SE513246C2 - Procedure and device in an IP-based network - Google Patents

Abstract

The present invention relates to a method and an apparatus for establishing connections between tow subscribers in an Internet Protocol (IP) based network, said network being divided into zones, or subnetworks, each zone being managed by a gatekeeper (15, 15'; 25, 25'). All gatekeepers are connected to a zone management means (17; 27), which holds information about the logical addresses of all user terminals (11, 11'). A first user (11) in a first zone (13) managed by a first gatekeeper, who wishes to establish a connection to another user (11') in another zone (13') managed by a second gatekeeper (15') sends a request to the first gatekeeper (15), from which the request is forwarded to the zone management means (17). The zone management means (17) requests the address from the second gatekeeper (15') and returns an address confirmation, so that the connection may be set up.

Description

15 20 25 513 246 2 minal fi rms in an audio-video and / or data communication network, which networks constitute zones in a larger data communication network, each zone being handled by a gate guard, which means is connected to the gate walls in at least two zones in the network, characterized in that it is arranged to receive a request from a gatekeeper for information regarding where in the network a terminal which is not located in the gate guard's zone is located; send back information about which zone the terminal is in.

The object is also achieved by a method for establishing a connection between a transmitting user terminal and a receiving user terminal in an audio, video and / or data communication network comprising at least two subnetworks, or zones, each subnetwork being manageable by the gatekeeper and all gatekeepers being connected to a zone management means, which method is characterized by the following steps: - a signal is sent from a first user terminal in a first zone to the zone gatekeeper, with a request for an address to a second user terminal in the second zone; - information is requested about the second zone in which the second user terminal is located, and the gatekeeper in this zone from a zone management means including information about all user terminals - the second user terminal is located in a second zone; - the connection to the zone management means is disconnected; the connection is established between the first and the second user terminal.

The means may be arranged to allow a subscriber connected to a gatekeeper to be temporarily registered with another gatekeeper.

The identification of the second zone is done according to an embodiment in the following steps: - a zone request is sent from the gatekeeper to the zone management means; a position request is sent from the zone management means to the gatekeeper in the zone of the receiving user terminal; a position confirmation is sent from the gatekeeper to the zone management means; 10 15 25 25 513 246 3 - an address confirmation is sent from the zone management means to the gatekeeper.

The second user terminal in the second zone is located and the connection between the first and the second user media is connected, for example as follows: a connection signal is sent from the sending end user to the gatekeeper with specification of the carrier capacity; - the information in the connection signal is sent from the gatekeeper to the receiving end user; - an address request is sent fi from the receiving end user to its gatekeeper; - an address confirmation is sent from the gatekeeper to the end user; - a connection signal is sent from the receiving end user to the transmitting end user's gatekeeper; i - the connection signal is forwarded to the gatekeeper to the transmitting end user.

The zone management means contains information about all addresses that are present in the various gatekeepers in the virtual network and assists in the address translation in a virtual network.

The solution according to the invention entails the following advantages: - For roaming in the network is possible, Qdvs. users can move between different terminals and different zones in the network.

- A private network for audio-video and / or data communication is provided, which includes internal zones and which can interact with external clients and positioning services. j - The network according to the promotion promotes the distribution of functions with respect to TCP / IP. Brief Description of the Drawings Figure 1 shows a connection between two end users in a zone, using a gate guard, according to the prior art; Figure 2 shows a connection between two end users in different zones, by means of gate guards and a zone management means according to the invention; Figure 3 shows the signaling performed when a connection between two end users in different zones is connected, according to the invention; Figures 4A and 4B show the signaling that takes place when a new gatekeeper shell is registered, resp. deregistered, at the zone management means; Figures 5A and SB show the signaling that is performed when a new endpoint is to be registered, resp. deregistered by the zone management means; and Figure 6 shows the principle of roaming in the network according to the invention.

Detailed Description of Embodiments Figure] is a schematic drawing of a connection between two end users 1 in a zone 3 in a private network with a gate guard 5 according to the prior art. The gatekeeper 5 has information about the position of each address belonging to its zone and also connects connections in the zone.

The solution according to the invention can be realized in any type of data network. For the sake of simplicity, a protocol called H.323, which is a de facto standard for audio-video and / or data communication, is used as a basis for the discussion.

Figure 2 is a schematic drawing of a net according to the invention. The network is divided into z e zones 13, 13 °, each zone comprising a gate guard 15, 15 ”. Each end user 11, 11 'is connected to the gate guard 15, 15 "in the zone 13, 13" to which it belongs. All gate guards are connected to a zone management means 17 according to the invention. The zone manager 17 comprises a table 19 with logical addresses, or alias addresses, of all registered endpoints in all zones in the network, and the zone in which each endpoint is registered. 10 15 20 25 30 513 246 5 An end user 11 who wishes to establish a connection to another end user 11 ”in another zone initiates this by signaling to the gatekeeper 15.

The gatekeeper 15 requests the destination from the zone management means 17. The zone management means 17 informs the gatekeeper 15 about the physical address of the end user 11 ”to which the connection is to be connected. The signaling between the gate guards 15, 15 ”in the two networks then continues in a known manner.

If the HSB protocol is used, the signaling takes place as shown in more detail in Figures 3, 4A, 4B, 5A and 5B.

Figure 3 shows the signaling that takes place when an end user 11 in a zone 13 wishes to connect a connection to another end user 11 "in another zone 13". The end user ll wishing to connect a connection to another end user 11 "sends an address request (Address Request- ARQ) to his gatekeeper 15. The ARQ signal includes the following: i - Destination Alias Address (the address of the receiving end user 11" ) - Destination Call Signaling Address (usually the address of the receiving end user) - Source Alias Address (the address of the end user initiating the connection) - Source Call Signaling Address (usually the address of the end user initiating the connection) - the desired bandwidth the desired Call Model The gate valve 15 sends a Zone Request-Zone RQ including Destination Alias Address to the receiving end user 11 ”to the zone handler 17.

The zone management means 17 responds by sending a zone confirmation (Zone CF) to the gatekeeper including the message DestinationOkWellK- 10 15 20 25 513 246 6 nownRasAddress, which means that the address has been found (RAS Address = Registration Admission and Status Address) The gatekeeper 15 can then send a location request (Location Request - Location RQ) to the gatekeeper 15 "in the zone to which the receiving end user 11" belongs.

The gatekeeper 15 ”responds by sending a position confirmation (Location CF) to the gatekeeper 15 including Destination Call Signaling Address The gatekeeper 15 responds to the end user 11 with an address confirmation (Address Confirmation - ACF) including the following information: - available / allocated bandwidth - the call model to be used - Destination Call Signalling Address The end user 11 then sends a connection (Setup) signal to the gatekeeper 15 including the following information: - carrier capacity - information from user to user The gatekeeper forwards further information in the setup signal to the receiving end - the turner l 1 ”.

The receiving end user 1 1 "sends an address request (ARQ) to its gatekeeper 15", including the following information: - Destination alias address Destination Call Signaling Address Source Alias Address - Source Call Signaling Address desired bandwidth l 10 15 20 25 30 513 246 ~ desired number model The gatekeeper 15 'responds by sending an address acknowledgment ACF to the end user 11' containing the following information: i - bandwidth i - call model - Destination Call Signaling Address The receiving end user 11 'then sends a Connect signal to the gatekeeper 15 at the transmitting point. the end user's zone 11, comprising the following information: - Transport Address H.245 Control Channel - the destination's type of end point The gatekeeper 15 forwards the connect signal to the end user ll.

Figure 4A shows the signaling that takes place between a gate guard 15, 15 'and a zone handling means 17 when a new gate guard is to be registered with the zone handling means 17, if the H.323 protocol is used. The gatekeeper 15, 15 "sends a gatekeeper registration request (GK_RRQ) including GatekeeperWellKnownRasAddress which is the address on which the gatekeeper 15, 15" is known in the network, to the zone handler 17. The zone handler 17 responds with a confirmation on gatekeeper registration connexion (GKRCF) including the zone identifier which is the identifier to be used for the new gatekeeper's zone, in order to verify that the gatekeeper has been registered as a gatekeeper for this zone. in Figure 4B shows the signaling that takes place between a gate guard 15 and a zone management means 17 when a fixed gate guard 15 is to be deregistered, ie. is removed from the zone manager domain 17 _ As previously stated, the H.323 protocol is used.

The gatekeeper 15 sends a gatekeeper unregistration request (GK_URQ) to the zone harrier 17, including the zone identifier. The zone manager 17 responds by sending a confirmation of Gatekeeper Unregistration Confirmation (GK_UCF) back to the gatekeeper 15 including NurnberOf EndPointsUnregistered which indicates how many endpoints are connected to the gatekeeper who has been deregistered.

The GK_UCF signal confirms that the gatekeeper 15 is no longer registered with the zone handler 17.

Figure 5A shows the signaling that takes place between an end point, ie. a user terminal 11 and a gate guard 15 and between a gate guard and a zone handler 17, when a new endpoint 11 is to be registered, according to the H.323 protocol. First, the new endpoint 11 sends a Registration Request (RRQ) to its gatekeeper including the following: - CallSigriallingAddress - The gatekeeper's address - RAS_Address - Registration Admission and Status Addresses - TerrninalType - the type of terminal connected at the endpoint 11 - AliasAddress - the address of which the new endpoint is to be found in the network.

The gatekeeper 15 sends an endpoint registration request (EP_RRQ) to the zone management means 17 comprising the following: - EndPoint IDs - identifies the new endpoint 11 - Zone IDs - identifies the zone in which the new endpoint is located - AliasAddress the new endpoint must be in the network.

The zone management means 17 responds to the gatekeeper 15 by sending a confirmation of end point registration (EP_RCF) including the alias address of the new end point 11.

The gatekeeper 15 then responds to the new endpoint 11 with a Registration Confirmation (RCF) including the following: ~ GK_CallSignalAddress - the gatekeeper's address - EndPointIdenti - the identifier of the new endpoint 11 10 15 20 25 30 513 246 9 The new endpoint at has now the gate guard 15 and the zone handling device 17. 'Figure 5B shows the signaling that takes place when a significant end point 11 is to be deregistered, ie. no longer be connected to the gate valve 15.

First, the endpoint 11 sends an Unregistration Request (URQ) request to its gatekeeper 15 including the following: - CallSigilallirigAddress - the gatekeeper's address - EndPointIdenti fis - the identifier of the endpoint 11 to be unregistered - A1ias theaddress 11 - the address of the endpoint 11.

The gatekeeper 15 sends an end point unregistration request (EP_URQ) to the zone handler 17, including the following: 11 are available online.

The zone management means 17 responds to the gatekeeper 15 by sending a confirmation of end point unregistration (EP_UCF) including the end point 11 alias address. The gatekeeper 15 responds to the new endpoint: ll with a confirmation of unregistration (UCF).

The new end point 11 has now been deregistered from the gate guard 15 and the zone handling means 17.

Figure 6 shows the principles of roaming in the network according to the invention, ie. how a person or a terminal can move between zones. A number of endpoints 21a, 21b, 21c in a first zone 23 are connected to a first 25. Second endpoints 21d, 21e in a second zone 13 'are connected to a second ground 25. Both gate guards 25, 25 "are connected to a zone management means 27. 10 15 20 25 513 246 10 Each gate guard 25, 25" is also connected to database means 29, resp. 29 ”. The database bodies 29, 29 'include items with information about the services assigned to each endpoint 21a,. ., 2 le in the zone 23, 23 "to which the database means 29, 29" belongs. Examples of services can be conversion numbers or additional services specified in H.323, e.g. call forwarding. The services are run in processors 31, resp. 31 ”.

For roaming to be possible, the logical addresses of all endpoints or users 21a, .., 2le must be unique throughout the network. The easiest way to ensure this is to include the name of the zone to which the user belongs in the name. In this example, this would mean that a user 21a in the first zone 23 would be identified by its number (or logical name) together with the zone number (or logical name), e.g. 23. 21a or any other selected format. The user can keep this name even when he moves to another zone, or the zone name can end. A user 21a who wishes to move from one zone 23 to another 23 "registers with the gatekeeper 25" in the new zone 23 ". The gatekeeper 25 ”then informs the zone handling means 27 that the subscriber is now in the zone 23“ belonging to this gate guard 25 ”. The signaling takes place according to Figure 5A. In one embodiment of the invention, the user 21a must disconnect from the first gate guard 25, as shown in Figure 5B before connecting to the new gate guard 25 '. In another embodiment, the zone management means automatically removes the user 21a from the first gate guard.

The services assigned to the user 21a are stored in the database means 29 connected to the first gatekeeper 25. When the user 21a fl moves to another zone, the service records belonging to the user 21a fl can be transferred to the database means 29 "connected to the new gate guard 25" . When a service is activated, it will then be run in the processor 31 "in this zone 23". It would also be possible to leave the service records in the first database 29. In this case, the services would be run in the processor 31 in the first zone 23. 513 246 11 Surface within a zone can be done in the same way, except that no changes are needed for the services.

Claims (3)

1. LI: 10 15 513 246 m .. Patent claim. Means for enabling connection between a transmitting (1 1) and a receiving (11 ') user terminal, each terminal (1 1, 11') being located in an audio-video and / or data communication network, which networks constitute zones (13, 13 °) in a larger data communication network, each zone being handled by a gate valve (15, 15 ') which means is connected to the gate valves (15, 15') in at least two zones (13, 13 °) in the network, characterized by that it is arranged to receive a request from a gate whale (15) for information regarding where in the network a terminal (1 l ”) which is not located in the gate guard's (15) zone is located; send back information about in which zone said terminal (11 ') is located. B) A device according to claim 1, characterized in that it is arranged to allow a subscriber connected to a gatekeeper to be temporarily registered with another gatekeeper. A device according to claim 1 or 2, characterized in that it is adapted for signaling according to the HJZB protocol. A method for establishing a connection between a transmitting user terminal (11) and a receiving user terminal (11 ') in an audio, video and / or data communication network comprising at least two subnetworks, or zones (13, 13'), each at each subnet can be handled by the gate valve (15, 15 °) and all gate guards (15, 15 ") are connected to a zone management means (17), which method is characterized by the following steps: A signal is sent from a first user terminal (11) in a first zone (13) for the gate guard (15) of the zone (13), requesting an address of a second user terminal (11 °) in the second zone (13 '); 10 513 246 I? Information is requested about the second zone (13 *) in which the second user terminal (11 ') is located, and the gatekeeper (15') in that zone (13 °) from a zone management means (17) including information about all user terminals (11 '). , 11 °) The second user terminal (11 ') is located in the second zone (13 °); The connection to the zone management means (17) is disconnected; The connection is established between the first (1 l) and the second (11 ”) user terminal. . Method according to step 4, characterized in that the signal sent from the first user terminal is an address request according to the H.323 protocol. . Method according to claim 4 or 5, characterized in that the identification of the second zone (13 ') is done in the following steps: A zone request is sent from the gatekeeper (15) to the zone handling means (17); A position request is sent from the zone handler (17) to the gatekeeper (15 °) in the zone of the receiving user terminal (11 °); A position confirmation is sent from the gate guard (15 ') to the zone handling means 07); An address confirmation is sent from the zone manager (17) to the gatekeeper (15). . Method according to one of Claims 4, 5 or 6, characterized in that the second user terminal (11 °) is located in the second zone (13 ') and the connection between the first (11) and the second (1 1') the user terminal is connected, in the following steps: a connection signal is sent from the transmitting end user (11) to the gate guard (15) specifying the carrier capacity; The information in the connection signal is sent from the gatekeeper (15) to the receiving end user; i An address request is sent from the receiving end user (11 °) to its gatekeeper (15 °); 10 513 246 / ff An address confirmation is sent from the gatekeeper (15 °) to the end user (1l '); A connection signal is sent from the receiving end user (11 ') to the sending end user (11) gatekeeper; The connection signal is forwarded from the gate valve (15) to the transmitting end user (11 °). . Networks for audio-video and / or data communication, characterized in that it comprises a number of sub-networks, or zones (13, 13 °), each zone being managed by a gatekeeper (15, 15 °) and all gxin valves connected to a zone management means (17) according to any one of claims 1- 3.