KR19980036218A - Intelligent Network Service Processing Method in Next-Generation Intelligent Network Service Exchange Using Object-Oriented Model - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

An Intelligent Network Service Processing Method in Next Generation Intelligent Network Service Switch using Object-Oriented Model.

2. The technical problem to be solved by the invention

By using the object-oriented model, we aim to provide intelligent network services by providing excellent scalability, maintenance, and software reuse for efficient development and maintenance of next-generation intelligent network service exchanges.

3. Summary of Solution to Invention

Basic call handling object, Basic call managing object, Originating basic call handling object, Calling party basic call handling object, Connection object, Call segment object, Leg object, Control leg object, Manual leg object, Intelligent network service exchange managed object, Resource control The software structure is designed with objects, detection point management objects, billing objects, database management objects, billing information database management objects, and call information database management objects to provide intelligent network services accordingly.

4. Important uses of the invention

Used for next generation intelligent network service exchange.

Description

Intelligent Network Service Processing Method in Next-Generation Intelligent Network Service Exchange Using Object-Oriented Model

The present invention relates to a method for processing an intelligent network service in a next-generation intelligent network service exchange using an object-oriented model. In particular, the present invention relates to an intelligent network service in a next-generation intelligent network service exchange using an object-oriented technique for easy maintenance and rapid introduction of new services. It relates to a treatment method.

Next-generation intelligent network is a function-centralized distributed structure consisting of several network elements such as next-generation intelligent network service exchanger, service controller, and intelligent information providing system. Has characteristics.

Next-generation intelligent network service exchanger in intelligent network provides network access function to service user and serves as gateway of intelligent network. The next-generation intelligent network service exchanger aims to quickly introduce services according to various service demands of service users and new service concepts. However, the conventional next-generation intelligent network service exchanger requires a lot of modifications to the software structure of the exchange when the new service is introduced, and a lot of costs are added thereto, and thus there are many problems in the rapid introduction of the service.

The present invention devised to solve the problems of the prior art as described above is a software architecture using an object-oriented design method for excellent scalability, maintenance, and reuse of software for efficient development and maintenance of next-generation intelligent network service switch. The purpose of the present invention is to provide an intelligent network service processing method in the next generation intelligent network service exchange using an object-oriented model that can provide various services to service users quickly.

1 is a schematic structural diagram of a next generation intelligent network to which the present invention is applied;

2 is a structural diagram of a call control function entity according to the present invention;

3 is a structural diagram of a service exchange function entity according to the present invention;

4 is a structural diagram of a service control function entity and a special resource function entity according to the present invention;

5A to 5F are flowcharts of an intelligent network service processing in a next-generation intelligent network service switch using an object-oriented model according to the present invention.

In order to achieve the above object, the present invention provides an intelligent network service processing method applied to a next-generation intelligent network service switch, when receiving a call request, the basic call management object generates a basic call processing object by the number of received call requests. ; The basic call processing object creates a calling party basic call processing object, and after checking the status of the network, the calling party basic call processing object collects user input information and transmits it to the detection point manager object; A third step of recognizing that the sensing point manager object is an intelligent network and transmitting related information to the intelligent network service exchange management object; The intelligent network service exchange management object instructs the assignment of the hose segment object, allocates the segment objects, and receives the control of the service control function object, requests the special resource function entity object to perform a resource and connection operation, and then announces the user information. Collecting a fourth step; The intelligent network service exchange management object controls the special resource function entity object under the control of the service control function object, releases the announcement and releases the resource, provides the charging information to the charging object, and requests a connection to the detection point manager object. A fifth step; The endpoint manager object requests the calling party's connection to the calling party's primary call processing object, and the calling party's primary call processing object creates the called party's primary call processing object by requesting the calling party's primary call management object to create the called party's primary call processing object. A sixth step; The called party basic call processing object sends a signal to the called party, and transmits it to the detection point manager object to connect the call; An eighth step, when the call is terminated, the detection point manager object requests the intelligent network service exchange management object to return the call segment, notifies the end of the calling party basic call processing object, and sends the result to the called party basic call processing object; And the intelligent network service exchange management object request the charging information storage to the charging object under the control of the service control function object, and the charging object sends the charging information storage message to the charging information database object, and then charges to the intelligent network service exchange managing object. And a ninth step of sending a report message.

The present invention applies object-oriented design methodology to develop next-generation intelligent network service exchange with excellent scalability, maintenance, and reusability. Basic call processing object, basic call management object, originating call processing object, called party's basic call processing Object, connection point object, call segment object, leg object, control leg object, manual leg object, intelligent network service exchange management object, resource control object, detection point management object, charging object, database management object, charging information database management object, Software structure is designed by call information database management object to provide intelligent network service accordingly.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention;

1 is a schematic structural diagram of a next-generation intelligent network to which the present invention is applied.

Next-generation intelligent network components are largely composed of next-generation intelligent network service exchanger (1-1), service controller (1-2), intelligent information providing system (1-3). 1-1) detects this and requests intelligent network service processing from the service controller 1-2.

The service controller 1-2 executes an appropriate intelligent network service logic program to provide a service processing method, and uses special resources of the intelligent information providing system 1-3 to interact with the service user.

The International Telecommunication Union-Telecommunications Standardization Sector (ITU-T) recommends standardized functional entities for implementing next-generation intelligent network elements. As shown in FIG. 1, the next-generation intelligent network service exchanger 1-1 It is composed of a call control function entity (1-4) and a service switching function entity (1-5). The call control function entity 1-4 uses a basic call state model (BCSM) to maintain the function for call connection in the exchange. The service switching function entity 1-5 is a service switching function connected to the call control function entity 1-4 and is a service control function entity that is a component of the call control function entity 1-4 and the service controller 1-2. (1-6) support the interaction between, in detail, the detection point (DP) processing function, intelligent network call processing function, call segment management function, a special component that is a component of the intelligent information providing system (1-3) Interface function with the resource function entity 1-7, and the billing processing function.

In the present invention, the architecture of the software of the next-generation intelligent network service exchange is designed using an object-oriented design methodology. As illustrated in FIG. 1, the next-generation intelligent network service exchange (1-1) is divided into two parts based on functional entities. . That is, FIG. 2 illustrates the structure of the call control function entity, and FIG. 3 illustrates the structure of the service switching function entity. In addition, in FIG. 4, the service controller 1-2 and the intelligent information providing system 1-3 required for operating the next-generation intelligent network service exchanger 1-1 shown in FIGS. 2 and 3 as in the actual network. The following describes the service user objects.

2 shows a structural diagram of a call control functional entity implemented using the object-oriented design methodology according to the present invention.

The call control function entity object model includes a basic call management object (2-1), a basic call processing object (2-2), a calling party basic call processing object (2-3), and a called party basic call processing object (2-4). It consists of four objects.

The call control function entity model of the present invention applies the concept of a separate call that separates a calling party and a called party, and configures common characteristics of the calling party and the called party as a basic call processing object (2-2). By inheriting the properties of this object, the calling party's basic call processing object (2-3) and the called party's basic call processing object (2-4) make use of the object's inheritance that defines only its own characteristics. . Accordingly, the basic call processing object 2-2 has common characteristics such as the basic call state model unique number (BCSM_ID) of the calling party basic call processing object 2-3 and the called party basic call processing object 2-4. Will hold.

The line between the basic call management object 2-1 and the basic call processing object 2-2 indicates an association between the two. The point on the basic call processing object 2-2 means that one basic call management object 2-1 can control one or more basic call processing objects 2-2. Each time a new call is made, the primary call management object (2-1) creates one primary call handling object (2-2) to store the relevant data in its basic call state model table (BCSM_Table), and each basic call handling object. Control is performed with the address of (2-2). The generated basic call processing object (2-2) has a basic call state model unique number (BCSM_ID) that can uniquely distinguish one basic call processing object, and stores the service number to be used in the service number (Service_Number). The telephone number of the called party is stored in the called party number (Callee_Number), and the calling party number is stored in the calling party number (Caller_Number). When the basic call processing object (2-2) is created, Do_BCSM is executed to detect DPs (DP: Detection Point), which are attributes of the originating basic call processing object (2-3) and the destination basic call processing object (2-4). And Point In Calls (PICs), which are operations. All attributes and operations of the primary call processing object (2-2), which is the parent object, are inherited by the calling party basic call processing object (2-3) and the called party's basic call processing object (2-4). do.

3 shows a structural diagram of a service switching function entity according to the present invention.

The calling party basic call processing object (2-3) performs the detection point and the call processing point (PIC), and then under the control of the service switching function entity (1-5), the called party basic call processing object (2-4). The call is initiated in connection with. When the basic call processing object 2-2 recognizes the detection point, it transmits the detection point information generated to the detection point manager object 3-1 to process the detection point (A). In this case, since several basic call processing objects 2-2 can transmit the detection point information to the detection point manager object 3-1, the basic call processing object 2-2 and the detection point manager object 3-1 are separated. The relationship is 1: n (n is an integer greater than 1).

The detection point manager object 3-1 compares the information on the sent detection point with the information of the detection point table DP_Table and transmits the information to the intelligent network service exchange management object 3-2 in the case of the intelligent network call. The intelligent network service exchange management object 3-2 allocates a call segment object 3-3 for constructing a call that has been subscribed through a call segment creation (Call_Segment_Create) operation. Since several call segment objects 3-3 are required to form a call, the relationship between the intelligent network service exchange management object 3-2 and the call segment 3-3 object is 1: n. The call segment object 3-3 is composed of several connection point objects 3-4 and leg objects 3-5. The leg object 3-5 also includes a control leg object 3-6 and a manual leg object 3-7. The control leg object 3-6 is connected to the calling party basic call processing object 2-3 and the called party basic call processing object 2-4 (B). When the announcement broadcast is required, the announcement broadcast is transmitted by connecting the calling party basic call processing object 2-3 and the bearer channel object 4-2 described in FIG. 4 (F).

All intelligent network services are processed by the control of the service control function object 4-1 to be described in FIG. 4 via the intelligent network service exchange management object 3-2 by the processing of the detection point manager object 3-1 ( D). The resource control object 3-9 processes the connection of the bearer channel object 4-2 for announcement by using a bearer channel connection (Connect_Bearer_Channel) operation, and in FIG. 4 through a special resource function connection (Connect_SRF) operation. It handles the connection with the special resource function entity object 4-3 to be described (E).

The billing object 3-8 performs billing-related processing. In this case, since the billing-related information needs to be stored, the billing object 3-8 is associated with a database management object 3-12 that manages data necessary for intelligent network service control. Will have The database management object 3-12 is classified into the charging information database object 3-13 and the call information database object 3-14. The billing information database object 3-13 has a function of storing and processing information on billing information, and the call information database object 3-14 has an object having a function of storing and managing information related to a call. to be.

4 is a structural diagram of a service control function and a service resource function according to the present invention.

The customer object 4-1 is a model of the actions of the caller and the called party. The customer object 4-1 is associated with the basic call management object 2-1 to generate call origination and incoming call operations (C). The service control function object 4-2 is a model of the function of the service control function entity 1-6, which is a component of the service controller 1-2 shown in FIG. It analyzes the message delivered through 2) and performs the necessary function (D). The bearer channel object 4-3 is connected to the control leg object 3-6 to transmit information such as announcement broadcast (F). The special resource function entity object 4-4 is connected to the resource control object 3-9 in FIG. 3 and is a special resource function entity 1-1 which is a component of the intelligent information providing system 1-3 shown in FIG. 1. Perform the function of 7) (E).

5A to 5F illustrate an intelligent network service processing flowchart in a next generation intelligent network service switch using an object-oriented model according to the present invention.

When the customer object (caller, 4-5) attempts to call (5-2), the basic call management object 2-1 detects this (5-3) and is a child object of the basic call processing object 2-2. An originating party basic call processing object 2-3 is created (5-3).

When the calling party's basic call handling object is created, Do_BCSM is executed (5-4). The calling party's basic call processing object checks through the point in call (PIC) 1 whether there is anything wrong with the network (5-5). When call processing point 1 returns true as a result value, detection point 1 is generated and transmitted to detection point manager object 3-1 (5-6).

The discovery point management object 3-1 knows that there is no necessary process by referring to the discovery point table DP_Table, and transmits a message to the originating base call processing object 2-3 to process the next call processing point ( 5-7).

The originating base call processing object 2-3 receiving the message executes call processing point 2 for collecting user input information (5-8). After the input of the user, the sensing point 2 is generated in the calling party basic call processing object 2-3, and the generated sensing point 2 is transmitted to the sensing point manager object 3-1 (5-9).

The discovery point manager object 3-1, which has received the discovery point 2, refers to the discovery point table DP_Table and knows that there is no necessary processing, and sends a message to process the next call processing point. (5-10).

The calling party's basic call processing object (2-3) receiving the message executes call processing point 3 (5-11) by analyzing the input information to analyze whether the call is an international call, a domestic call, or an intelligent network call. Based on the result of the call processing point 3, the detection point 3 is created and transmitted to the detection point manager object 3-1 (5-12).

The sensing point manager object 3-1 having received the sensing point 3 recognizes the intelligent network by referring to the sensing point table DP_Table and transmits the related information to the intelligent network service exchange management object 3-2 (5-13). .

The intelligent network service exchange management object 3-2 sends a message to allocate the segment object 3-3 (5-14). The hose segment object 3-3 assigns the hose segment objects 3-3 to make a call (5-15). The intelligent network service exchange management object 3-2 configures an initial detection point Initial_DP and transmits the initial detection point Initial_DP to the service control function object 4-1 (5-16).

The service control function object 4-1 transmits a message to the intelligent network service exchange management object 3-2 to perform a ConnectToResource operation (5-17). The intelligent network service exchange management object 3-2 transmits a message to the special resource function entity object 4-3 to perform a ConnectToResource operation (5-18).

The special resource function entity object 4-3 performs a ConnectToBearer operation with the bearer channel, and transmits a control leg and a ConnectToControlLeg message to the bearer channel object 4-2 (5-19). The special resource function entity object 4-3 performs a PlayAnnouncement operation (5-20).

The sender inputs an account number (AccountNumber) and a password (Passwd) to the special resource function entity object 4-3 through the bearer channel object 4-2 (5-21). Special resource functional entity object (4-3) transmits the account number and password to the intelligent network service exchange management object (3-2) (5-22). The intelligent network service exchange management object 3-2 transmits the account number and the password to the service control function object 4-1 (5-23). The service control function entity object 4-2 transmits a resource and disconnection (DisconnectToResource) message to the intelligent network service exchange management object 3-2 (5-24). The intelligent network service exchange management object 3-2 transmits a resource and disconnection (DisconnectToResource) message to the special resource functional entity object 4-3. (5-25).

The special resource function entity object 4-3 transmits a DisconnectTo ControlLeg message to the bearer channel object 4-2 (5-26). The special resource function entity object 4-3 performs a disconnectToResource operation with the resource (5-27).

The service control function object 4-2 transmits a ChargingChargingInformation message to the intelligent network service exchange management object 3-2 (5-29).

The intelligent network service exchange management object 3-2 transmits a ChargingChargingInformation message to the charging object 3-8 (5-30). The service control function object 4-1 transmits an ApplyChargin message to the intelligent network service exchange management object 3-2. The intelligent network service exchange management object 3-2 transmits an ApplyCharging message to the charging object (5-31). The service control function object 4-1 transmits a connect message to the intelligent network service exchange management object 3-2 (5-32).

The intelligent network service exchange management object 3-2 connects to the discovery point manager object 3-1. Send a message (5-33). The discovery point manager object 3-1 transmits the result of processing the discovery point 3 to the originating base call processing object 2-3.

The calling party basic call processing object (2-3) instructs the basic call management object (2-1) to perform a called party basic call processing object creation (Make_T_BCSM) operation to create the called party basic call processing object (2-4). Send a message (5-35).

The basic call management object 2-1 sends a message to the created called party basic call processing object 2-4 to execute Do_T_BCSM (5-36). The detection point 12 generated at the called party basic call processing object 2-4 is transmitted to the detection point manager object 3-1 (5-37).

The detection point manager object 3-1 recognizes that there is nothing to process with respect to the detection point 12, and transmits to the destination basic call processing object 2-4 to perform the following processing (5-38).

The called party's basic call processing object (2-4) connects the called party and the calling party by executing call processing point 8 and rings (5-39). The called party basic call processing object 2-4 generates detection point 15 when the receiver picks up the receiver (5-40).

The called party basic call processing object 2-4 transmits a discovery point 15 to the discovery point manager object 3-1 (5-41). Since there is nothing to process for the detection point, it transmits to the called party's basic call processing object 2-4 to perform the next process (5-42).

The called party's basic call processing object 2-4 performs call processing point 10 to make a call (5-43). When the call ends, a detection point 17 is generated, and the generated detection point is transmitted to the detection point manager object 3-1 (5-44).

The discovery point manager object 3-1 transmits a release segment return message to the intelligent network service exchange management object 3-2 (5-45). The intelligent network service exchange management object 3-2 transmits a release message to the hose segment object 3-3 (5-46).

The detection point manager object 3-1 transmits a message indicating that the called party basic call processing object 2-4 is finished to the calling party basic call processing object 2-3 (5-47). The discovery point manager object 3-1 transmits the result to the called party's basic call processing object 2-4 (5-48).

The called party's basic call processing object 2-4 sends a message to the basic call management object 2-1 that it is returned (5-49). When the calling party is disconnected, a detection point 9 occurs, and the detection point 9 is transmitted to the detection point manager object 3-1 (5-50).

Since the detection point manager object 3-1 has nothing to process with respect to the detection point 9, it transmits a message to the calling party's basic call processing object 2-3 to perform the next processing (5-51). In operation 552, a charge information store (SaveChargeInfo) message is transmitted from the service control function object 4-1 to the intelligent network service exchange management function object 3-2.

A charge information save (SaveChargeInfo) message is transmitted from the intelligent network service exchange management object 3-2 to the charging object 3-8 (5-53). The Charging Information (3-8) transmits a SaveChargeInfo message to the Charging Information Database Object (Charge_Info_DB) 3-13 (5-54).

The charging object (3-8) transmits the Charging Report (ApplyChargeReport) message to the intelligent network service exchange management object (3-2) (5-55), and the service control function object (3) in the intelligent network service exchange management object (3-2). 4-1) sends a Charging Report message (5-56).

The present invention described above is capable of various substitutions, modifications, and changes within the scope without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains, and thus is limited to the above-described embodiments and drawings. It is not.

The present invention as described above provides an intelligent network service using the object-oriented design methodology of the software structure of the next-generation intelligent network service switch, thereby facilitating the maintenance of the intelligent network service switch software, and adding a new function to the intelligent network switch. The introduction and addition of a service concept can be provided quickly and at low cost.

Claims (1)

In the intelligent network service processing method applied to the next-generation intelligent network service switch, Receiving a call request, the basic call management object further comprises: generating a basic call processing object by the number of call requests received; The basic call processing object creates a calling party basic call processing object, and after checking the status of the network, the calling party basic call processing object collects user input information and transmits it to the detection point manager object; A third step of recognizing that the sensing point manager object is an intelligent network and transmitting related information to the intelligent network service exchange management object; The intelligent network service exchange management object instructs the assignment of the hose segment object, allocates the segment objects, and receives the control of the service control function object, requests the special resource function entity object to perform a resource and connection operation, and then announces the user information. Collecting a fourth step; The intelligent network service exchange management object controls the special resource function entity object under the control of the service control function object, releases the announcement and releases the resource, provides the charging information to the charging object, and requests a connection to the detection point manager object. A fifth step; The endpoint manager object requests the calling party's connection to the calling party's primary call processing object, and the calling party's primary call processing object creates the called party's primary call processing object by requesting the calling party's primary call management object to create the called party's primary call processing object. A sixth step; The called party basic call processing object sends a signal to the called party, and transmits it to the detection point manager object to connect the call; An eighth step, when the call is terminated, the detection point manager object requests the intelligent network service exchange management object to return the call segment, notifies the end of the calling party basic call processing object, and sends the result to the called party basic call processing object; And The intelligent network service exchange management object requests the charging information storage to the charging object under the control of the service control function object, and the charging object sends the charging information storage message to the charging information database object, and then reports the charging to the intelligent network service exchange managing object. An intelligent network service processing method in a next generation intelligent network service switch using an object-oriented model comprising a ninth step of transmitting a message.