KR100584445B1 - Implementation of intelligent network service processing module Service exchange unit of intelligent network switching system and method - Google Patents

Abstract

The present invention relates to an intelligent network switching system for processing an intelligent network (IN) service according to the ITU-T IN CS1 recommendation. In particular, in an intelligent network switching system, the intelligent network service switching entity entity (IN-SSME) recommendation referred to in the above recommendation. The present invention relates to an implementation of a service switching unit (SSF) in which a module for directly managing and controlling related users associated with an intelligent network service is generated. The present invention, when receiving a request for any intelligent network service in the basic call processing unit (BCSM) instance receives a corresponding TCAP Begin message, and analyzes the received message to determine whether the message is a message opening a TCAP session Created by the intelligent network switching manager (IN-SM) and the intelligent network switching manager (IN-SM), each instance manages the basic call processing unit (BCSM) associated with the call requesting the service, and the TCAP transmission and reception module and The service progress event message from the service logic program (SLP) is sprayed to the appropriate basic call processing unit (BCSM) for processing, the event message is processed directly, and the service progresses from the respective basic call processing units (BCSM) through the interface of the interface. Receives the necessary report and delivers it to the service logic program (SLP), and from the BCSM instance to manage Proposals are implemented by a service exchange unit (SSF), which does not exist anymore When receiving a message that destroy.

Description

Implementation of intelligent network service processing module Service exchange unit and method of intelligent network switching system

The present invention relates to an intelligent network switching system for processing an intelligent network (IN) service according to the ITU-T IN CS1 recommendation. In particular, in an intelligent network switching system, the network meets the IN-SSME recommendation mentioned in the above recommendation. The present invention relates to an implementation of a service switching unit (SSF) in which a module for directly managing and controlling related users associated with a service is generated.

Looking at the recommendations related to the intelligent network switching system, Q.1214 and Q.1219 of the ITU-T CS1 Recommendation, the connection points of the intelligent network switching manager (IN-SM), intelligent network service exchange module (IN-SSM), and SSME-Control ( Terminology). They have an interface with a functional entity in a service exchange unit (SSF) that accesses a service control unit (SCF) or a service control unit (SCF), and provide intelligent network services to users, or to a service control unit (SCF). It is said to provide an abstract picture of the SSF call progress. In addition, the concept of SSME-Control states that the message from the service control unit (SCF) should be interpreted or the message analysis from the service exchange unit (SSF) to the service control unit (SCF) should be performed.

Meanwhile, the intelligent network switching manager (IN-SM) and the intelligent network service switching module (IN-SSM) as described above generally manage basic call processing units (BCSMs) related to a call in the service switching unit (SSF) during the intelligent network service. Recommended for control purposes.

However, the ITU-T CS1 Recommendation only mentions abstractly the necessity of a comprehensive call control module that is considered necessary for the implementation of intelligent network services. A description of the specific implementation of such a module and the service exchange in which the module is implemented are not yet presented.

Accordingly, an object of the present invention is to implement a service exchange unit in which a module is generated that directly satisfies the ITU-T IN CS1 recommendation and simultaneously manages and controls related users in a service exchange unit (SSF) associated with an intelligent network service. The present invention intends to implement a method of activating the generated module for each service.

In order to achieve the above object, the present invention receives a TCAP Begin message corresponding to any intelligent network service request from a basic call processing unit (BCSM) instance, analyzes the received message, and opens the TCAP session. Created by the intelligent network switching manager (IN-SM) and the intelligent network switching manager (IN-SM) to determine whether the message, each instance manages the basic call processing unit (BCSM) associated with the call requesting the service, TCAP Through the interface with the transmitting / receiving module, the service progress event message from the service logic program (SLP) is sprayed on the appropriate basic call processor (BCSM) for processing, or the event message is directly processed, and each basic call processor (BCSM) is processed. Receives reports required for service progress from the system and delivers them to the service logic program (SLP), and basic call management Rib (BCSM) is a message from an instance to be destroyed, it characterized the service switching section (SSF) having the receiving receives more intelligent network service having a function that does not exist exchange module (IN-SSM).

On the other hand, the intelligent network service switching module (IN-SSM), the intelligent network switching manager generated a corresponding TCAP Begin message generated in the service switching unit (SSF) when a request for any intelligent network service in the basic call processing unit (BCSM) instance An IN-SSM instance for handling the requested intelligent network service by the intelligent network switching manager (IN-SM) is generated, and the intelligent network switching is performed. The TCAP Begin message received by the manager (IN-SM) is applied to the generated intelligent network service exchange module (IN-SSM), so that the intelligent network service exchange module (IN-SSM) provides an intelligent network service corresponding to the TCAP Begine message. Characterized in that the process is generated through the process.

DETAILED DESCRIPTION A detailed description of preferred embodiments of the present invention will now be described with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. The terms to be described below are terms defined in consideration of functions in the present invention, and may be changed according to the intention or custom of a user or a chip designer, and the definitions should be made based on the contents throughout the present specification.

First, the functions of the intelligent network switching manager (IN-SM) and the intelligent network service exchange module (IN-SSM) proposed according to the present invention will be described with reference to the accompanying drawings.

First, the intelligent network switching manager (IN-SM) is a service control unit (SCF) to provide any intelligent network service feature (Feature) to the user or to continue the service from the basic call processing unit (BCSM) related to the service Create a module to process the event to be reported to the service control unit (SCF) one per service occurrence to have a characteristic to handle the subsequent processing. In addition, the intelligent network switching manager (IN-SM) has a property that exists in the service switching unit (SSF), the service request from the service switching unit (SSF) to the service control unit (SCF) or service from the service control unit (SCF) When the service start event message is generated by the switching unit (SSF), it has a function of processing it first. If a service start message is arbitrarily sent from the service control unit (SCF) to the service exchange unit (SSF) without the request of the service exchange unit (SSF), the function entity having access to the service control unit (SCF) ) And then notify the IN-SM. At this time, the message is in the form of a TCAP message, the network switching manager (IN-SM) analyzes the received message, and only if the received TCAP message is determined to be a TC-Begin message that newly opens a TCAP session (Session), A new instance, i.e., a predetermined module intelligent network service exchange module (IN-SSM), is created to directly take charge of future service progress. Similarly, when the service switching unit (SSF) first requests the intelligent network service to the service control unit (SCF), it notifies the intelligent network switching manager (IN-SM) first to generate a new intelligent network service switching module (IN-SSM) instance. Induce.

An operation flow of the generation of the IN-SSM instance is shown in FIG. 2, that is, FIG. 2 illustrates an intelligent network service in a service switching unit (SSF) in an intelligent network switching system according to the present invention. A flowchart illustrating a method of directly generating a module, wherein the SSF receives an intelligent network service control message from a service control unit (SCF) and processes the intelligent network service control message. A flowchart of an intelligent network switching manager (IN-SM) for generating a module (hereinafter referred to as an intelligent network service switching module (IN-SSM)) is shown.

Referring to FIG. 2, in step 210, the intelligent network switching manager IN-SM is in a standby state. For reference, according to the Recommendation of Implementing the Service Switching Unit (SSF) of the Intelligent Network Switching System, it is recommended that the modules created in the Service Switching Unit (SSF) have a characteristic of transitioning to a limited state, which is commonly referred to as a finite state machine (Finite). State Machine (FSM). Therefore, in the standby state of step 210, it means that the idle state in the finite state of the generated intelligent network switching manager (IN-SM). In step 212, the intelligent network switching manager (IN-SM) determines whether there is any intelligent network service request from the basic call processor (BCSM). If it is determined in step 212 that there is an intelligent network service request, it is determined in step 214 whether a TCAP Begine message is detected. That is, when the TCAP transmit / receive module, which is a function entity having access to the service control unit (SCF), receives and notifies it to the intelligent switching manager (IN-SM), the message may take the form of a TCAP message. The intelligent network switching manager (IN-SM) analyzes the notified message. On the other hand, if the TCAP Begine message is received by the intelligent network switching manager (IN-SM) in step 214, and the received TCAP message is determined to be a TC-Begin message to open a new TCAP session (Session), in step 216 An intelligent network service exchange module (IN-SSM), which is an instance, is created, and the generated intelligent network service exchange module (IN-SSM) can directly take charge of future service progress. In step 218, the intelligent network switching manager (IN-SM) transmits the received TCAP start message (TCAP Bgine) to the generated intelligent network service switching module (IN-SSM), thereby providing an intelligent network service switching module (IN-SM). SSM) generation operation is performed.

Meanwhile, the intelligent network switching manager (IN-SM) generates only one intelligent network service exchange module (IN-SSM) per new service, and receives a service request message when detecting a TCAP Begine message from any basic call processing unit (BCSM). After creating an IN-SSM instance to maintain the interface with the service control unit (SCF) and controlling the service, and passing the control right, the created IN-SSMs are created. Implemented not to be managed separately.

On the other hand, the function in the service switching unit (SSF) in the intelligent network switching system generated and implemented by the intelligent network service switching module (IN-SSM) generated according to the flow chart of FIG. The configuration, that is, the configuration of the service switching unit (SSF) according to the present invention is shown in FIG. For reference, the configuration of the service switching unit (SSF) shown in FIG. 1 represents a configuration comprised of software. Thus, each component is actually implemented as a process and a collection of modules with the corresponding functions.

1 illustrates a preferred embodiment of a service switching unit (SSF) according to the present invention, which includes a call control function (CCF) at the same time as the service switching unit (SSF).

Referring to FIG. 1, reference numeral 100 denotes a service switching unit (SSF) / call control unit (CCF), which is largely a BCM manager 101, a BCSM call control process 102, and a resource manager. Manager 104, Data Manager 105, IN-Switching Manager 103, IN Service Switching Module 106, and Function Entity Access Manager (FEAM) 110. It is. In addition, the service switch manager (SSF) manager, the error handler library, and the UNIX operating system show the state of supporting the above components. First, the BCM Manager 101 creates a calling party basic call processor (BCSM) process according to an originating attempt event or an initial call attempt event message during an intelligent network service. BCSM call control process 102 is a process based on the ITU-T basic call state model (basic call processing unit (BCSM)) and functions as a call control process of basic call processing units (BCSMs) having a form that is divided into a calling party and a called party. do. The resource manager 104 manages the shared switch resources by allocating them to the BCSM call control process 102 that requested them. Examples of managed resources include DTMF receivers, PSTN trunks, and the like. The data manager 105 is composed of a relational database management system (RDBMS) for subscriber and switch port information, and includes a function of manipulating switch resource information. The FEM 110 uses TCP / IP 119 for reliable message transmission and sequential delivery of TCAP and DSS1 messages. It also enables the exchange of asynchronous TCAP messages and the concurrency of the TCAP interfaces. It uses the TCAP message coordination process 111 and the TCAP API library 114. The DSS1 message coordination process 112 and the DSS1 API library 115 are used to enable the asynchronous exchange of DSS1 messages and the simultaneous DSS1 interface. HLM receive process 117 receives events from the switch while maintaining the switch and LAN interface. The control message to be sent to the switch involved in call processing is created using the switch API library 116 and sent to the HLM sending process 118. In addition, the environmental manager 150 who has received the environmental data may send a response to the switch through the HLM transmission process 118. When the switch message coordination process 113 receives a message from the switch through the HLM reception process 117, the switch message coordination process 113 disassembles the message and determines whether the message is related to call processing or a message related to the environment. It informs where the message should be routed according to the decision result.

Next, the intelligent network switching manager (IN-SM) 103 is a module according to the present invention, when sending a TCAP Begine message to the intelligent network switching manager (IN-SM) 103 when any intelligent network service requests from the BCSM instance, The intelligent network switching manager (IN-SM) 103 has created an intelligent network service exchange module (IN-SSM) 106 instance for handling (handling) the requested service, and the TCAP received by the created intelligent network service exchange module (IN-SSM) 106. Send Begine message to Service Control Unit (SCF). The role of the IN-SM 103 is to create an IN-SSM 106 instance to manage the intelligent network service.

The intelligent network service switching module (IN-SSM) 106 is generated by the intelligent network switching manager (IN-SM) 103, and each instance manages basic call processing units (BCSMs) related to the call requesting the service. And, through the interface with the TCAP transmission and reception module implemented in the intelligent network switching system, the service progress event message from the service logic programs (SLP) is sprayed to the appropriate basic call processing unit (BCSM) for processing. In some cases, it can be processed directly. In addition, it receives reports required for service progress from each BCSM and delivers them to the service logic program (SLP). The time of destruction of each IN-SSM 106 is such that the managed BCSM instances no longer exist (in this case, each BCSM instance is reported upon destruction). Depending on the service, it may be after processing the service progress message.

The SSF manager 120 manages the start and restart of all the processes configured in the SSF / CCF 100, except for the BCSM call control process 102, which is controlled by the BCSM call control process 102. Perform a sequential shutdown of the processes of the service switching unit (SSF) / call control unit (CCF) 100 for the error. The start of the service switching unit (SSF) manager process 120 is performed when the host computer is started or when the service switching unit (SSF) manager 120 is manually started.

Error Handling Library 130 includes functions to handle three categories of errors, divided into minor, serious, and fatal errors. Serious errors prevent process execution, so you can resolve it by terminating and restarting the process. Minor errors do not block the execution of the process, so they are solved by simply sending a message to the error logger. The fatal error affects the entire system beyond recovery, so it is manipulated by reporting the error to the error logger and terminating all processes. This function is executed in the error correction library 130. The UNIX 140 provides a basis for generating and operating respective processes and modules corresponding to the service switching unit (SSF) / call control unit (CCF) 100, the service switching unit (SSF) manager 120, and the error coordination library 130.

In conclusion, the present invention indicates that the generation of the intelligent network service switching module (IN-SSM) generated by the intelligent network switching manager (IN-SM) 103 and the intelligent network switching manager (IN-SM) 103 and the corresponding operation are implemented. give. As described above, this is a process in which the entity is proposed and not implemented in the existing recommendations, which are generated and implemented through the present invention.

Therefore, in actual implementation of the intelligent network switching system, in particular, the implementation of the service switching unit (SSF) is actually performed through the configuration as described above.

As described above, due to the intelligent network switching manager (IN-SM) proposed by the present invention, the service control unit (SCF) independently generates a module to handle the control message of the IN service for each service, independent and individual service charge module Has the advantage of facilitating system implementation and handling by supporting private and optimized data management of service information.

In addition, the present invention is an initial structure of the IN-SSME (SSF Management Entity) mentioned in the ITU-T IN CS1 Q.1218 recommendation as a result of the scalability of the SSF structure to prepare for future recommendations. Can be.

1 is a block diagram of the internal function of the service switching unit (SSF) in the intelligent network switching system according to the present invention.

2 is a flowchart illustrating a module generation method for directly processing an intelligent network service in a service switching unit (SSF) in an intelligent network switching system according to the present invention;

Claims (4)

In a service switching device (SSF) provided in an intelligent network switching system for processing an intelligent network (IN) service, A basic call processing unit that performs basic call processing when an event occurs during an intelligent network service; When receiving a request message related to a request for an intelligent network service from the basic call processing unit, it is determined whether the received request message is a message for establishing an initial session, and, if the initial session establishment message, an intelligent network for creating a new intelligent network service instance Switching Manager (IN Service Management: IN-SM). And an intelligent network service switching module (IN-SSM) which is generated by the IN-SS and manages basic call processing of each instance managing the new intelligent network service. According to claim 1, wherein the intelligent network service exchange module, The service progress event message is transmitted from the service logic program (SLP) to the basic call processing unit through an interface with a TCAP transmit / receive module to be processed or directly processed by the event message, and the basic call is processed. Receiving a report required for the service progress from the processing unit and delivers to the service logic program (SLP), when receiving the request for extinction of the intelligent network service from the basic call processing unit, the service exchange device, characterized in that for destroying the intelligent network service. In the intelligent network (IN) switching system including a service switching device (SSF), a method for processing an intelligent network service, Receiving, by an intelligent network switching manager (IN-SM) which manages and controls an intelligent network service, a request message for the intelligent network service through a basic call processing unit (BCSM) that processes a basic call in the service switching device (SSF); Determining, by the IN-SM, whether the initial session is set up based on the request message, and generating an instance of the intelligent network service when the initial session is required; Intelligent network service processing method comprising the step of managing and controlling the intelligent network service based on the instance. The method of claim 3, wherein the intelligent network service is managed based on the instance. Transmits a service progress event message for managing an intelligent network service to a basic call processing unit, processes the service progress event message directly, receives a report required for service progress from the basic call processing unit, and delivers it to the service logic program; Intelligent network service processing method characterized in that the intelligent network service is destroyed when receiving the request for extinction of the intelligent network service from the basic call processing unit.