KR100364172B1 - Method of restricting simultaneous calls by memory in AIN system - Google Patents

Abstract

The present invention relates to a method for limiting simultaneous calls using memory synchronization in an N + 1 intelligent network system.

Such a method of the present invention includes an intelligent network system having a service control system (SCP) having an N + 1 structure, when detecting a call attempt, checking whether local memory is used by querying a local memory; Updating and registering a database in the local memory; Remotely registering data after accessing a memory of another service control system; Connecting a call after receiving a remote registration result from another service control system; Updating and deleting data in the local memory when a call disconnection is received; And remotely deleting the data after accessing the memory of the other service control system.

Therefore, according to the present invention, the processing capacity can be increased by limiting simultaneous calls using a memory, thereby reducing the cost of building an intelligent network system.

Description

Method of restricting simultaneous calls by memory in AIN system

The present invention relates to a method for limiting simultaneous calls using memory synchronization in an N + 1 intelligent network system.

In general, the intelligent network system is intended to provide a variety of new services and more convenient to subscribers and users, the service implementation and the implementation of the network can be independent of each other in the environment where many service providers and communication equipment manufacturers exist. To ensure that However, the services provided by the current network are controlled uniformly by the exchange. Therefore, in order to satisfy the various needs of telephone subscribers and network operators, each time a new service is provided, the operation of the exchanges of the network is required, thereby providing a new service. There is this difficult problem. In order to solve this problem, the International Standardization Organization (ITU-T) has steadily promoted the standardization of the intelligent network system and published standardization standards such as ITU Capability Set-1 (CS-1) and CS-2.

However, since the conventional intelligent network system has an active / stand-by structure, the simultaneous call restriction function according to the conventional scheme is difficult to apply to the N + 1 intelligent network system. In particular, in the conventional intelligent network system, as shown in FIG. 2 for simultaneous call restriction, each service control system (SCP) had to query and update the database (DB) at least 2N times the database (DB) update and 1 There is a problem that time and cost are consumed due to conference database query.

In order to solve the above problems, an object of the present invention is to provide a method for restricting a synchronous call using a memory in an N + 1 intelligent network system as well as satisfying an international standard.

1 is a diagram showing the configuration of an N + 1 intelligent network system to which the invention is applied,

2 is a flowchart illustrating a simultaneous call restriction procedure using a database synchronization function according to the related art;

3 is a flowchart illustrating a simultaneous call restriction procedure using memory synchronization according to the present invention.

* Explanation of symbols for main parts of the drawings

100a, 100b: service management system 102, 112: RDBMS

110-1 to 110-n: Service control system 104,114: Dual LAN

116a, 116b: front end processor 120: SS7 signal network

122: intelligent peripheral device 130: public telephone network

132: intelligent network switch 140: X.25 network

150: card inquiry system

In order to achieve the above object, the present invention, in the intelligent network system having a service control system (SCP) of the N + 1 structure, if the call attempt is detected by querying the local memory to check whether the use; Updating and registering a database in the local memory; Remotely registering data after accessing a memory of another service control system; Connecting a call after receiving a remote registration result from another service control system; Updating and deleting data in the local memory when a call disconnection is received; And remotely deleting the data after accessing the memory of the other service control system.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall configuration diagram showing an intelligent network system of the N + 1 structure to which the present invention is applied, the intelligent network system is a service management system (SMP: Service Management Point; 100a, 100b) in charge of subscriber / service management and system operation And a service control system (SCP: 110-1 to 110-n), which performs service logic and service processing, and performs signal processing in conjunction with the SS7 signal network 120 (PSTN: 130). It is possible to provide a variety of new services between the caller 134 and the called party 136 connected through. Here, the service management system (100a, 100b) and the service control system (110-1 ~ 110-n) includes a relational database (RDBMS; 102, 112), the service control system (110-1 ~ 110-n) Separate pretreatment systems (FEP: 116a, 116b) are included. In addition, each system installs and operates a subsystem in charge of the function to handle the assigned function. The services provided by the intelligent network system platform include virtual private network service (VPN) and advanced incoming billing service (AFS). , Personal number service (PN), number porting service (NP), card family service (calling card, prepaid card, credit card), and 3rd party billing service.

Referring to FIG. 1, a public telephone network (PSTN) 130 includes an intelligent network switch (SSP: 132), and is connected to an intelligent network system through an SS7 signal network 120, and an intelligent peripheral device (SS7) is connected to the SS7 signal network 120. IP) is connected. The card lookup system 150 is then connected to the Service Control System (SCP) via the X.25 network 140.

The service management system (SMP: 100a, 100b) is an operation management subsystem (OMS), a service management subsystem (SMS), and a service data management subsystem (SDPS). The service control system (SCP: 110-1 to 110-n) includes an operation maintenance subsystem (OMS), a service processing subsystem (SLES), and a service data management subsystem (SDPS). : Service Data Processing Subsystem (SPS) and Signaling Processing Subsytem (SPS).

A subscriber database, a system management database, and a call ticket database are constructed in the service management system (SMP: 100a, 100b), and a subscriber database is constructed in the service control system (SCP: 110a, 110b).

In addition, although not shown in the drawing, the system management terminal and the service management terminal are connected to the dual LAN bus 104 of the service management system (SMP) to display various information related to system operation and service operation information through a graphical user interface (GUI). This GUI allows the operator to perform operational control and service management. The subscriber management terminal connected to the dual LAN bus 114 of the service control system (SCP) performs functions related to subscriber information such as new generation, deletion, and change of subscriber information of the subscriber. Can be done.

And the service management system (SMP: 100a, 100b) of the intelligent network system is dualized in primary / secondary structure, and the service control system (SCP: 110-1 ~ 110-n) is N + 1 structure. It is redundant. Primary / Secondary Structure of Service Management System (SMP) In case of failure of Primary SMP, it performs the function of Primary SMP and performs batch and statistics processing. The N + 1 structure of the service control system (SCP) prepares additional equipment to prepare for failures in the future. In the event of a failure of one equipment, the spare equipment replaces the work of the failed equipment to ensure the performance of the entire system. It is. At this time, the backup system provides a function of load sharing in a steady state.

As described above, the intelligent network system to which the present invention is applied is a load sharing method having an N + 1 structure, and the service control system (SCP) is a post-processing system (110-1 to 110-n) and a preprocessing system (FEP: 116a). , 116b). The preprocessing systems 116a and 116b handle functions of interfacing with the signal network such as the SS # 7 protocol stack and the intelligent network application protocol (INAP). And SMP (100a, 100b) managing the SCP (110-1 ~ 110-n) of the N + 1 structure manages the shape of the entire intelligent network service system, and the service information installed for each SCP and the load balance value for each SCP Deliver to pretreatment system. This load balance value is determined by considering the status, system status, and system performance of services installed for each SCP in SMP (100a, 100b).

3 is a flowchart illustrating a method of limiting simultaneous calls using a memory in accordance with the present invention. Referring to Figure 3, the system according to the present invention is composed of N service control systems (SCP) ranging from SCP1, SCP2, ..., SCP N, each service control system (SCP) has a memory for synchronization Doing. In Fig. 3, SCP1 is a local system, and other SCP2 to SCP N are remote systems. When the call attempt is received from the local system, the local memory is first queried to check whether the user is present (S1, S2). Subsequently, data in the local memory is updated for registration, and data in the memory of the second SCP is updated for remote registration (S3). In the same manner, the remote registration is performed by updating the memory data of the third to Nth SCPs (S4).

Subsequently, the result of the remote registration is received from the remote system to connect the call to make a call (S5, S6). As such, if the same subscriber tries another call while the call is connected, it fails. When the release is received, the remote memory is accessed to update and delete data, and all remote memories are accessed to update data to perform remote deletion (S7 and S8).

As described above, according to the present invention, the cost of database operation can be reduced by synchronizing using the memory of each service control system SCP without accessing the database DB for simultaneous call restriction.

As described above, according to the present invention, the processing capacity can be increased by limiting simultaneous calls using a memory, thereby reducing the cost of building an intelligent network system.

Claims (1)

In an intelligent network system having a service control system (SCP) of N + 1 structure, Querying local memory to determine whether to use the call attempt; Updating and registering a database in the local memory; Remotely registering data after accessing a memory of another service control system; Connecting a call after receiving a remote registration result from another service control system; Updating and deleting data in the local memory when a call disconnection is received; And And remote access by updating data after accessing the memory of another service control system.