SE511796C2 - Integrated IP and IN network and method for managing IP services using the intelligent network via a service switching node - Google Patents

Abstract

Intelligent networks have been developed with the primary object of facilitating the provision of complex telecommunications services. In contrast to this, networks based on TCP/IP are intended to handle substantial quantities of data and are, therefore, ideal for broadband communications. Thus, there is much to be gained from a telecommunications system and network which can effectively integrate an IN with an IP network. An integrated IP and IN network can use the IN network to handle service management and customer data for services provided over the IP network. This enables the IN development environment to be used in other environments. Thus, the service environment can be the same for a given service, regardless of where it is realised. The present invention provides a telecommunications network which includes an IP network and an intelligent network. Services provided on the IP network are controlled by the intelligent network via an IP-Service Switching Point.

Description

An object of the present invention is to provide such an integration.

An integrated IP and IN network can use the IN network to manage service management and customer data for services provided over the IP network. This enables the use of the IN development environment in other environments. Thus, the service environment can be the same for a given service, regardless of where it is realized.

According to a first aspect of the present invention, there is provided a telecommunication network including an IP network and an intelligent network, characterized in that control of services on said IP network is provided by the intelligent network via an IP-based service connection node (IP-Service Switching Point).

Preferably, a traffic feed is routed between a first and second point in said IP network continuously via said IP-based service connection node.

The IP-based service connection node can be adapted to detect triggers in said traffic flow which indicate that a packet contains a service command.

Said IP-based service switching node may include means for extracting service commands from said traffic feed when detecting a trigger, and creating corresponding service messages and forwarding them to said intelligent network.

Said intelligent network may include a service control point adapted to receive service messages from said IP-based service connection node, execute commands contained therein and return control commands to said IP-based service connection node for controlling said IP-based service connection point. web.

Said commands may refer to tariffs, pricing of calls, customer data, or data for call connection.

Said commands can be generated using a telephone keypad.

The IP-based service switching node can be adapted to operate (operate) as a transparent routing switch.

The IP-based service connection node can be adapted to have the same function as a service connection node in an intelligent network.

Said telecommunication network can be adapted to provide an IP telephony service (IP-phone service).

According to a second aspect of the present invention, there is provided a method of operating an intelligent network, as described above.

The IP-based service switching node can detect triggers in said traffic flow indicating that a packet contains a service command.

Said IP-based service connection node can extract service commands from said traffic flow, create corresponding service messages and forward said service messages to said intelligent network.

Said service messages can be forwarded to a service control node located in said intelligent network, where said service control node can execute commands contained in said service messages and return control commands to said IP service connection node, for controlling said IP network.

According to a third aspect of the present invention, there is provided a telecommunication system characterized in that it includes a telecommunication network as described above.

According to a fourth aspect of the present invention, there is provided an IP service switching node characterized in that it is adapted to operate with a telecommunication network as described above.

Embodiments of the invention will now be described, by way of example, with reference to the accompanying figures, in which: Figure 1 illustrates the function of an Internet Protocol Service Switching Point according to the present invention, as a transparent switch.

Figure 2 illustrates the use of an Internet Protocol-based service switching node according to the present invention, for transmitting service commands between an IP network and an intelligent Network Service Control Point.

To contribute to the understanding of the present patent specification, a glossary of the terms used in the specifications is presented below: HP SCP: Hewlett Packard OpenCall SCP 20 25 30 35 s 511 796 IN: Intelligent Network IP: Internet Protocol SCP : Service Control Point (SDP): Service Data Point (SSP) SSP: Service Switching Point (TCP) TCP: Transport Control Protocol1 Interaction between an IN and an IP network can be achieved by using an “Internet Protocol SSP ", or IP SSP. An IP SSP provides the following functions: (1) transparent switching through which IP service traffic passes all the time; (2) functions corresponding to an SSP in a regular telephone network, ie it has full SSP functionality; (3) transfer of service commands between an IP network and an IN architecture.

An IP-based service, for example IP telephony (IP-phone), can thus, by virtue of integration with an IP-SSP, gain access to all the benefits of the IN environment for data management. Thus, calls from an IP telephone 511 796 6 15 20 25 30 35 can be routed through an IP SSP. This can generate triggers and can communicate with the IN architecture.

Function (1) above is schematically illustrated in Figure 1, in which it can be seen that service traffic, all the time, goes through the Internet protocol SSP. Thus, if an IP telephone at A is in communication with B, traffic passes from A to B via the Internet protocol SSP, all the time. It can be noted that the traffic is in TCP / IP format, and that the Internet protocol SSP is controlled by an SCP in IN.

The IP-SSP acts as a transparent wave selection IP switch and all traffic passes through this switch.

IP-SSP n monitors traffic and identifies packets that contain service commands. The IP-SSP, when it detects a service command in an appropriate service message sent to the IN-IP-SSP, creates an SCP, such as an HP SCP with TCP / IP or an SDP with stored service logic, packets, architecture. in the IN direction, connected to, for example, communication, or some other element. After the service messages have been executed via IN, the IP-SSP controls new call set-ups, connection paths, etc. - ie the IP-SSP has a function identical to an SSP.

The functionality required for transmitting service commands to set up a new connection path is schematically illustrated in Figure 2.

User-generated packages intended for service control are generated at A using keypads, or the like.

The SSP Internet Protocol monitors the traffic passing through it and identifies triggers for service commands sent from A. These service commands are transmitted to IN for execution. The service commands are received by, for example, 7 511 796 an SCP in IN, which causes the IN to execute the commands originating in the Internet Protocol SSP. These commands can refer to such things as adjusting price levels and pricing, or changes in customer data, or the production of new data required for connecting a new call. The new commands generated by IN are returned to the IP network via the SSP Internet Protocol. New destinations and additional set-ups are handled by IP-SSP.

Claims (15)

511 796 9 N ß 30 E CLAIMS including an IP network and and including means for A telecommunication network, an intelligent network, communication between the IP network and the intelligent network, characterized in that control of services in said IP network is provided by the intelligent network via an IP-based service connection node, that said telecommunication network is adapted to provide an IP telephony service. A telecommunication network according to claim 1, characterized in that a traffic flow between a first and second point in said IP network is continuously routed via said IP-based service connection node. A telecommunication network according to claim 2, characterized in that said IP-based service connection node is adapted to detect triggers in said traffic flow indicating that a packet contains a service command. A telecommunication network according to claim 3, characterized in that said IP-based service connection node includes means for extracting service commands from said traffic flow upon detection of a trigger, and for creating corresponding service messages and forwarding them to said intelligent network. A telecommunication network according to claim 4, characterized in that said intelligent network includes a service control node adapted to receive service messages from said IP-based service connection node, execute commands contained therein and return control commands to said IP-based service connection node for controlling said IP-based service connection node. -web. 10 IS 20 25 30 35 9 511 796 A telecommunication network according to claim 5, characterized in that said commands relate to tariffs, pricing of calls, customer data, or data for connecting a connection. A telecommunication system according to either claim 5, or claim 6, characterized in that said commands are generated by means of a telephone keypad. A telecommunication network according to any one of claims 5 to 7, characterized in that said IP-based service switching node is adapted to operate as a transparent routing switch. A telecommunication network according to any one of the preceding claims, characterized in that said IP-based service connection node is adapted to have the same functionality as an intelligent network service-based connection node. A method of operating an intelligent network, according to claim 1, characterized by traffic is continuously routed from a first network point to a second network point, in said IP network, via said IP-based service connection node, that it is adapted to provide a IP telephone service. 11. ll. A method according to claim 10, characterized in that said IP-based service connection node detects triggers in said traffic flow which indicate that a packet contains a service command. A method according to claim 11, characterized in that said IP-based service connection node extracts 511 796 w 20 25 30 service commands from said traffic flow and creates corresponding service messages, and forwards said service messages to said intelligent network. A method according to claim 12, service control node located in said intelligent network, wherein said service control node executes the commands contained in said service messages, and returns control commands to said IP-based service connection node, for controlling said IP network. 14. characterized in that it includes an IP telecommunication network and a telecommunication system, intelligent network, that control of services on said IP network is provided by the intelligent network via an IP-based service connection node, that a traffic flow between a first and second point in the IP network is continuously routed via the IP-based service connection node, which is adapted to detect triggers in said traffic flow indicating that a packet contains a service command, said IP-based service connection node including a device for extracting service commands from said traffic flow at of a trigger, and to create corresponding service messages and forward them to the intelligent network, which includes a service control node adapted to receive service messages from the IP-based service connection node, to execute commands contained therein and return control commands to said IP-based service connection node for controlling said IP network, and the commands relate to tariffs, pricing of customer data, connection. according to any one of claims 1 to 10, calls, or data for connection of An IP-based service connection node, characterized in that it is adapted to work with a telecommunication network according to any one of claims 1 to 9.