Intelligent network service provisioning system
First Claim
1. A service provisioning system (SDS) for a telecommunication network (T_NET), comprising:
- at least one global service control node (GSCP1, GSCP2) for executing service control functions; and
one or more switching nodes (SSP1 to SSP3) each provided with a first control unit (CONTR1) which is designed to execute service switching functions which are caused by connection requests from subscribers (A) of the telecommunication network (T_NET) to send service request messages to service control functions which each control the provision of a telecommunication service for the respective subscriber;
wherein the global service control nodes (GSCP1, GSCP2) are connected to the switching nodes (SSP1 to SSP3) via a long-range communications network (S_NET), wherein the service provisioning system (SDS) further comprises;
one or more local service control nodes (LSCP1 to LSCP4) for executing service control functions, wherein each of the local service control nodes (LSCP1 to LSCP4) being associated with a respective ones of the switching nodes (SSP1 to SSP3) and being connected to the associated switching node (SSP1 to SSP3) via a respective local communication mechanism (L_NET1 to L_NET3);
wherein the service control function (SCF1 to SCF5) associated with a service switching function (SSF1 to SSF5) is installed globally in one of the global service control nodes (GSCP1) or locally in one of the local service control nodes (LSCP1) depending on the respective telecommunications service being controlled by the service control function (SCF1 to SCF5); and
wherein each of the switching nodes (SSP1 to SSP3) further comprises;
a second control unit (CONTR2) which is designed to determine for each service request message whether the associated service control function is installed locally or globally, and routes the service request message;
through the long-range communications network (S_NET) to a global service control node (GSCP1) if the associated service control function (SCF1, SCF2) is installed globally, and via the local communication mechanism (L_NET1) to a local service control node (LSCP1) associated with the respective switching node (SSP1) if the associated service control function (SCF3 to SCF5) is installed locally.
1 Assignment
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Accused Products
Abstract
A procedure for providing a telecommunication service. The service provisioning system (SDS) is equipped with a global service control point (GSCP1, GSCP2) and several service switching points (SSP1 to SSP3). Subscribers (A) of the telecommunication network (T_NET) send service request messages to service control functions, which control the implementation of the respective telecommunication service. The service provisioning system is also equipped with one or several local service control points (LSCP1 to LSCP4), whereby each of them is assigned to one of the service switching points (SSP1 to SSP3) and is connected via a local communication mechanism (L_NET1 to L_NET3). Depending on the telecommunication service being controlled, the service control function is installed globally or locally. The service switching point (SSP1 to SSP3) establishes whether the assigned service control function is currently installed locally or globally, and transfers the service request message accordingly.
15 Citations
11 Claims
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1. A service provisioning system (SDS) for a telecommunication network (T_NET), comprising:
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at least one global service control node (GSCP1, GSCP2) for executing service control functions; and
one or more switching nodes (SSP1 to SSP3) each provided with a first control unit (CONTR1) which is designed to execute service switching functions which are caused by connection requests from subscribers (A) of the telecommunication network (T_NET) to send service request messages to service control functions which each control the provision of a telecommunication service for the respective subscriber;
wherein the global service control nodes (GSCP1, GSCP2) are connected to the switching nodes (SSP1 to SSP3) via a long-range communications network (S_NET), wherein the service provisioning system (SDS) further comprises;
one or more local service control nodes (LSCP1 to LSCP4) for executing service control functions, wherein each of the local service control nodes (LSCP1 to LSCP4) being associated with a respective ones of the switching nodes (SSP1 to SSP3) and being connected to the associated switching node (SSP1 to SSP3) via a respective local communication mechanism (L_NET1 to L_NET3);
wherein the service control function (SCF1 to SCF5) associated with a service switching function (SSF1 to SSF5) is installed globally in one of the global service control nodes (GSCP1) or locally in one of the local service control nodes (LSCP1) depending on the respective telecommunications service being controlled by the service control function (SCF1 to SCF5); and
wherein each of the switching nodes (SSP1 to SSP3) further comprises;
a second control unit (CONTR2) which is designed to determine for each service request message whether the associated service control function is installed locally or globally, and routes the service request message;
through the long-range communications network (S_NET) to a global service control node (GSCP1) if the associated service control function (SCF1, SCF2) is installed globally, and via the local communication mechanism (L_NET1) to a local service control node (LSCP1) associated with the respective switching node (SSP1) if the associated service control function (SCF3 to SCF5) is installed locally. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
a third control unit (CONTR3) which is designed to control the global or local installation service control functions for service switching functions.
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6. A service provisioning system (SDS) as claimed in claim 5, wherein the third control unit (CONTR3) is further designed to dynamically determine a global or local installation of service control functions based on parameters of the telecommunications network (T_NET).
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7. A service provisioning system (SDS) as claimed in claim 1, wherein the local communication mechanism is an interprocess communication mechanism.
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8. A service provisioning system (SDS) as claimed in claim 1, wherein the local communication mechanism (L_NET1 to L_NET3) is a connection through a LAN.
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9. A service provisioning system (SDS) as claimed in claim 1, wherein the first control unit (CONTR1) and the local and global service control nodes (GSCP1 to GSCP2, LSCP1 to LSCP4) are so designed that the service switching functions interact with the locally installed service control functions and the globally installed service functions through INAP messages in the same manner and require no knowledge of the local or global installation of service control functions.
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10. A switching node (SSP1) for a telecommunication network (T_NET), comprising:
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a first communication unit (KOM1) for communication with at least one global service control node (GSCP1) over a long-range communications network (S_NET); and
a first control unit (CONTR1) for executing service switching functions (SSF1 to SSF5) which are caused by connection request from subscribers (A) of the telecommunications network (T_NET) to send request service request messages to service control functions, wherein each control the execution of a telecommunications service for the respective subscriber, wherein the switching node (SSP1) further comprises;
a second communication unit (KOM2) for communication with at least one local service control node (SSP1) via a local communication mechanism (L_NET1), and a second control unit (CONTR2) which is designed to determine for each of the service request messages whether the associated service control function is installed locally or globally;
wherein the service control function (SCF1 to SCF5) associated with a service switching function (SSF1 to SSF5) being installed locally or globally depending on the respective telecommunications service being controlled by the service control function (SCF1 to SCF5);
wherein the second control unit (CONTR2) is further designed to route the service request message;
by means of the first communication unit (KOM1) through the long-range communications network (S_NET) to a global service control node (GSCP1) if the associated service control function (SCF1, SCF2) is installed globally, and by means of the second communication unit (KOM2) via the local communication mechanism (L_NET1) to a local service control node (LSCP1) associated with the switching node if the associated service control function (SCF3 to SCF5) is installed locally.
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11. A method for providing telecommunication services to subscribers (A) of a communications network (T_NET), comprising:
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sending a service request message to a service control function in response to a connection request from a subscriber (A), whereupon the service control function controls the provision of the telecommunication service, determining for each service request message from the respective telecommunication service requested by the service request message whether the service control function to be assigned to the service request message is installed globally or locally, sending the service request message over a long-range communications network (S_NET) to a global service control node (GSCP1), and communicating with the global service control node (GSCP1) via the long range communications network (S_NET) if the service control function (SCF1, SCF2) to be assigned is installed globally, and sending the service request message via a local communication mechanism (L_NET1) to a local service control node (LSCP1) associated with the switching node (SSP1) and communicating with the local service control node (LSCP1) via the local communication mechanism (L_NET1 to L_NET3) if the service control function (SCF3 to SCF5) to be assigned is installed locally.
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Specification