KR100330179B1 - Intelligent Network Processing Method For Outgoing Call In Switching System - Google Patents

Abstract

In the present invention, when a detection point required by an intelligent network is recognized while performing an R2 and an ISDN (ISDN User Part) outgoing call processing in an exchange system, the intelligent network processing for the outgoing call may be performed under the control of the intelligent network in conjunction with the intelligent network. The present invention relates to an intelligent network processing method for outgoing call in an exchange system.

In the conventional exchange system, only basic outgoing call processing function was provided, but outgoing call processing function supporting intelligent network could not be supported, and it was not possible to support various services. There was a drawback to changing the software of the switching system.

When the outgoing call processing is performed in the switching system and the predetermined detection point is recognized, the present invention reports the detection point to the service control system of the intelligent network, requests control of the outgoing call processing, and then controls the service control system. By processing the outgoing call corresponding to the incoming call, various intelligent network services interworking with the intelligent network are possible while processing the outgoing call, while minimizing the effect on the corresponding exchange system even if adding a new function or introducing a new service for the subscriber. In addition, there are many savings in terms of manpower and cost required to add the corresponding function and to introduce the service.

Description

Intelligent Network Processing Method For Outgoing Call In Switching System

The present invention relates to an intelligent network processing method for outgoing call in an exchange system, and in particular, when a sensing point required by the intelligent network is recognized during the outgoing call processing of R2 and ISUP (ISDN User Part) outgoing call. The present invention relates to an intelligent network processing method for outgoing calls in an exchange system that enables intelligent network processing for outgoing calls under control.

In the past, hardware and software suitable for the exchange system's unique purpose were developed and used by each exchange system. Therefore, in order to add new functions or to introduce new services, the hardware and software of the exchange system had to be changed considerably. heard.

Therefore, in order to fundamentally solve these problems, it is necessary to separate the parts in charge of various services in the exchange system and implement them in general-purpose hardware and software such as UNIX to design and implement new services in the exchange system. The next-generation intelligent network (hereinafter referred to as the 'intelligent network') was introduced to significantly reduce time and cost, and to provide services more efficiently.The intelligent network was rapidly developed by building it in a general-purpose hardware and software environment. The latest technology can be quickly introduced in line with computer technology to facilitate the performance improvement of the corresponding switching system.

However, various call processing capabilities in the conventional switching system depend on the level of service processing software possessed by the switching system, as shown in FIG. 1 of the accompanying drawings, and therefore, all the geographically dispersed switching systems to provide new services. The effort and cost of changing the service processing software of the system is required.

That is, the conventional switching system only provided a service that can be handled by its own software for a predetermined service request of the subscriber, and still handles outgoing call (R2 outgoing call / ISUP outgoing call) that supports the intelligent network in the corresponding exchange system. The function is not implemented so only basic outgoing call processing is provided.

Meanwhile, the basic outgoing call processing operation in the conventional exchange system will be described with reference to FIG. 2 as follows.

First, if the basic call processing block (not shown in the drawing) of the corresponding exchange system analyzes the station number of the called party's incoming number from the calling party, and then analyzes the station number, it is determined that it is an outgoing call (step S21). The corresponding outgoing routing is started. At this time, the basic call processing block uses the routing case, source, class, and emergency information obtained by analyzing the called number. It is checked whether or not routing is possible (step S22).

Therefore, if the routing of the outgoing call is impossible, after sending the related message to the calling party (step S31), when the recovery message is received from the calling party, the sending completion message is sent (step S32), and the outgoing call is terminated. .

However, if routing of the outgoing call is possible in step S22, the outgoing route information is analyzed to occupy the idle relay line (step S23). At this time, if the relay line is normally occupied, the outgoing subscriber is notified of the outgoing line occupation. After requesting the switch connection (step S24), the process transitions to the outgoing call processing state for receiving the switch connection result.

However, if it fails to occupy the outgoing line, it reselects the idle relay line within the same route and reattempts the occupancy.If the idle line does not exist, the relay line congestion message is sent to the calling party, and then the recovery message is received from the calling party. A recovery completion message is sent and the outgoing call is terminated.

On the other hand, if the switch connection is processed normally in step S24, after transmitting the initial address message (Initial Address Message) containing the corresponding outgoing call connection information (relay line number, call / calling number, etc.) to the called party exchange system (step S25) Transition to the outgoing call processing state waiting for an address complete message, which is a response message to the initial address message, from the called party's switching system.

At this time, upon receiving the address completion message from the called party's switching system, after the recipient is relayed to the calling party (step S26), the receiver waits for a response message to the outgoing call from the called party (step S27).

Thereafter, when a response message is received from the called party, the state of the outgoing call is set to busy (step S28), and the call is sent to the calling party so that the calling party and the called party can connect to the call path to make a call ( Step S29).

If no response message is received from the called party in step S27, a recovery message with no response is received, and a recovery completion message is sent (step S32), and the outgoing call is terminated.

When the call is terminated between the calling party and the called party and a recovery message is received, a recovery completion message is sent, and the relay line occupied with the idle state is restored to the call (step S30). To exit.

As described above, in the conventional exchange system, only the outgoing call processing function providing only the outgoing call processing function does not exist to support the intelligent network, and thus it was not possible to support various services, and to introduce a new service or perform a new function. The disadvantages were the effort, manpower, and cost of changing the software of all the geographically dispersed switching systems.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object thereof is to perform outgoing call processing in an exchange system, and when a predetermined detection point is recognized, the corresponding detection point is reported to the service control system side of the intelligent network, and the outgoing call processing is performed. After requesting for the control, and proceeds to the corresponding outgoing call processing under the control of the service control system, to support a variety of intelligent network services interworking with the intelligent network when processing the outgoing call.

In addition, another object of the present invention is to minimize the impact on the exchange system even if adding a new function or introducing a new service for the subscriber, to reduce the manpower and costs required to add the function and the service introduction.

1 is a schematic structural diagram for implementing call processing in a conventional switching system.

2 is a basic outgoing call processing operation flowchart in the conventional exchange system.

Figure 3 is a schematic diagram for implementing an intelligent network processing for outgoing call in the exchange system according to the present invention.

Figure 4 is a flow chart of the intelligent network processing operation for the outgoing call in the switching system according to the present invention.

Explanation of symbols on the main parts of the drawings

30: exchange system 31: basic call processing block

32: intelligent network call processing block 40: service control system

A feature of the present invention for achieving the object as described above, in the intelligent network processing method for outgoing call in the switching system, the process of analyzing the station number of the incoming number input from the calling party; Designating a routeable outgoing route for the outgoing call identified as an intelligent network outgoing call; Analyzing the information on the designated outgoing route and occupying an idle relay line; Waiting for an address completion message according to an initial address message transmission including the intelligent network outgoing call connection information to be received; Relaying the called state to the calling party when the address completion message is received and waiting for a response message for the intelligent network outgoing call from the called subscriber; When the response message is received, setting the state of the intelligent network outgoing call to busy to make a call between the calling subscriber and the called subscriber; When the call is terminated and a recovery message is received, changing the relay line to an idle state and restoring a connection to the call to terminate the intelligent network outgoing call.

Furthermore, the process of designating a routeable outgoing route for the intelligent network outgoing call comprises: checking whether the intelligent network outgoing call is capable of routing using the information obtained by analyzing the called number; If the routing of the intelligent network outgoing call is impossible, sending a related message to the calling party to terminate the intelligent network outgoing call; If the routing of the intelligent network outgoing call is possible, characterized in that it comprises the step of specifying a route capable outgoing route as the authenticated intelligent network service is verified as the outgoing line.

In addition, the process of waiting for an address completion message according to the initial address message transmission may include: informing the calling subscriber of outgoing line occupancy and requesting a switch connection; Transmitting the initial address message including the intelligent network outgoing call connection information to the called party when the switch connection is normally processed; And transitioning to an outgoing call processing state waiting for an address completion message, which is a response message to the initial address message, from the called party.

Further, in the process of waiting for a response message for the outgoing call from the called party to receive the response message, when the answering message is not received from the called party, or when the call out of the outgoing call is detected by the calling subscriber, the intelligent network is detected. An exception handling is performed by the service control system.

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

The configuration for implementing the intelligent network processing for the outgoing call in the switching system according to the present invention is shown in Figure 3, the basic call processing block 31 for call / service (call / service) processing and control And a transport layer including a plurality of switching systems (SSPs) having an intelligent network call processing block 32 connected to the basic call processing block 31 and performing an intelligent network call processing function. It is classified into a service layer including a service control system (SCP; 40) that controls outgoing call processing for intelligent network services. The delivery layer actually exchanges / transmits information such as voice data, Information for is delivered to the service layer to receive outgoing call processing control for the intelligent network service, the service layer is service subscriber data and service control It holds logic to control the outgoing call processing according to the intelligent network service request from the transport layer.

On the other hand, the present invention is to provide an intelligent network service in conjunction with the intelligent network when the outgoing call processing in the exchange system 30, the detection point (Detection Point) required by the intelligent network is recognized during the outgoing call processing In this case, outgoing call processing for the intelligent network service is performed under the control of the service control system 40 of the intelligent network.

That is, the exchange system 30 of the corresponding transport layer reports the predetermined detection point to the service control system 40 of the service layer when the outgoing call processing is performed, and requests control of the outgoing call processing. When the intelligent network control message is received while the network control transitions to a state in which it can be controlled by the corresponding service control system 40 and receives the corresponding intelligent network control message, it transitions to the outgoing call processing state required by the corresponding intelligent network service and the corresponding outgoing call. Processing will continue.

Here, the detection point refers to a specific event in the call processing flow that should be known for the intelligent network service for the outgoing call, the intelligent network call processing block 32 of the switching system 30 to a specific event that occurred while performing the outgoing call processing. When detected by the control unit and reported to the service control system 40 of the service layer, the detection point reported by the service control system 40 is checked, and the corresponding intelligent network control message is transmitted to send out the corresponding exchange system 30. It controls the signal processing.

In addition, detection points required by the corresponding intelligent network include detection point 12 (DP_12, Term.Attempt_Authorized), which is the point at which the authenticated intelligent network service is verified as the outgoing line, and detection point 15 (DP_15) when the incoming response report is received from the called subscriber. , T_Answer), detection point 18 (DP_18, T_Abandon), which is the point at which outgoing call abandonment is detected by the calling subscriber during intelligent network outgoing call processing, and detection point 14 (DP_14, T_No_Answer), which is the time when no answer report is received from the called party. In addition, detection point 13 (DP_13, T_Busy), which is the point at which the called party is reported to be busy, additional detection service by detection point 17 (DP_17, T_Disconnect), which is the point at which the outbound call recovery report is received upon termination of the call There is a detection point 16 (DP_16, T_Mid_Call) which is a point in time when a request is detected.

An intelligent network processing operation for outgoing call in the exchange system according to the present invention as described above will be described in detail with reference to FIG. 4.

First, after analyzing the station number of the called number input from the calling party in the basic call processing block 31 of the switching system 30, and analyzing the corresponding station number, if it is determined that it is an intelligent network outgoing call (step S41), the intelligent network In the call processing block 32, outgoing routing for the corresponding intelligent network service is started. At this time, a routing case, source, class, emergency information, etc., obtained by analyzing the called party number. It is checked whether the routing of the intelligent network outgoing call is possible using the (step S42).

Therefore, if the routing of the intelligent network outgoing call is impossible, after sending the relevant message to the calling party (step S52), when the recovery message is received from the calling party, the restoring completion message is sent (step S53), and the corresponding intelligent network outgoing call is terminated. Done.

However, if routing of the corresponding intelligent network outgoing call is possible in step S42, the authenticated intelligent network service reaches detection point 12, which is verified as the outgoing line, and designates the routeable outgoing route (step S43).

Subsequently, the information on the designated outgoing route is analyzed to occupy the idle relay line (step S44). At this time, if the occupied relay line is normally occupied, the outgoing subscriber is notified of the outgoing line occupied and the switch connection is requested (step S45). Transition to intelligent network outgoing call processing to receive switch connection results.

However, if it fails to occupy the outgoing line, it reselects the idle relay line within the same route and reattempts the occupancy.If the idle line does not exist, the relay line congestion message is sent to the calling party, and then the recovery message is received from the calling party. The recovery complete message is sent and the corresponding network outgoing call ends.

On the other hand, if the switch connection is normally processed in step S45, after transmitting the initial address message including the outgoing call connection information (relay line number, calling / destination number, etc.) to the called party switching system (step S46) ), It transitions to the outgoing call processing state waiting for an Address Complete Message, which is a response message to the initial address message, from the called party exchange system.

At this time, upon receiving the address completion message from the called party's switching system, after relaying the called state to the calling party (step S47), the receiver waits to receive a response message for the outgoing call from the called party (step S48). When the subscriber reaches the detection point 13 that is reported to be in a call or when the subscriber reaches the detection point 18 where the outgoing call abandonment of the calling subscriber is detected, an exception processing is performed by the service control system 40 of the intelligent network (step S54). ).

However, when receiving a response message from the called party in step S48, the detection point 15 is reached and the state of the outgoing call is set to busy (step S49), and the message is sent to the calling party to send a call between the calling party and the called party. Call so as to be connected (step S50).

However, in step S48, when the response message is not received from the called party and the response message is received, the detection point 14 is reached, or when the outgoing call abandonment of the calling party is reached, the detection point 18 is reached. The exception processing by the system 40 is performed (step S54).

Subsequently, when additional service requests are detected from the called party in a state in which a call path is formed between the calling party and the called party, the detection point 16 is reached, and the call is terminated between the calling party and the called party. When received, a recovery complete message will be sent.

Then, the switching system changes the relay line occupied to the idle state and recovers the connection with the call, and reaches the detection point 17 by terminating the corresponding network outgoing call (step S51), thereby providing the intelligent network service for the outgoing call. Will end

As described above, in the present invention, the function of the communication network is divided into a transport layer and a service layer to localize the intelligent network service processing software within the service layer, and the basic call processing block 31 and the intelligent network call processing block of the switching system 30 ( 32) is connected and proceeds with the intelligent network outgoing call processing under the control of the service control system 40 located in the service layer, so that even if adding a new function or introducing a new service, the influence on the switching system 30 can be minimized. In addition, the savings can be seen in terms of manpower and cost for adding such functions and introducing services.

In addition, the embodiments according to the present invention are not limited to the above-described embodiments, and various alternatives, modifications, and changes can be made within the scope apparent to those skilled in the art.

As described above, according to the present invention, when a predetermined detection point is recognized while performing outgoing call processing in the exchange system, the corresponding control point is reported to the service control system side of the intelligent network, and the control for the corresponding outgoing call processing is performed. By performing the corresponding outgoing call processing under the control of the system, various intelligent network services interworking with the intelligent network during the outgoing call processing are possible.

In addition, the present invention can minimize the impact on the exchange system even if adding new functions or introducing new services for the subscriber, and can see a lot of savings in terms of manpower and cost required for adding the corresponding functions and introducing the service. .

Claims (6)

delete delete An intelligent network processing method for an outgoing call in a switching system, comprising: analyzing a station number of a called number input from a calling party; Designating a routeable outgoing route for the outgoing call identified as an intelligent network outgoing call; Analyzing the information on the designated outgoing route and occupying an idle relay line; Waiting for an address completion message according to an initial address message transmission including the intelligent network outgoing call connection information to be received; Relaying the called state to the calling party when the address completion message is received and waiting for a response message for the intelligent network outgoing call from the called subscriber; When the response message is received, setting the state of the intelligent network outgoing call to busy to make a call between the calling subscriber and the called subscriber; Changing the relay line to an idle state when the call is terminated and restoring the connection to the call to terminate the intelligent network outgoing call; . The method of claim 3, wherein The process of designating a routeable outgoing route for the intelligent network outgoing call comprises: checking whether the intelligent network outgoing call is capable of routing using the information obtained by analyzing the called number; If the routing of the intelligent network outgoing call is impossible, sending a related message to the calling party to terminate the intelligent network outgoing call; If the routing of the intelligent network outgoing call is possible, intelligent network processing method for the outgoing call in the exchange system comprising the step of specifying a route that can be routed as the authorized intelligent network service is verified as the outgoing line. The method of claim 3, wherein The process of waiting for an address completion message according to the initial address message transmission comprises: informing the calling subscriber of the outgoing line and requesting a switch connection; Transmitting the initial address message including the intelligent network outgoing call connection information to the called party when the switch connection is normally processed; And transitioning to an outgoing call processing state waiting for an address completion message, which is a response message to the initial address message, from the called party. The method of claim 3, wherein In the process of waiting for a response message for an intelligent network outgoing call from the called party, when a response message is not received from the incoming subscriber, or when an outgoing call abandonment of the calling subscriber is detected, the service of the intelligent network is received. Intelligent network processing method for outgoing call in the switching system, characterized in that the exception processing by the control system.