KR100324277B1 - Call Management Process Controlling Method in the Switching System - Google Patents

Abstract

The present invention relates to a method for controlling a call processing process in an exchange. Particularly, a call processing process is controlled in an exchange that supports multi-language call processing control by separating the basic call control process into two-party basic call control processes to support the intelligent network capability set (CS) -2 function. It is about a method.

The call processing process control method in the exchange of the present invention comprises the steps of: confirming the occurrence of an event to transition from the interest call control state to the multiparty call control state; Transitioning a state of the first first basic call control process; Creating a second basic call control process for control or information processing on the new basic call; And generating a control process by the number of opponents during the multi-party call processing.

Description

Call Management Process Controlling Method in the Switching System

The present invention relates to a method for controlling a call processing process in an exchange. Particularly, a call processing process is controlled in an exchange that supports multi-language call processing control by separating the basic call control process into two-party basic call control processes to support the intelligent network capability set (CS) -2 function. It is about a method.

In general, the functions of call hold, call transfer, call waiting, and multi-call, which are multi-party call processing control functions, which are not intelligent network services, are controlled by one process, and the process is controlled by various data. The call was treated separately.

As shown in FIG. 1, a technical configuration for performing a processing operation for a call processing process in an additional service of a conventional exchange is, as shown in FIG. 1, a state of interest between a call control state 10 and a state 20 after a subscriber hook flash. And it can be seen divided into three of the multi-party call control state 30, the time control signal (stop_start) is used during the conversion of each state (10 to 30). Here, the corresponding control primitive (stop_start) stops an existing process and allows a new process to be executed by inheriting the stopped process ID.

The interest call control state 10 includes basic call control processes 11 and 12 for controlling basic calling and incoming calls of a half call concept in an interest call, and two basic call controls. Processes 11 and 12 are in Conversation, respectively. Here, the half call processing concept refers to processing by dividing into a calling party and a called party in a call processing process.

In the state 20 after the subscriber hook flash, an additional service control process 21 which is responsible for collecting and translating a number by starting a new call after the busy state, and various tones and signal devices in the exchange; Universal Card Slot (UCS) 22 having a concept of integrating DTMF (Dual Tone Multi Frequency, R2, etc.), an announcement broadcasting matching device, and a hold state under the control of the corresponding additional service control process 21 Manual service control process 23 is provided.

In the multiparty call control state 30, a multiparty call control process 31 for controlling call hold, call transfer, call waiting, multi-call, etc., UCS 32, and control of the multiparty call control process 31 And a manual service control process (33, 34) having a low hold state and a busy state.

The processing operation of the call processing process in the additional service of the conventional exchange can be considered in three main contents, which is a process of transitioning from the interest call control state 10 to the state 20 after the subscriber hook flash. The multi-party call control process by the request of the service and the creation of the additional service control process 21 and the manual service control process 23 and the transition from the state 20 after the corresponding subscriber hook flash to the multi-party call control state 30. The operation of generating 31 and the state of the multiparty call control process 31 can be divided.

First, during the subscriber call, the request for additional service and the operation of generating the additional service control process 21 and the manual service control process 23 are as follows.

It checks whether the additional service is registered when the subscriber calling on the originating or incoming call requests the additional service, i.e., hook flashes, and uses the same control ID as the basic call control process 11 using the stop control primitive (stop_start). The existing basic call control process 11 terminates while generating the additional service control process 21 having.

Then, by notifying the other party that the call has transitioned to the supplementary service, the basic call control process 12 of the other party is terminated using the stop control primitive stop_start, and the manual service control process 23 is generated.

Secondly, the generation operation of the multiparty call control process 31 is as follows.

After the newly created supplementary service control process 21 receives the information from the subscriber and translates the received information, the same as the supplementary service control process 21 according to the translated result using the stop control primitive (stop_start). A multiparty call control process 31 having a process ID is generated.

Then, the existing additional service control process 21 is terminated.

Thirdly, in the state of the multi-party call control process 31, various calls are controlled by the ID of the manual service control process ID, and according to the type of the multi-party call, the basic call control process 11 has a special state that cannot be possessed. That is, it has a call hold state, call transfer state, call waiting state, and multiple call state.

As described above, in the conventional technology, since the conventional multi-party call control is in charge of one process, a multi-party call control process separate from the basic call control process must exist, and the state of the multi-party call control process is different from the basic call processing. Must have a special status (i.e., call on hold, transfer state, on hold, multi call state, etc.), if the primary call control process terminates and the supplementary service control process takes over control with the same process ID. Since there is a possibility of losing its own information of the basic call control process, a software error may occur.

In addition, in the conventional technology, not only call processing supporting the intelligent network CS-n exists, but further development of the call processing function and additional support of the call processing process are required depending on the function when supporting the intelligent network CS-n in the future. This may cause inconvenience in development.

The present invention is to solve the disadvantages or problems as described above to support the intelligent network CS-2 and to simplify the state of the call processing process, an object thereof.

In another aspect, the present invention provides an intelligent network service by performing a call processing control process generation and state control by separating and processing the multilateral call processing control into a basic interest control process in order to support the intelligent network CS-2 function in the exchange. Its purpose is to make it easy for developers and additional service developers to easily develop services.

1 is a block diagram showing a configuration for performing a processing operation for a call processing process in a supplementary service of a conventional exchange.

2 is a block diagram showing a configuration for performing a processing operation for a call processing process according to an embodiment of the present invention.

3 is a flowchart illustrating a call processing process control method in an exchange according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

40: Interest call control state

50: State after event to transition to multilateral call

60: multiparty call control state

41, 42, 51, 52, 54, 61, 62, 64, 65: basic call control process

53, 63: UCS (Universal Card Slot)

Call processing process control method in the exchange of the present invention for achieving the above object comprises the steps of identifying the occurrence of the event to transition from the interest call control state to the multiparty call control state; Transitioning a state of the first first basic call control process; Creating a second basic call control process for control or information processing on the new basic call; And generating a control process by the number of opponents during the multi-party call processing. Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As illustrated in FIG. 2, a technical configuration for performing a processing operation for a call processing process according to an embodiment of the present invention is largely an interest call control state 40 and a state 50 after an event to be transitioned to a multiparty call. And a multi-party call control state 60, which can be viewed as an event to transition from a bi-call state to a multi-party call control state, a state transition of a basic call control process, and a process of controlling a new basic call. It is composed of the contents of the control process state in the generation and multiparty call processing.

Here, the interest call control state 40 includes the first basic call control processes 41 and 42, and in the state 50 after the event to transition to the multiparty call, the first basic call control processes 51 and 54. ), A basic call control process 52 and a UCS 53 to control the new basic call, and in the multiparty call control state 60, the first basic call control process 61 and the basic to control the new basic call. The call control process 62, the UCS 63, and the basic call control processes 64 and 65 which are generated during the multiparty call processing are provided.

The call processing process control method in the exchange according to the embodiment of the present invention will be described with reference to the flowchart of FIG. 3 as follows.

In the intelligent network CS-2, when a call separation request from a service switching function (SSF) is received at the request of a service control function (SCF) as a processing for a detection point, only in the case of a local access interface. If it detects a mid call event (e.g., hook flash) of the corresponding exchange itself, then it is determined that there is a new call to connect to an access interface that is in interest call control state, that is, interest call control state ( If an event to transition to the multi-party call control state 60 occurs in step 40 (step S1), the state of the first basic call control process 51 in the state 50 after the event to transition to the multi-party call occurs (step S1). Step S2). Here, the detection point is a specific event that occurs during processing, the corresponding Call Control Function (CCF) reports to the corresponding SSF or the corresponding SSF reports to the corresponding SCF. The corresponding detection point controls the corresponding SSF and the CCF. SSF refers to the intelligent network function that controls the CCF under the control of the SCF. The SCF refers to the intelligent network function that controls the intelligent network service by driving the intelligent network logic instance. The CCF controls the intelligent network control from the SSF. An intelligent network function that receives and controls the flow of a corresponding call. An access interface refers to a subscriber and a relay interface at an exchange.

At this time, the state of the first basic call control process 51 of the state 50 after the event to transition to the multilateral call in the second step (S2) is not responsible for signaling of the access interface, but The mobile station is transitioned to a state in charge of billing for the call, and only the state of the first basic call control process 51 is changed, but for the control of a new basic call or processing of the information, the first basic call control process ( By generating another second basic call control process 52 irrelevant to 51), the second basic call control process 52 is in charge of controlling the new basic call or processing the corresponding information (step S3).

In other words, a second basic call control process to control a new basic call independent of the first basic call control process 51 when an event to transition from the interfering call control state 40 to the multiparty call control state 60 occurs. (52), and the second basic call control process (52) generated at this time is responsible for signaling of the access interface and control of a new call, thereby simplifying the control and state of the call processing process. It makes development easier.

Accordingly, in the multiparty call processing in the multiparty call control state 60, the basic call control processes 61 and 62 generate as many as the counterpart basic call control processes 64 and 65, and the corresponding second basic call control process. This allows the state of 62 to have the same state as that of the first basic call control process 61 and to perform operations independently of each other (step S4).

At this time, the signaling of the access interface is to be in charge of one of several basic call control processes (61, 62), and the charge and control of the other party to each of the basic call control processes (61, 62).

As described above, by separating the multi-party call control to the interest-based basic call control process according to the present invention, the function becomes simple like a detection point among the intelligent network functions, and it is not only easy to control in the SSF when supporting the CS-n function in the future. The structure of the existing call processing process is simplified, so it is easy to develop additional call processing functions.In the case of multi-party call processing, the initial basic call control process is not terminated and the other party is continuously controlled so that the information of the basic call control process is not lost. This can minimize software errors.

Claims (5)

Confirming occurrence of an event to transition from the interest call control state to the multiparty call control state; Transitioning a state of the first first basic call control process; Creating a second basic call control process for control or information processing on the new basic call; And generating a control process by the number of opponents during the multiparty call processing. The method of claim 1, The event connects to an access interface in case of receiving a call separation request from the SSF due to processing of a detection point or a request of an SCF, when a midcall event of the exchange itself is detected in a local access interface, and in an interest call control state. A method for controlling a call processing process at an exchange comprising a new call to be made. The method of claim 1, And the transition process transitions the state of the first basic call control process to a state that is not responsible for signaling of an access interface but is in charge of control of the other party and charge processing for the call. The method of claim 1, In the process of generating the second basic call control process, another second basic call control process, which is not related to the first basic call control process, is generated, and control of the new basic call in the generated second basic call control process is performed. Or a call processing process control method at an exchange which is responsible for processing information. The method of claim 1, The control processes generated as many as the number of the counterparts have the same state and operate independently of each other, one of the control process is responsible for the signaling of the access interface, the charge and control of the other party, respectively, in the exchange How to control the call handling process.