating the call comprises:     Sending a service request including the dialed number to the visited exchange When,     According to the service request between the visited exchange and the home exchange. Establishing a signaling connection with     Forwarding the service request to the home switch via the signaling connection Steps to     Analyzing the service request in the home exchange, To check what number was dialed when it was dialed in And     Returning the confirmed dialed number to the visited exchange. ,     According to the confirmed dialed number, the visitor exchange has the Establishing a communication connection to the earphone number;     Supplementary services requested by the home switch via the signaling connection Supplying the portable terminal to the portable terminal.   10. Profile of user attributes associated with a given subscriber of the portable terminal A home switch for storing the user attribute of the subscriber, and At least one visited switch to which a fixed wireless transceiver is operatively connected. Mobile access for mobility of portable terminals in systems with A method of providing, comprising:   A calling terminal connected to a third exchange establishes communication with the portable terminal. When the mobile terminal attempts to access the service area of the visited exchange from the third exchange, Setting up a call to the portable terminal, the step of setting up the call. Is     Receiving the service request of the third exchange at the home exchange; And     Enter the address of the visited exchange where the portable terminal is located Obtaining in the system switch;     Between the home exchange and the visited exchange based on the address Establishing a signaling connection;     Paging the portable switch from the visited switch When,     When the paging is successful, the portable exchange via the visited exchange A routing number of the portable terminal for establishing a signaling connection with the terminal Returning the number to the home switch;     Forwarding the returned routing number to the third switch;     Independent of the signaling connection the portable unit and the third exchange Establishing an optimal communication connection with the device;     Providing the requested supplementary service via the signaling connection to the home switch Performing the steps from:   11. The method of claim 10, wherein the portable terminal is located. Said step of obtaining an address of a visited exchange further comprises: When the portable terminal enters the service area of the visited exchange, Portable terminal locating step including registering with a visited switch A method that includes   12. 12. The method according to claim 11, wherein the locating step further comprises: In the home database that tracks the location of the portable terminal, A method comprising informing about a new location of a terminal.   13. 13. The method according to claim 12, wherein the locating step is further performed. Before informing the home database, the identity of the portable terminal A method comprising an authentication step of authenticating the security.   14． 13. The method of claim 12, wherein said portable terminal is located. The step of obtaining the address of the visited exchange comprises storing the home database. A method that includes accessing.   15. The method of claim 11, wherein the locating step comprises: The portable terminal leaves the service area of the portable terminal. A method that includes dissolving the last registration.   16. Profiles of supplementary services associated with a given subscriber of a mobile terminal Storing at least one home switch to store and supplementary services of the subscriber; Need not be connected and at least one fixed radio transceiver is operatively connected. Mobile for mobile terminal mobility in a system with a visitor switch Providing machine access, the method comprising:   The fixed wireless network operatively connected to the mobile terminal and the visited exchange. Establishing communication with the transceiver;   Some are sent to the home exchange without being interpreted by the visited exchange. Via said at least one visited exchange using a protocol Communicates transparently with the home switch and the user attribute is Making it available to the portable terminal from a home exchange. Method.   17． A communication system for providing services to a subscriber device, said system comprising: Is   A fixed communication network,   Subscriber profile information connected to the fixed communication network and corresponding to the subscriber device; A home switch including a storage device for storing information,   A home database for storing information indicating the location of the subscriber's device;   Connected to the fixed communication network and connected to the subscriber via an air interface. A visited exchange connected to the   Via the fixed communication network, between the home exchange and the visited exchange Means for establishing a signaling link;   A third exchange, independent of the signaling link via the communication network, Means for establishing a communication link with the visited switch;   Exchanges the connection between the subscriber's equipment and the fixed network via the home exchange Means for providing the service using the subscriber profile information. Communication system equipped.   18. A portable terminal,   A home switch associated with the portable terminal;   A visited exchange currently in charge of the portable terminal,   A gateway exchange in charge of another terminal,   When a call holding connection is requested between the portable terminal and the another terminal, Establishing a first signaling link between the visited exchange and the home exchange; A second signaling between the gateway exchange and the home exchange. Means for establishing a link;   Establish the call holding connection between the visited exchange and the gateway exchange. Means for standing.   19. 20. The system of claim 18, wherein the system further comprises:   Monitor the first and second signaling links and store in the home switch The call holding connection when the service requesting the requested information is requested. A system comprising means for routing via an exchange.   20. 19. The system of claim 18, wherein the home switch further comprises:   Monitoring the first and second signaling links and when a service is requested Means for routing the call holding connection via the home exchange. Stem.