SE514200C2 - Device, network and procedures for wireless telecommunications - Google Patents

Abstract

The present invention relates to a private telecommunication network (10) comprising at least two mobility servers (12, 14, 16), one such mobility server and a server. The invention also relates to methods of updating home node for a cordless terminal (30), registering said terminal as well as finding out where to page, setting up a call to and updating the location of said cordless terminal. Each cordless terminal has an identity. Each mobility server acts as a home node for a part of the cordless terminals in the network, irrespective of the identity of these cordless terminals. The network has a table (46) for registering the home node (12, 14, 16) of all cordless terminals and their identities. The methods all use this table for changing and registering home node as well as for paging and updating the location of a cordless terminal.

Description

514020110 and each node also handles a specific geographic area. A wireless system can, for example, be arranged for a company in a city, where the company can have two factories, one on one side of the city, for example in the north, and one on the other side of the city, for example in the south. The northern factory is managed by a first node and the southern factory by a second node. These nodes are connected to each other so that telephone traffic can be exchanged between the nodes. For example, wireless terminals belonging to the first node may have identities or numbers beginning with the number 1, while wireless terminals belonging to the second node may have numbers or identities beginning with the number 2.

When the user of a wireless terminal temporarily moves, no problems arise between the nodes. The network is designed in such a way that each node has a home database and a guest database that connects calls to a user as long as he is within the private network. This is done through the home database in the home node which includes an indication of in which guest database the terminal is located and thus also to which node the terminal is connected if that node is not the home node. The call is then connected to the home node and from the home node to a visited node.

However, problems arise when a user moves permanently (or perhaps for a longer period of time such as 6 months) to another node.

Suppose, for example, that a Mr Andersson who has a wireless terminal with the number or identity 10005 for 6 months is to move from the northern factory to the southern factory and that he wishes to keep his number.

The problem then is that all calls to and from Andersson will be connected via the home node. Due to this, the home node has to communicate a lot with the visited node, which puts an additional load on the telecommunication line between the home node and the visited node.

The telecommunication lines must be dimensioned for this additional load, which increases the total cost of the network.

Assume, on the other hand, that Andersson with his number 10005 would permanently move to the southern factory. Since the numbers are connected to different nodes, Andersson must change his number to a number that is in the number series in his new home node. 514 200 f. << «Andersson may get a new number 20010. Due to the change of number, Andersson must submit his wireless terminal for reprogramming and he must notify all people who call him his new number.

In conclusion, it can thus be said that in the network in accordance with the state of the art, problems arise with permanent relocation both when the number is retained and when it is changed. WO 95/15664 describes a system of the radio type in the local loop ("radio in the local loop"). When, in this system, a subscriber unit is registered in its home access network, the unit's home access number is transmitted to the subscriber unit for storage there. When the unit is moved to a visited access network and registered there, the subscriber unit transmits the home access number to the visited access network to get in touch with the home access network.

Document WO 96/34502 describes the connection of a call from a fixed network to a wireless network. The wireless network contains a home directory.

None of the cited documents relate to the problems described above associated with fixed numbers.

Disclosure of the Invention The overall problem that the invention intends to solve is when a user of a wireless terminal moves from a node in a private telecommunication network to another node in the network.

The invention is directed to the permanent movement between nodes in a network for wireless terminals.

The solution to the above-mentioned problem which arises in a network in accordance with the prior art is to provide a peaceful numbering plan, i.e. each node is the home node for a number of wireless terminals, but there is no connection to a special number series and a table in the network which includes information about all identities or numbers in the network and their current home nodes in order to change the home node for users of a wireless terminal when he moves to another node on a permanent or semi-permanent basis, the change being registered in the table.

Thus, the present invention addresses the problem by resolving the strong bonds between the particular identity of the wireless terminal and the wireless terminal means to which it belongs. An object of the present invention is thus to provide a private telecommunication network, a means for managing wireless terminals and a server in such a private telecommunication network for facilitating change to which means for managing a wireless wireless terminal belong and for resolving up the band between the identity of a terminal and the means for handling wireless terminals to which a terminal belongs.

This object is achieved with a network, a means for managing wireless terminals and a server for use in a private telecommunication network in which wireless terminals have an identity and each means for managing wireless terminals handles connections to and from said wireless terminals and acts as a home node for some of the wireless terminals in the network, regardless of the identity of those wireless terminals. The network, the mobile terminal managing means and the server comprises first registration means for registering the home node for all terminals in the network and their identities, so that the home node registration in the first registration means can be changed for a wireless terminal in the network when the terminal is permanently moved from one node to a Other.

Another object of the present invention is to provide a method for changing the home node in a private telecommunication network which is simple and dissolves the bond between the identity of a terminal and the means for managing wireless terminals to which a terminal belongs.

This object is achieved by a method for changing the home node in a private telecommunication network comprising at least two means for managing wireless terminals, each wireless terminal in the network having an identity and each such means for managing wireless terminals acting as a home node for a part of the wireless terminals in the network, regardless of the identity of these wireless terminals. The method comprises the step of changing the setting of a terminal from being set to belong to an old means for managing wireless terminals to being set to belong to a new means for managing wireless terminals in at least one first recording means keeping track of the home node for all wireless terminals in the network and their identities.

Another object of the present invention is to provide a method for registering a wireless terminal in a private telecommunication network which facilitates the change to which wireless terminal means a wireless terminal belongs to and which dissolves the bond between a terminal's identity and the means for managing wireless terminals to which a terminal belongs.

This object is achieved by a method for registering a wireless terminal in a private telecommunication network comprising at least two means for managing wireless terminals and where each wireless terminal has an identity. The method comprises the steps of in a second register means arranged in or for a means for managing wireless terminals, registering and keeping track of all wireless terminals belonging to said means for managing wireless terminals regardless of their identities, registering the wireless terminal as belonging to said means for managing wireless terminals and that in a first registration means which keeps track of which wireless terminal all wireless terminals in the network belong and their identities, registers the wireless terminal as belonging to said means for managing wireless terminals.

Yet another object of the present invention is to provide methods for updating the location, for determining where a wireless terminal is to be searched and for connecting calls to the wireless terminal in a private telecommunication network which simplifies changing to which means for handling wireless terminals a wireless terminal belongs to and to resolve the bond between the identity of a terminal and the means for managing wireless terminals to which a terminal belongs.

This object is achieved by a method for determining where a wireless terminal is to be searched and a method for connecting calls to a wireless terminal in a private telecommunication network comprising at least two means for managing wireless terminals and where each wireless terminal in the network has an identity. The methods include the steps of: determining to which wireless terminal means a wireless terminal belongs by accessing a first registration means which keeps track of the home nodes and identities of all wireless terminals in the network and determining a geographical area in which the wireless terminal is located by accessing a second recording means arranged in or for the means for handling wireless terminals designated in the first register means and keeps track of all wireless terminals having this means for handling wireless' terminals as home node regardless of their identities, so that the wireless terminal can be searched in this geographical area controlled by a body for managing wireless terminals associated with this geographical area.

This object is also achieved by a mode update method in a private telecommunication network where the wireless terminals belong to different means for managing wireless terminals and each has an identity. The method includes the steps of requesting a location update from the terminal, in a first registration means keeping track of the home nodes and identities of all terminals in the network, finding out in which means for managing wireless terminals the wireless terminal belongs, and in or for a means for handle wireless terminals indicated by the first recording means access a second recording means and keep track of all wireless terminals having said means for handling wireless terminals as home node regardless of their identities to obtain authentication information and perform location update for the terminal.

An object of the invention is that the numbers or identities of the wireless terminals can be associated with a home node without taking into account a limited number series. The identity is thus not a limitation for assigning a wireless terminal to a home node. The term means for managing wireless terminals is intended to include such devices as exchanges, such as private subscriber exchanges which include functions for managing wireless terminals and mobile servers, either connected to private subscriber exchanges or which in themselves include connection possibilities.

The invention will now be described with the aid of preferred embodiments thereof and with reference to the accompanying drawings.

Brief Description of the Drawings Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig 2A 23 2C 10 514 200 shows a block diagram of a network in accordance with a first embodiment of the invention, 4 i shows the principal contents of a first recording means or table in according to the invention, W 4 shows the principal contents of a home database in the network according to the invention,, shows the principal contents of a guest database in the network according to the invention, shows a flow chart of a method for initiating a wireless terminal in the network according to the invention, visa flow chart over a method for updating a location according to the invention, shows a flow chart of a method for connecting a call to a terminal in the network according to the invention, shows a block diagram over a network according to a second embodiment of the invention, shows a block diagram over a network according to a third embodiment of the invention, shows a flow chart of a method for to automatically update the home node of a terminal in the network, shows the principal contents of another home database in the network according to the invention, and shows a flow chart of a method for actively changing the home node of a terminal in the method in Fig. 8.

Description of embodiments Fig. 1 shows a private wireless network 10 according to the invention which is connected to a public fixed network 11 such as PSTN (Public Switched Telephone Network) or ISDN (Integrated Services Digital Network). This is intended to show that the preferred version of the present invention is a wireless network without any fixed terminals or private subscriber exchanges. The wireless network according to the invention could also be connected to a private network such as a network consisting of one or more private subscriber exchanges, etc., or to both a private network and a public network. The private network 10 could of course also comprise one or more private subscriber exchanges for 514 200 to handle fixed terminals, but the preferred version is this pure private wireless network. A fixed subscriber terminal 55 is connected to the public network 11.

In particular, Fig. 1 shows a private wireless network 10 comprising three different means for managing wireless terminals or mobile servers 12, 14 and 16, each of which has the capacity to perform connections and they are therefore also referred to as node 1, node 2 and node, respectively. 3. A first mobile server 12, node 1, is connected to a first radio exchange RE 18. A first base station'BS 24 is connected to this first radio exchange RE 18. A wireless terminal CT 30 of the DECT (Digital Enhanced Cordless Telecommunications) type is connected to, the first base station BS 24 via a radio or Aluft interface as indicated by a lightning-like arrow. The second mobile server 14 is connected to a second radio exchange RE 20 and a second base station BS 26 is shown connected to the second RE 20.

The third mobile server 16 is connected to a third base station BS 28 via a third radio exchange RE 22. All mobile servers are connected to the public network 11 and the first mobile server 12 is connected to the second mobile server 14 and the second mobile server 14 is connected to the third mobile server 16.

All base stations connected to node 1 cover a first -geographic area 2 in the network, which area is defined as the area inside which a wireless terminal can maintain radio contact with node 1 via an RE. Node 2 and node 3 similarly have a second geographical area 4 and a third geographical area 6. The areas are shown here as lying next to each other. This can sometimes be the case, but they can also be separate geographical areas or islands managed by a mobile server. A combination is of course also possible.

The number of base stations, radio exchanges and wireless terminals connected to each mobile server can of course be more than shown. Furthermore, the first mobile server could also have a direct connection to the third mobile server.

Each radio exchange RE is connected to a respective mobile server via a trunk line. Despite its name, the radio switch has no switching capacity. It connects the calls to different base stations in channels on the trunk line. However, it cannot connect any calls from one wireless terminal to another without passing the mobile server even if the wireless terminals 514 2200 were connected to the same radio exchange via the same or different base stations. It also has means for signaling and means for managing mobiles, such as for managing permissions, location updates and security aspects. RE also includes means for compressing and decompressing speech. The function of a radio exchange is described in more detail in WO 96/17484, where it is referred to as a central interface unit (CIU).

Each mobile server comprises means for connecting traffic or an exchange core 32, 40 and 50, to which respective radio exchanges 18, 20, 22 and the network 11 are connected and respective means for controlling said, means for switching, or a control means CTRL 31, 38 and 48. The control means CTRL 31, 38 and 48 are connected to the exchange cores 32, 40 and 50, respectively. The second mobile server 14 comprises a table 46 or first register means for registering to which mobile server all wireless terminals in the network belong, the table being connected to the control means 38.

Each mobile server 12, 14 and 16 also includes respective home databases HDB 34, 44 and 54 or other register means for registering wireless terminals belonging to the mobile server and a respective guest database VDB 36, 42, 52 or third register means for registering wireless terminals located in the geographical area of a mobile server. The VDBs 36, 42 and 52 and the HDBs 34, 44 and 54 are connected to CTRL 31, 38 and 48, respectively.

The control means 31, 38 and 48 have many more functions than just handling traffic, which will be described in more detail below.

The handling of motion in a mobile server is generally performed according to the standards ETS 300 768 and ETS 300 769 for handling permissions, ETS 300 691 and ETS 300 692 for handling position update and ETS 300 694 and ETS 300 695 for handling incoming and outgoing calls. These standards are basic DECT standards that describe how movement is handled in DECT systems. The controller has most of the exchange control functions that are normally associated with a private subscriber exchange and connects connections, generates alarms, disconnects connections and includes various functions that can be used by a wireless terminal, such as redialing, call transfer, call transfer, etc. It may also include such functions as 514 200 10 call waiting and voicemail, but must then of course either include or have access to a voicemail server (not shown). It also has some mobile features, such as location update and authorization approval. Each mobile server has a geographical area, which as described above is defined as the area within which a wireless terminal can maintain radio communication with the mobile server via a base station connected to the mobile server. The HDB maintains. a register of all wireless terminals belonging to a mobile server. Terminals are registered as belonging to a mobile server if the user of the terminal is expected to be in the geographical area of the mobile server, often for a longer period of time, for example because he works there. The HDB also includes the service profile for each such wireless terminal, ie which services each such terminal is allowed to use and at which VDB each terminal is registered if it is switched on in the network.

A wireless terminal in the network may belong to a mobile server but be temporarily located in the geographical area of another mobile server. However, if the wireless terminal is located in the geographical area of the mobile server where it has its HDB, it is still registered in the VDB of this mobile server, and the HDB will contain some indication of this fact. The preferred embodiment of the invention is a system of the DECT type and then such a network can be arranged for, for example, an office building which constitutes a so-called DECT island. The VDB keeps track of all wireless terminals, both terminals that visit. the geographical areas of the current mobile server, ie terminals that belong to another mobile server's HDB but that are temporarily physically located in or belong to this mobile server's geographical area, and also keep track of which radio exchange each terminal is connected to.

Each wireless terminal in the present network has its own identity and calls are connected to the terminals using this identity which is therefore used throughout the network to keep track of a terminal.

Fig. 2A shows how the table 46 in the second node can be realized with only two columns. A first column denoted IDENTITY includes the identities of all the terminals in the entire network, and the second column denoted NOD includes an indication of 514 200 11 'to which node or mobile server these belong. Fig. 2A shows the identities 10001, 10002 and 10003 for three terminals belonging to node 1 or the first mobile server in Fig. 1, the identities 20001, 20002, and 20003 for three terminals belong to node 2 and finally the identities 30001, 30002, and 30003 belong to three terminals to node 3. The table would in fact contain the identities of many more terminals belonging to each node, but only three for each node are shown for the sake of clarity. A further detail that can be mentioned here is that the identities of the wireless terminals shown in Fig. 2A have all been assigned to a node using a known system. That is, all wireless terminals belonging to node 1 have an identity or, a number that is in a number series beginning with 10000, all wireless terminals belonging to node 2 have a number or an identity in a number series beginning with 20000 and all wireless terminals belonging to node 3 have a number in a series of numbers beginning with 30,000. This way of assigning numbers is part of the state of the art and the present invention is not limited to this way of assigning the identity of a terminal to a node, which will be described further below. Thus, any kind of number could have been used for terminals belonging to a special node.

Fig. 2B shows the home database of the third node in Fig. 3 and contains four columns, a first denoted IDENTITY, where the identities of the terminals visiting the node are entered, a second column denoted VISITED NOD indicating which node a terminal registered in the HDB is visiting , or in which VDB information about the location of the terminal can be found, a third column called SERVICE PROFILE which indicates the types of services that each terminal is allowed to use, and finally a column called AUTHORIZATION KEY which contains a password used to authenticate a wireless terminal before gaining access to the network or service, for example when updating the mode of a wireless terminal. The HDB in Fig. 2B contains only information about three terminals, terminal 30001, which visits node 3 (in reality this indicates that it does not visit at all but instead is in the area of the home node), has a first service profile PROFILE1 and an authorization key KEY30001, terminal 30002 which visits node 2, has a second service profile 514 2øo 12 PROFILE2 and an authorization key KEY30002, and finally terminal 30003 which visits node 1 has the first service profile PROFILE1 and an authorization key KEY30003. The service profile indicates the types of services that a terminal is allowed to use, some of which are mentioned above. Different A service profiles can be created by allowing some terminals to only make local telephone calls or exclude international calls. There are a number of different services, only a few of which have been mentioned above, and you can create a large number of different service profiles. In reality, the HDB can of course contain information about significantly more terminals. The HDBs in the two second nodes have the same structure as this HDB in node 3, Fig. 2C shows the VDB in node 1 and contains information about all the terminals in the geographical area of the first mobile server in Fig. 1. The VDB contains a table with four columns designated IDENTITY, HOME NODE, CONNECTED TO RE NUMBER and AUTHORIZATION KEY, which columns indicate the number or identity of the wireless terminals in the area of the first mobile server, which mobile server or home node they belong to, to which radio exchange of, all radio exchanges connected to the first mobile which each terminal is in radio contact with, and an authorization key for each terminal used to authenticate the terminal before it is given access to the network. For the sake of clarity, the VDB contains only information about three terminals, but in reality it can of course contain information about significantly more terminals.

The table thus contains the following information about the terminals that visit node 1: terminal 10001 which belongs to node l (in reality this indicates that it does not visit any node at all but is in the area of the home node), is connected RE * (* indicates here that it is connected to an RE other than the first RE 18 in Fig. 1, since Fig. 1 contains only one RE connected to Node 12) and has authorization key KEY10001, terminal 20002 belonging to Node 2, is connected to RE * and has authorization key KEY20002, and finally terminal 30003 belonging to node 3, is connected to the first RE 18 in Fig. 1 and has authorization key KEY30003. The VDBs in the other two nodes have the same structure as this VDB in node 1.

Now that the structure of a private network according to a first preferred embodiment has been described, the operation of the network will be described in more detail.

The signaling between different units will now first be described in general terms, ie how different units in the private network work together in order to connect traffic connections.

Signaling between two mobile servers in the network is done in accordance with QSIG (ISDN signaling over Q reference point) - signaling scheme and from a mobile server to the public network with DSS1 (Digital Subscriber Signaling System No. one).

The signaling between CT 30, base station 24 and RE 18 is technically well known and is described in the standard ETS 300 175. The signaling between a RE and a mobile server is performed in accordance with a signaling based on the signaling scheme DSS1 for communication between a PBX and a public network. This DSS1 signaling scheme has been modified in order to take care of mobile properties. Therefore, the new signaling scheme has means for handling various mobile aspects in DECT networks, such as means for handling authorization checks according to the standard ETS 300 769, means for handling position update in accordance with the standard ETS 300 692 and means for handling incoming and outgoing calls in accordance with the standard ETS 300 695.

There are basically two different situations when the table 46 in accordance with the invention is used and this is when the situation is updated and when an incoming call is connected to a wireless terminal in the network.

The initial setting of a terminal as belonging to the network in accordance with the invention will now be described with reference to Figs. 1, 2A, 2B, 2C and 3, the latter showing a flow chart showing a method for initiating a terminal in the private the network in accordance with the invention.

When a wireless terminal is initiated, such as terminal 30 in Fig. 1 for the network in accordance with the invention, the terminal is given authorization information and assigned an identity or a number, which in this example is the identity 30003, procedure step 86. The identity or number is then registered in a HDB in a node to which it is decided that the terminal belongs. The HDB also receives an authorization key corresponding to the authorization information stored in the terminal and a service profile for the terminal, procedure step 88. For the terminal 5104 200 14 this means that node 3 has been selected as the home node or the node to which the terminal 3 having identity 30003 belongs and therefore, the HDB 54 in that node receives the service profile PROFILEl and the authorization key KEY30003. The service profile indicates which services the terminal is allowed to use. However, the VISITED NODA column is not set in the HDB, this setting is not made until the terminal is switched on in the network. Then the table 46 in node 2 is set. The home node for the terminal is registered here, procedure step 90. For the terminal 30 which has the number 30003, the home node is thus set to node 3. The node that is visited is thus not set until the terminal is switched on in the system. When a wireless terminal moves around or makes calls in the wireless network, it seeks contact with the radio switches. If it connects to a radio switch that it does not recognize, it requests the status update.

The mobile server then looks in its VDB to see if the wireless terminal is registered there and receives the authorization key from the VDB if the terminal is registered there. If it is not registered there as is the case with a wireless terminal that has just recently been activated in the system or when the terminal has moved from one mobile server area to another, the mobile server must try to find out which node the terminal belongs to. This was done previously by analyzing the identity and contacting a mobile server associated with the number range in which the identity number was located. How this is done in the present case will be described below. As long as a wireless terminal moves within the geographical area of a mobile server in a node where it is registered in the VDB of this mobile server, the mode is automatically updated after authorization check performed by using the authorization key for the terminal stored in the VDB.

One of the aspects when the table containing information about which mobile server is the home node is consulted, is the case where a wireless terminal performs location update because it has moved from one node to another, ie from one mobile server's geographical area to another mobile server's geographical area. Such a case will now be described with reference to Figs. 1, 2A, 2B, 2C and 4, where Fig. 4 shows a flow chart showing a position updating method in accordance with the invention. 514 200 15 First assume that the first wireless terminal CT 30 has the identity 30003, belongs to node 3, which node is therefore also called home node, and is initially located there, ie is located in the third geographical area 6. Table 46 in node 2 would then '_contain an indication that the terminal with identity or number' 30003 has turned 3. ansm 54 in nad 3 would then contain information about the service profile and the authorization key as well as which node it visited (which would originally be visit node 3). The VDB 52 in node 3 would then also contain an indication that that terminal was connected to a certain RE, connected to the third mobile server 16. No other HDB and VDB would then contain information about this terminal 30.

Suppose now that terminal 30 moves to the first geographical area 2 in node 1, which node is therefore also called a visitor node, and more specifically to an area covered by the first base station 24 connected to the first RE 18. The CT 30 would then not recognize the base station and the RE, and would therefore send a location update request containing the identity 30003 to the first RE 18, procedure step 60. The first mobile server 12 then looks at the VDB 36 in order to try to find information about the terminal. Therefore, since this register means does not contain any information about the CT 30, the first mobile server contacts the second mobile server 14. The second mobile server looks at the table 46 and finds out from there that terminal 30 with identity 30003 belongs to node 3, procedure step 62.

This information is then returned to the first mobile server.

The first mobile server then proceeds and contacts the third mobile server 16 in node 3, procedure step 64. The third mobile server looks at the HDB 54 and retrieves the authorization key KEY30003 from it to send it to the first mobile server so that the location update can be performed. When the first mobile server 12 has received this authorization key, it forwards it to the first RE 18. The RE performs an authorization check for the terminal, procedure step 66. In this check, the RE sends a so-called challenge to the CT. The terminal sends a response to this output, which response is calculated based on pre-programmed authorization information received at. the initial programming of the terminal. The answer is compared in the RE with information contained in the authorization key, and the position in 514 200 16 'is updated if the answer is correct or corresponds to the information contained in the authorization key. How this type of update is performed is something that is technically well known and is further described in the standard ETS 300 693. There are also many different ways in which the authorization check can be performed. If the check gives an incorrect answer, procedure step 68, the terminal is ignored, no update is performed and the terminal is therefore denied access to the network, procedure step 70. If the check gives a correct result, procedure step 68, the RE informs the first mobile server of this fact. The first mobile server then updates the VDB with information about the terminal so that the VDB 36 stores the identity 30003 of the terminal, the home node, node 3, the first RE 18 to which it is connected and the authorization key KEY30001, as can be seen on the line at the bottom of Fig. 2C. The first mobile server then informs the third mobile server that the location update has been performed, and the third mobile server updates the HDB so that the column visitor node is set to node 1 for terminal 30 which can be seen on the row at the bottom of the HDB in Fig. ZB. The VDB in the visiting node and the HDB in the home node are thus updated, procedure step 72. The third mobile server then proceeds to inform the VDB in the node, where the terminal was previously located, of the fact that the terminal has moved and the mobile server at that position updates its VDB accordingly by deleting information related to the CT. Since this was VDB 52 in the home node, all this later update is done in the third mobile server.

When a terminal is switched off, the terminal informs the mobile server to which it is connected about this fact, whereby the mobile server in this visiting node deletes all entries about the terminal from the VDB.

Said mobile server also informs the home node's mobile server which deletes the record relating to the visiting node in the HDB, so that the VISITED NOD column in the HDB does not contain any information for that terminal. No such deletion is performed if a CT suddenly loses contact with a mobile server.

The preferred method described above can be varied in many different ways. The authorization key was stored, in the preferred embodiment, in the VDB. In this way, the visited node does not have to connect to the home node to get the authorization key every time the terminal moves between the visited nodes' radio switches. The VDB could just as easily be without this. 514 200 fff 17 information about the authorization key. In this case, the mobile server in the visited node would need to connect to the home node's mobile server each time the location update takes place in the visited Vnode. This would not be a problem if the visited Vnoden's mobile server was only connected to an RE. If there are many ÉE connected to the visited node, on the other hand they would be a lot of communication between the two nodes.

The authorization check does not need to be performed in the RE either, but can just as easily be performed in the mobile server. The authorization process can also take place in a completely different part of the system. There may be, for example, a central part in the network, for example in the second mobile server in Fig. 1, or in a central_authorization server, to which all mobile servers have access, for example via a computer network, where all access control for all CTs in the network is performed. In this case, questions would be distributed to the radio exchanges and / or mobile servers and answers would be collected from them to be checked at this central part. The reason for making this central may be_to achieve higher security, by the fact that the very secret authorization keys are not sent around everywhere in the network.

The procedure performed in the event of a status update was described above. This procedure is followed both in the event that a terminal is switched on in the system, and in the event that a terminal moves from one geographical area to another.

Now comes an example of another case, when table 46 is used.

Namely the case when there is an incoming call. This case will be explained in the following with reference to Figs. 1, 2A, 2B, 2C and 5, where the latter figure shows a flow chart of a method for connecting a call to a wireless terminal in the network.

First, assume that the CT 30 is now in the area of the first mobile server 12 and that an incoming call is made from the fixed terminal 55, connected to the public network 11, which is a second terminal. In this preferred embodiment of the invention, all incoming calls are received by the second mobile server, and the other mobile servers can only connect to the public network directly for outgoing calls.

What happens first is that the second mobile server then receives a request to connect a call from the second terminal 55 to the terminal 55 to the CT 30, procedure step 74. This request is sent using the terminal's identity 30003. The second mobile server 14 then looks in the table 46 and finds out, at the bottom of the table, that the terminal belongs to the third mobile server 16, procedure step 76. The second mobile server then connects a traffic path from the fixed terminal 55 to itself and hands over control to the third mobile server 16. The third mobile server therefore looks at the HDB 54 and finds, on the bottom line, that the terminal is visiting node 1, procedure step 78. The third mobile server 16 then sends a request to the the first mobile server 12 to search the wireless terminal 30, if the service profile allows such, and depending on which services, if any, the wireless terminals have activated. The first mobile server 12 then looks in the VDB 36 and finds out that the terminal 30 is connected to the first radio exchange 18, procedure step 80. The first mobile server then orders the first radio exchange to search the terminal, procedure step 82. When this search is performed, it lets first radio switch 18 each BS 24 connected to it, send a paging signal on a paging channel via the air interface. When the CT 18 receives this paging signal, it responds by answering one of the base stations, for example the one transmitting with the highest signal-to-noise ratio. Thereafter, the first mobile server connects a part of the traffic connection between itself and the CT 30 via the first RE and the first BS, and the third mobile server connects another part of the traffic connection between the first mobile server and the second mobile server. via the third mobile server. The last part of the fixed terminal 55 has, as described above, already been connected, procedure step 84.

The traffic connection is connected, in the preferred method above, from the second mobile server to the third mobile server, and from the third mobile server to the first mobile server. In this way, all incoming traffic passes through the home node, since all services are handled in this node. A request for services from e; terminal in a visited node is then forwarded to the home node that handles the service, such as call forwarding. This function could, as an alternative, be distributed in such a way that all or 514 200 19 certain services are handled in the visited node. The traffic connection could also, as an alternative, be connected directly from node 2 to node 1. In this alternative embodiment, the second mobile server would not hand over control to the third mobile server, but instead retain control of the control and ask for the information needed to connect up a call, ie which node the terminal is visiting, and then let -node 1 request a search if this was allowed.

As is clear from Fig. 1, node 1 and node 3 are not directly connected to each other. When this is the case, all signaling and connection connection passes between these two nodes through node 2..Ncd 1 and node 3 could, of course, as an alternative, be directly connected to each other.

The incoming call was made, in the preferred embodiment described above, by the number or identity of the wireless terminal with which contact was desired. The search was done by using this number. In an alternative embodiment of the invention, this search could be done by using a special search number selected for this occasion. This special search number would then have been selected either in the home node or in the visited node, since each mobile server would have a number of special search numbers to be used for searching. If the special search number was selected in the home node, this number would of course be transmitted to the visited node together with the search request.

In the preferred embodiment described above, all incoming calls were received in the other mobile server. Calls can alternatively be received in any mobile server or by the mobile server that is the home node.

When outgoing calls are made in the preferred network above, a wireless terminal connects to the mobile server in the node it is visiting, which in turn connects to and transmits control to the home node's mobile server. The call is then connected from the home node if the service profile allows this. In this way, basically all outgoing calls are handled by the home node. The only exception is emergency calls, such as the number 112 in Sweden and 911 in the USA, which are allowed to be made from the visited node. The reason for this is that it is of course better to get in touch with, for example, the local fire station in the event of a fire when the two nodes are 514 200: Ér_¿ 20 long separated. Alternatively, calls may be allowed to be connected from the visited node and some or all of the service profiles may be stored in the VDB of the visited node, so that the mobile server there may be allowed to perform some or all of the services that the terminal is allowed to use. The various operations described above which are performed in the various mobile servers are performed in the control means 31, 38, 48, which therefore have means for performing all these tasks. These means are arranged in the form of processors provided with associated memories. It is also conceivable to use a separate means for handling all these functions and then also in the form of processors provided with memories.

There are several different modifications that can be made to the invention. The VDB may contain more information transferred from an HDB such as a service profile. This information would then be moved to the VDB when the situation is updated. In this way, the mobile server in a visited node does not have to connect to the home node every time a call is to be made. A VDB and HDB do not have to be part of a mobile server, but can also be a database to which the mobile server has access.

Fig. 6 shows a second, alternative embodiment of the private telecommunication network according to the invention, in which all RE and base stations have been omitted for the sake of clarity. No public networks or fixed terminals are shown either, but the private network 10 can of course be connected to such a public network. Furthermore, the same reference numerals are used to denote similar bodies.- The only difference between the two private networks is that here also the first, 12, and the third, 16, mobile server have received a respective table 56 and 58 in the same way as the second mobile server . The tables here are identical and thus a mobile server does not have to connect to another mobile server in order to obtain information, which thus reduces the amount of signaling.

It is also easier for each mobile server to be able to receive incoming calls directly from the public network. The disadvantage of this embodiment is that it requires a function to update such tables simultaneously. .

Another variation is shown in Fig. 7. This figure shows a network according to a third, alternative embodiment, and differs from Fig. 6 in that no mobile server has a table. Each. control means 31, 38 and 48 are instead connected to a server 8, which connection could be arranged in the form of a computer network.

The mobile servers 12, 14 and 16 would here connect to the server 8, which would contain the table containing information about which terminal has its home node and suitable means for storing and retrieving information. The table, HDB and VDB, shown in Figs. 2A, 2B and 2C show only a short address of each node. In reality, the address of a node can be very long and therefore take up a lot of space. In order to reduce the size of the table, VDBs and HDBs, these will only contain one pointer to an address lookup table. Each entry in a column designated NOD, HOME NODE or VISITED NOD would then correspond to a pointer to a special address position in the address lookup table where the actual address of the node can be found, which address is then used to connect to each node.

What has been described above is a resolution of the band between the identity of a terminal and the node to which it belongs, which simplifies the way in which a home node of a wireless terminal can be changed. It also simplifies the choice of identity for wireless terminals in a wireless network in such a way that one does not have to select the number within a certain limited range, but can use all assigned numbers. The resolution of the above-mentioned band simplifies, as described above, the way in which a change of the home node can be performed in the network according to the invention. How this can be done will be described in the following with reference to Figs. 1 and 8, where the latter figure shows a flow chart of the method for updating a home node of a CT.

The control means 31, 38 and 48 in each mobile server or node have functions or comprise means for performing the above-mentioned update. Each such control means is then arranged to perform updating for CTs registered in the VDB of the respective node. Thus, if, for example, the terminal 30 were to change home node from node 3 to node 1, the update would be controlled by the control means 48 in node 3.

The update is performed as follows with CT 30 as an example.

The third mobile server 16, which is the current or old home node, measures the time that CT 30 has been in the area of the first 22 mobile server 12, procedure step 92. It then compares this time with a threshold value, procedure step 94. In order to do this, it stores the home node, or a body to which the mobile server for this home node has access, information on how long each terminal has visited other nodes during the given time period. The time here is the time that has been measured during a total time interval of say 1 month. The threshold value is set here as a percentage of the time that the terminal has been switched on in the network during this interval of 1 month. The third mobile server 16 therefore measures this time that CT 30 has been in the area of the first mobile server, and compares this with this threshold value, set as one percent of the time that the terminal has been switched on in the network. If this measure exceeds the threshold, procedure step 96, the home node for CT 30 changes from node 3 to node 1, procedure step 100. If the threshold is not exceeded, procedure step 96, no home node update is performed and the third mobile server continues to measure, procedure step 98.

The time interval during which the measurements take place is preferably a rather long time, such as at least 1 month, and the percentage of time recorded in an area is in the range of 50-90% of the total time recorded in any area, and preferably about 70%.

Thus, if a terminal is in the area of the first mobile server 12 longer than 70% of the time, the first node will automatically change to a new home node. The threshold value can be varied in many ways to obtain secure registrationQ The interval during which measurement is made must be chosen in such a way that the time is long enough to ensure a stable pattern for visited nodes, but short enough not to delay registration too much. The percentage must be chosen so that a significant change of location causes a change of home node, while visits to other nodes are still allowed.

The measurement is easily performed by the third mobile server, since HDÉ 54 contains all information about visited nodes and the entry in the VISITED NOD column is deleted when a terminal leaves this node.

Thus, it is very simple for the controller 48 to create a separate clock for each node that can be visited, and let such a clock run when the terminal is registered in the HDB located in the node associated with this clock.

With the method described above, the home node of a CT 514.2oo 23 changes automatically if the CT is more or less permanently in a visited node. In this way, much unnecessary signaling between the old home node and the new home node is avoided, so that the network's capacity can be used more efficiently for what it is intended for, ie to transport traffic. Difficult manual re-registration of home node is also avoided. "As is clear, the procedure described above does not need to be performed in the old home node. It can also be performed in the new home node or in node 2 containing the table. It can also be performed in a separate server, such as the server shown in Fig. 7, or if each mobile server has access to an external VDB, to a means_for handling this VDB, otherwise the old home node may perform measurements and make the decision to change the home node, and this server or control node performs it However, it is preferable to perform the measurement and make the decision to change the home node in the old home node, as it contains all the necessary information about the terminal and all other solutions would require a lot of signaling. has access, it is of course possible to have said separate unit make the measurement and perform the update. you can take into account the time that the terminal has been rejected in the calculation when deciding to change the home node. This could be done by recording the actual time that a terminal has been registered as a visitor in a node during the time interval, and comparing this actual time with the actual times recorded in the other nodes, and comparing these actual times with each other. Alternatively, a counter for each node is arranged and a counter for a particular node is incremented each time a wireless terminal is used from that node. The change of home node is then performed if the value of any such counter exceeds a threshold value. Another possible way to vary the decision-making process is to weight the percentages differently. This could be interesting if one of the nodes is small so that it can not handle too much traffic to avoid that - this particular node is assigned more terminals than it can handle. The threshold value mentioned above also does not have to take into account the time that the terminal is switched on in the network, but can be set as a percentage of the time of the entire measurement interval. How the update itself is performed after such a measurement will now be described with reference to Figs. 1, 2A, 9 and 10, where Fig. 9 shows the contents of the HDB in node 1, the new home node, and Fig. 10 shows a flow chart of the method for the actual change of home node in the network in Fig. 1.

Fig. 9 shows HDB 34 in node 1 and this HDB is similar to the HDB in node 3 shown in Fig. 2B. The main difference, in addition to the obvious registration of other CTs, ie CTs belonging to node 1 instead of CTs belonging to node 3, is that this table also contains the terminal with identity 30003 and which previously belonged to node 3. The HDB contains information about CTs that have node 1 as the home node and_all CTs have the service profile PROFILE1. A first CT that has identity 10001, is located in node 1 and has authorization key KEY 10001. A second CT that has identity 10002, visits node 2 and has authorization key KEY10002. A third CT with identity 10003, visits node 3 and has authorization key KEY10003. Finally, CT 30 with identity 30003 is registered as visiting node 1 and has authorization key KEY30003.

When the controller 48 in node 3 has decided to change the home node in accordance with the procedure described in connection with Fig. 8, it copies the information about CT 30 from HDB 54 in node 3, the old home node, to node 1, the new home node, procedure step 102 .

The controller 31 in node 1, which receives this information, then saves the CT in HDB 34 in node 1, i.e. it enters the received information in this HDB, procedure step 104. Thereafter, the controller 31 in node 1 informs the controller 48 in node 3 that an input has been created in HDB 34. The controller 48 in node 3 then informs the controller 38 in node 2 that an update of the table must be performed. The controller 38 in node 2 then updates the table by changing the home node setting for CT 30 from node 3 to node 1, procedure step 106. In this way, node 1 has now been set to be the new home node. For all new traffic connections that are connected, the new home node controls all services. However, the old home node still serves as the home node for all traffic connections that are going on during this change. Node 2 now informs node 3 that the table has been updated. Now only one step in the procedure remains. The third mobile server therefore deletes the information about CT 30 in HDB 54, procedure step 108. This 514 ZÛÛ 25 deletion does not have to take place immediately. On the contrary, it is very important that the information is not deleted while any ongoing traffic connection is being handled, which was connected while node 3 was still home node. With the procedure described above, it is possible to have an ongoing traffic connection to the CT, where the services used for this connection are handled by the old home node, while other activity is handled by the new home node. Such other activity could be information about a message waiting in a user mailbox or sending an SMS (Short Message Service) message, or information to a calling person that the terminal is busy.

Of course, the method described above may also include updating a VDB containing information about the terminal, so that the VDB is updated to contain the address or a pointer to the new home node. This step is preferably performed as soon as possible after the table has been updated, ie before the information about the terminal in the old home node's HDB is deleted. In this case, the third mobile server orders node 1, the node where the terminal is currently located, to update the VDB when it receives information from node 2 that the table 46 has been updated.

The reason why the method is performed in the manner described above is that there can be a lot of information to transfer between two nodes when the home node is changed. Furthermore, it is not desirable to transmit this information when there is a lot of traffic in the network. Therefore, the update is preferably performed at night.

At the same time, they want the actual change of home node to take place almost instantly so that it will not affect a user of the network if the change takes place when an HDB needs to be contacted. This can be done very quickly with the procedure described above.

The home node update method, described above, provides a method that automatically updates a terminal's home node. No change of terminal identity is needed and therefore the terminal can continue to be used while the change of home node takes place. The method also ensures a secure automatic home node update by setting the threshold value to the appropriate value. 51.4 -200 26 Of course, the update does not have to be automatic, but can also be performed manually, ie at the request of a user of a terminal and then the table, HDB and VDB are changed by service personnel.

The network according to the invention can be further changed in that the radio exchanges can be omitted completely and the base stations are directly connected to a mobile server. In this case, a mobile server would include the mobile management features contained in the RE. Then each base station would either be connected to the mobile server via its own telecommunication line or a number of base stations would be connected to the mobile server via some multiplex / demultiplexer. In the event that no radio switches are used, all mobile management functions will be present in the mobile server. The mobile server would then, due to the nature of the DECT system, also contain compression / decompression means and would then avoid decompression of speech signals intended for another CT connected to the same mobile server, or such signals intended for another mobile server in the same network. This would avoid unnecessary compression and decompression that would otherwise be performed in the system. The invention has been described together with mobile servers with a switching function. Of course, it can also be used with a mobile server that does not have such a function. Furthermore, it is not limited to use in a network comprising only wireless terminals. Networks comprising both wireless and fixed terminals can also use the invention. It is also not limited to mobile servers, but can be used in any private telecommunications network where you have to handle movement.

Claims (23)

514200 27 PATENT REQUIREMENTS _ A private telecommunication network (10) comprising at least two means for handling wireless terminals (12, 14, 16), each such means (12, 14, 16) being arranged to handle connection of connections to and from said wireless terminals, where each wireless terminal in the network has an identity (10001, 10002, 10003, 20001, 20002, 20003, 30001, 30002, 30003), characterized in that each means for handling wireless terminals (12, 14, 16) is further arranged to act as a home node for a part of the wireless terminals in the network regardless of the identity of these wireless terminals, so that each wireless terminal ~ belongs * to a means for managing wireless terminals and that the network comprises at least one first register means (46; 46, 56, 58 ; 8), arranged to register the home node (12, 14, 16) for all terminals (30) in the network and their identities, so that the home node registration in the first register means (46) can be changed for a wireless terminal in the network when the terminal is permanently moved from a node to another. The network of claim 1, wherein each means for managing wireless terminals comprises or is connected to a second register means (34, 44, 54) arranged to register all wireless terminals belonging to a means for managing wireless terminals (12, 14, 16), in order to simplify connection of calls to and status updates from a wireless terminal. A network according to claim 2, wherein the geographical area (2, 4, 6) within which a wireless terminal can maintain radio contact with a means for managing wireless terminals via a base station (24, 26, 28) is defined as the geographical area for this means for managing wireless terminals, each means for managing wireless terminals (12, 14, 16) comprising or connected to third register means (36, 42, 52) arranged to register wireless terminals located in the geographical the area (2, 4, 6) of said means for managing wireless terminals and each other register means also contains a pointer to which geographical area (2, 4, 6) a wireless terminal is located. 514 QÛÖ 28 The network of claim 3, wherein each base station (24, 26, 28) is connected to a means for handling wireless terminals (12, 14, 16) via a radio exchange (18, 20, 22) and each third register means (36). , 42, 52) contains an indication of the radio exchange to which the wireless terminals are connected. Network according to claim 3 or 4, wherein a part of a traffic connection from a first means for managing wireless terminals (12), in the geographical area (2) of which a first wireless terminal (30) is located, is connected to the network. first wireless terminal by using the identity of this wireless terminal (30001), which traffic connection also contains a part from a second terminal (55), which may be located outside the network, to the first means for handling wireless terminals. A network according to any one of claims 2-5, wherein each second register means contains authorization information (KEY101, KEY10002, KEY10003, KEYZOOOZ, KEY30001, KEY30002, KEY30003), for each register terminal, such that a means for handling wireless terminal data receiving from an unknown wireless terminal can access the first register means in order to find out which means for handling wireless terminals to which the wireless terminal belongs in order to obtain authorization information from it in order to complete the location update. A network according to any one of the preceding claims, wherein the first register means comprises a table (46) in a central means for managing wireless terminals (14). The network of claim 7, wherein all incoming calls intended for wireless terminals in the network are first received in the central means for managing wireless terminals. The network of any of claims 1-6, wherein said first register means comprises a table (46, 56, 58) in each means for handling wireless terminals. 514 200 29 A network according to any one of claims 1-6, wherein said first register means comprises a table in a central separate server (8), to which all means for managing wireless terminals have access. A network according to any one of the preceding claims, wherein at least one means for managing wireless terminals is a mobile server. A means for managing wireless terminals (14) for use in a private network (10) comprising at least said means for managing wireless terminals (14) and other means for managing wireless terminals (12, 16), each wireless terminal in the network has an identity (1000l, 10002, 10003, 20001, 20002, 20003, 30001, 30002, 30003) and each means for managing wireless terminals is arranged to handle connection of connections to and from said wireless terminals and to function as a home node for a part of the wireless terminals in the network, independent of the identity of these wireless terminals, the means for managing wireless terminals (14) comprising first register means (46) arranged to register the home node (12, 14, 16) for all terminals in the network and their identities so that the home node entry in the first register means (46) can be changed from the wireless terminal in the network, when the terminal is permanently moved from one node to another. A server (8) in a private telecommunication network (10) comprising at least two means for managing wireless terminals (12, 14, 16), each wireless terminal in the network having an identity and each means for managing wireless terminals being arranged to managing the connection of connections to and from wireless terminals in the network and to act as a home node for some of the wireless terminals in the network, independent of the identity of these wireless terminals, where the server comprises first register means (46: 46, 56, 58; 8) arranged to register the home node (12, 14, 16) for all terminals (30) in the network and their identities, so that the home node registration in the first register means (46) can be changed for a wireless terminal in the network, when the terminal is permanently moved from a node to another. A method for changing the home node of a wireless terminal 1514 200 fyff; In a private telecommunication network comprising at least two means for managing wireless terminals, each wireless terminal having an identity and each such means for managing wireless terminals being arranged to handle connection of connections to and from said wireless terminals and to act as a home node for a part of the wireless terminals in the network, independent of the identity of these wireless terminals, so that each wireless terminal belongs to a means for managing wireless terminals, comprising the step of: changing a setting of the terminal (30) from being set to belong to an old means for managing wireless terminals (14) to be set to belong to; a new means for managing wireless terminals (12) in at least one first register means (46; 46, 56, 58; 8) which keeps track of the home node of all wireless terminals in the network and their identities (step 106), so that the home node of the terminal easily can be changed. The method of claim 14, comprising the further steps of: registering the terminal as belonging to the new means for managing wireless terminals in a second register means (34) associated with the new means for managing wireless terminals (12) and keeping track of all wireless terminals belonging to the new means for managing wireless terminals, (step 104), and deleting a registration of terminals belonging to the old means for managing wireless terminals in a second register means (54) associated with the old means for to handle wireless terminals (16), (step 108). A method of registering a wireless terminal (30) having an identity (30003) in a private telecommunication network (10) comprising at least two means (12, 14, 16) for managing wireless terminals, each wireless terminal having an identity and each means for managing wireless terminals is arranged to handle connection of connection to and from wireless terminals in the network, comprising the steps of: “in a second register means (54) arranged in or for the means for managing wireless terminals and for keeping track on 514 20-0 31 all wireless terminals belonging to said means for managing wireless terminals regardless of their identities register said means for managing wireless terminals as home node for the wireless terminal (step 88), and '.that in a first register means_ (46) which keeps track of the home node of all wireless terminals in the network and their identities, registers the wireless terminal as belonging to said means for handling wireless scoop terminals (step 90), in order to simplify later change of home node for wireless terminals in the network. A method for determining where a wireless terminal (30) is to be searched in a private telecommunication network (10) comprising at least two means for managing wireless terminals (12, 14, 16) and wherein each wireless terminal has an identity, comprising the steps to: determine to which wireless terminal means a particular wireless terminal belongs, by connecting to a first register means (46) which keeps track of which wireless terminal means all wireless terminals in the network belong and their identities, (step 76), determining a geographical area (2) in which the wireless terminal is located, by connecting to a second register means (54) arranged for or included in the means for managing wireless terminals (16) pointed out in the first the register means and keeps track of all wireless terminals belonging to said means for handling wireless terminals regardless of their identities, so that the wireless terminal can be searched in at least one part of this geographical area controlled by a wireless terminal managing body (12) associated with said geographical area, (step 78). The method of claim 17, comprising the further step of determining in which part of the geographical area the terminal is to be searched, by connecting to a third register means (36) arranged for or included in the means for handling wireless terminals (12). associated with the geographical area (2) in which the wireless terminal (30) is located. A method of connecting a call to a first wireless terminal (30) having an identity (30003) located in a private telecommunication network (10) from a second terminal (55), each wireless terminal in the network having a identity, comprising the steps of: performing signaling between the second terminal and a first means (14) for handling wireless terminals in the network, the signaling comprising a request for a call to the first terminal, (step 74), determining to which means for to manage wireless terminals the first terminal belongs, by connecting to a first register means (46) which keeps track of which means_ for managing wireless terminals all wireless terminals in the network belong and their identities, (step 76), determine a geographical area (2) in which the wireless terminal is located, by connecting to a second register means (54) arranged for or included in a second means (16) for handling wireless terminals which p echoing in the first register means which keeps track of all wireless terminals belonging to the second means for managing wireless terminals regardless of their identities, (step 78), search the wireless terminal in at least a part of the geographical area in which the wireless terminal is located under the control of a third means (12) for handling wireless terminals associated with said geographical area, (step 82), and 'connecting a call from the second terminal to the first wireless terminal via the third means for handling wireless terminals if the wireless terminal responds to the search, (step 84). The method of claim 19, comprising the further step of determining in which portion of the geographic area the wireless terminal (30) is to be searched by connecting to a third register means (36) arranged for or included in the third means (12). ) to manage wireless terminals, (step 80). 514 200 33 A method according to claim 19 or 20, wherein each wireless terminal in the network has an identity and each register means stores (information about wireless terminals using their identities, and the step of searching for the wireless terminal comprises searching the terminal using the identity of the terminal). . A method according to claim 19 or 20, wherein each wireless terminal in the network has an identity and each register means stores information about wireless terminals using their identities, and the step of determining the geographical area contains the step of selecting a special search number for the wireless the identity of the terminal used in the search, and the step of searching includes searching for the wireless terminal using this special search number. Method for updating the location of a wireless terminal (30) with an identity (30003) and located in a private telecommunication network (10), where terminals belong to different means (12, 14, 16) for managing wireless terminals , comprising the steps of: requesting a status update from the terminal (30), (step 60), in a first register means (46) which keeps track of which means for managing wireless terminals all wireless terminals in the network belong, finding out to which means for managing wireless terminals the wireless terminal belongs, (step 62), to or for a means (16) for managing wireless terminals indicated by the first register means_connecting to a second register means (54) which keeps track of all wireless terminals which belongs to said means for managing wireless terminals independent of their identities, for obtaining authorization information (KEY30003), (step 64), and performing location update for the terminal using authorization information tion, (steps 66, 68, 70, 72).