AU2004202962A1 - Method of Implementing a Line Group Function in a Communication Network Based on ITU-T H.323 - Google Patents

Description

S&F Ref: 490328D1

AUSTRALIA

PATENTS ACT 1990 COMPLETE SPECIFICATION FOR A STANDARD PATENT Name and Address of Applicant: Actual Inventor(s): Address for Service: Invention Title: Siemens Aktiengesellschaft, ofWittelsbacherplatz 2, 80333, Muenchen, Germany Karl Klaghofer Markku Korpi Spruson Ferguson St Martins Tower Level 31 Market Street Sydney NSW 2000 (CCN 3710000177) Method of Implementing a Line Group Function in a Communication Network Based on ITU-T H.323 The following statement is a full description of this invention, including the best method of performing it known to me/us:- 5845c Method of implementing a line group function in a communication network based on ITU-T H.323 The invention relates to a method of implementing a line group function in a communication network based on ITU-T Standard H.323. In this context, line group signifies that a group address is called from a calling terminal in order to prompt a connection to be set up to one of a plurality of group terminals in a line group.

Line group functions are known from centrally controlled communication private branch exchanges. In such communication private branch exchanges, there is a central switching device which undertakes the signalling for the individual group endpoints in a line group and also switches the setting-up of connections between a group endpoint and a calling endpoint.

Depending on the distribution of signalling by a central communication controller to the individual group endpoints, three fundamental line group types are distinguished. If a call directed from a calling endpoint to the group address is signalled to all group endpoints simultaneously, then a "pickup" group function is involved. If the incoming call is signalled to a single group endpoint and respectively signalled to the next endpoint if this group endpoint does not respond within a particular time period, a "hunting" group function is involved. If a call directed to a group address is signalled specifically to a group endpoint by the central controller on the basis of an automatic call distribution function, this is called Automatic Call Distribution ACD.

In a communication network based on ITU-T Standard H.323, in which there is no central call control but instead call control from endpoint to endpoint, it is not possible to implement a line group 2function on the basis of known centrally switched communication systems.

The object of the present invention is to specify a method of implementing a line group function in a communication network based on ITU-T H.323.

The invention achieves this object by means of a method having the following method steps: an alias address for the line group is converted into a group transport address for a proxy function, and a connection setup message is transmitted from the calling endpoint to the proxy function using the group transport address; a connection setup message is transmitted from the proxy function to group endpoints in the line group using transport addresses known to the proxy function; after a response message has been transmitted from one of the group endpoints to the proxy function, the address of this endpoint is transmitted to the calling endpoint, and the address of the calling endpoint is transmitted to the responding group endpoint by the proxy function; a connection is set up between the calling endpoint and the responding group endpoint using the addresses of these endpoints.

The use of a proxy function as a controller for a line group function ensures that the line group function can be carried out irrespective of the state of the individual group endpoints. The setting-up of connections between endpoints in a communication network based on ITU-T H.323 is controlled by the endpoints. If a terminal at an endpoint is not ready, an attempt to set up a connection to this terminal would have no effect without a proxy function. The proxy function, which is independent of terminals, thus ensures that the line group function is implemented 3 even if terminals at individual group endpoints are not ready.

In a similar way to a gatekeeper function, a proxy function is a logic function within a communication network. A gatekeeper is a logic function for performing standard functions such as address resolution or bandwidth management. In this context, address resolution means that a calling endpoint transmits to the gatekeeper an alias address for an endpoint which is to be called, and receives from the gatekeeper the transport address, that is to say the Internet protocol address and the port number. The gatekeeper knows the volume of traffic for real-time applications within the network area for which it is responsible. When a calling terminal transmits a request for a connection with a particular bandwidth to the gatekeeper, the gatekeeper compares the requested bandwidth with the available bandwidth and, depending on the result of the comparison, transmits a message to the calling terminal.

A proxy is also a logic function. A proxy according to the invention knows the transport addresses of all the members of a line group for which the proxy can be contacted via a group address, a socalled pilot address. When a call for this group address comes to the proxy, the proxy attempts to set up a connection to one of the line group endpoints on the basis of a stipulated regulation using the transport addresses of the group endpoints of the members of the line group.

In one beneficial embodiment of a method according to the invention, the proxy function signals to a calling terminal that it is transmitting a connection setup message to a group endpoint. This allows a subscriber at the calling endpoint to recognize that a connection setup operation is not yet complete but has not been terminated either.

In one particular embodiment of a method according to the invention for implementing a pickup- 4 group line group function, the proxy function transmits a connection setup message to all group endpoints simultaneously and transmits to the calling endpoint the address of the group endpoint from which the proxy function receives the first response message, which signals readiness to receive.

In another embodiment of a method according to the invention, the proxy function transmits a connection setup message to only one group endpoint to implement a hunting-group line group function, and, if this group endpoint has not signalled within a particular time period that it is ready to receive, a connection setup message is transmitted to another group endpoint. This is carried out until one of the group endpoints transmits a response message or until a stipulated maximum time period has expired.

Although such a way of implementing a hunting function may result in relatively long waiting times for a calling subscriber, it reduces the volume of traffic within the communication network.

Both the method just described for implementing a hunting-group line group function and the previously described method for implementing a pickup-group line group function can also be used to contact, via a single group address, a subscriber who may be contactable via a plurality of different endpoints. In this case, all the group endpoints in the respective line group are allocated to the same subscriber.

In one particular embodiment of an inventive method of the type described above for implementing a hunting-group line group function, one of the group endpoints is allocated a message recording device, and the proxy function transmits a connection setup message to this group endpoint only if all the other group endpoints have not set up a connection. Such a method enables a calling subscriber to leave a message, both in the case of a line group having different subscribers and in the case of a line group whose group endpoints are all allocated to one subscriber.

5 In one advantageous embodiment of the method described above for implementing a hunting-group line group function, the proxy function defines the sequence in which connection setup messages are transmitted to individual group endpoints on the basis of a regulation for automatic call distribution. This regulation can, for example, be designed to optimize the timing of the utilization of the individual group endpoints. However, the regulation for call distribution can also be based on the instant when a call was last ended.

Of course, the individual group endpoints can possibly also be contactable via alias addresses which are independent of the group address. To contact such a group endpoint via the alias address, which is independent of the group address, the alias address can in this case be resolved by a gatekeeper function, for example. Accordingly, such a gatekeeper function transmits the transport address of the specifically called group endpoint to the calling endpoint.

The invention is explained in more detail below with the aid of two illustrative embodiments and with reference to the figures, in which: Figure 1 shows a message flowchart for implementing a pickup-group line group in a communication network based on ITU-T Standard H.323 as a schematic illustration of an embodiment of a method according to the invention, and Figure 2 shows a message flowchart for implementing a hunting-group line group in a communication network based on ITU-T Standard H.323 as a schematic illustration of an embodiment of a method according to the invention.

Figures 1 and 2 each show basic states, events and the message flow between three endpoints A, B and C in a communication network based on ITU-T Standard H.323 and a proxy function provided in this communication network. In the initial state, the proxy function Proxy and terminals (not shown) allocated to the endpoints A, B and C are each in an inactive state.

6 In the sequence of events shown in Figure 1 for implementing a pickup-group line group, and also in the sequence of events shown in Figure 2 for implementing a hunting-group line group, a subscriber at the endpoint A uses the proxy function Proxy to prompt a connection to be set up to a line group of endpoints B and C. For this, an RAS message is transmitted from the endpoint A to the gatekeeper responsible for this endpoint A. In this case, RAS stands for Registration, Administration and Status and is equivalent to a protocol between the endpoint and the gatekeeper. In the embodiments in Figures 1 and 2, the corresponding sequence of events is shown in a simplified illustration. Usually, the endpoint A sends a request for access authorization in the form of an RAS message AdmissionRequest to the gatekeeper with an alias address for the line group B, C which is to be called. The gatekeeper, as a logic function, checks the authorization of the calling endpoint A and transmits an RAS message AdmissionConfirm to the endpoint A to acknowledge access authorization. In this case, the endpoint A receives from the gatekeeper an address for the line group to be called in the form of a group transport address for a proxy function Proxy as a routable alias address for this imaginary endpoint.

The endpoint A transmits a connection setup message H.225 SETUP containing the group transport address of the line group to be called to the proxy function Proxy. Such a group transport address for a line group is also called a pilot address. The proxy function Proxy recognizes that it must take the addresses of the actual endpoints B and C from a table assigned to the group transport address in order to send a message H.225 SETUP to these actual endpoints B and C.

In the sequence of events shown in Figure 1 for implementing a pickup-group line group, the message H.225 SETUP is forwarded by the proxy function Proxy to the endpoint B and to the endpoint C simultaneously.

7 The endpoint B and the endpoint C acknowledge to the proxy function Proxy that dialling is complete with a message CallProc, and that an incoming call has been recognized with a message Alerting. The proxy function transmits these messages CallProc and Alerting to the calling endpoint A only once, however, in response to the first corresponding message received.

If, as is assumed in the embodiment, shown in Figure 1, of a sequence of events for implementing a pickup-group line group, a subscriber or an automated device at the endpoint B wants to take the call signalled by the endpoint A, a response message CONNECT (as per ITU-T H.225) is transmitted to the endpoint A from the endpoint B via the proxy function Proxy. A procedure for opening logical channels between the endpoints A and B is then initiated. In this case, the opening of logical channels can either be prepared by the actual SETUP message and concluded with the CONNECT message, or can be initiated by the CONNECT message.

The logical channels, that is to say the channels for transmitting useful information, are opened directly between the endpoints A and B, whereas the signalling connections have all been set up to the proxy function Proxy, and messages are forwarded from this proxy function Proxy to the actual destinations, endpoint A and endpoint B.

In the sequence of events shown in Figure 2 for implementing a hunting-group line group, the message H.225 SETUP is first forwarded to the endpoint B by the proxy function. The endpoint B acknowledges to the proxy function Proxy that dialling is complete with a message CallProc and that an incoming call has been recognized with a message Alerting. The proxy function transmits these messages CallProc and Alerting to the calling endpoint A.

If, as is assumed in the embodiment, shown in Figure 2, of a sequence of events for implementing a hunting-group line group, the call signalled by the endpoint A is not taken at the endpoint B within a 8 defined time period, the proxy function Proxy releases the signalling connection to the endpoint B with the message release.

Since the call offered at the endpoint B has not been accepted, the proxy function Proxy forwards the message H.225 SETUP to the endpoint C. The endpoint C acknowledges to the proxy function Proxy that dialling is complete with a message CallProc and that an incoming call has been recognized with a message Alerting. However, the proxy function does not now transmit these messages CallProc and Alerting to the calling endpoint A, as this has already been done previously on account of the corresponding messages from the endpoint B.

If, as is assumed in the embodiment, shown in Figure 2, of a sequence of events for implementing a hunting-group line group, a subscriber or an automated device at the endpoint C wants to take the call signalled by the endpoint A, a response message CONNECT (as per ITU-T H.225) is transmitted to the endpoint A from the endpoint C via the proxy function Proxy. A procedure for opening logical channels between the endpoints A and C is then initiated. In this case, the opening of logical channels can either be prepared by the actual SETUP message and concluded with the CONNECT message, or can be initiated by the CONNECT message.

The logical channels, that is to say the channels for transmitting useful information, are opened directly between the endpoints A and C, whereas the signalling connections have all been set up to the proxy function Proxy, and messages are forwarded from this proxy function Proxy to the actual destinations, endpoint A and endpoint C.

The implementations described for the line group facility are in this case independent of whether, as in the embodiments, a gatekeeper is used for routing, for example by means of address conversion.

Claims (6)

1. 2. The method as claimed in Claim i, characterized in that the proxy function (Proxy) signals to the calling endpoint that a connection setup message is being transmitted to the group endpoints C)
2. 3. The method as claimed in Claim 1 or 2, characterized in that the proxy function (Proxy) transmits a connection setup message (H.225 Setup) to all group endpoints C) simultaneously and transmits 10 to the calling endpoint the address of the group endpoint from which it receives the first response message.
3. 4. The method as claimed in Claim 1 or 2, characterized in that the proxy function (Proxy) transmits a connection setup message to one of the group endpoints C) and, if no response message has been transmitted to the proxy function (Proxy) from this group endpoint within a particular time period, transmits a connection setup message to another of the group endpoints C) until one of the group endpoints C) transmits a response message.
4. 5. The method as claimed in Claim 4, characterized in that the proxy function (Proxy) defines the sequence in which connection setup messages are to be transmitted to the individual group endpoints C) on the basis of a regulation for automatic call distribution.
5. 6. The method as claimed in Claim 4, characterized in that one of the group endpoints is a device for recording messages, and in that the proxy function (Proxy) transmits a connection setup message (H.225 Setup) to this group endpoint last. 11
6. 7. A method of implementing a line group function in a communication network based on ITU-T Standard H.323, said method substantially as herein described and with reference to Fig. 1 or Fig. 2 of the accompanying drawings. DATED this first Day of July, 2004 Siemens Aktiengesellschaft Patent Attorneys for the Applicant SPRUSON FERGUSON [R:\LIBL]462.doc:mxl