KR920002903B1 - Call process method of data exchanger - Google Patents

Abstract

When a subscriber calls, the subscriber's port is searched, and a checking finds whether a connection is possible for the line. Then a communication path is formed, and a checking finds whether a monitoring facility for data transmission is available and whether the data transmission is discontinued during the effective time period. If the data transmission is continued, the system is put to a standby position until a call release request data is inputted. When the data transmission is discontinued or when the call release request key is inputted, the communication path is disconnected to restore the system to the original state. The method improves the utilization rate of the communication path.

Description

Call processing method of data exchange device

1 is a block diagram of a data exchange device.

2 is a conventional flow chart.

3 is a flow chart of the present invention.

4 is a port status table.

* Explanation of symbols for main parts of the drawings

100: CPU 110: clock generator

120: memory 130-133: data terminal subscriber circuit

140: switch circuit

The present invention relates to a method for processing a call of a subscriber side data terminal in a data exchange apparatus.

In general, a data exchange device is an exchange device for providing data services to extension subscribers. The data exchange device is configured as shown in FIG. 1, and the outline of FIG. The central processing unit (hereinafter referred to as CPU) 100 controls the operations of the data terminal subscriber circuits 130-133 and the switch circuit 140 to control the connection between the common resources and the data terminals. The clock generator 110 supplies an operation clock string of the CPU 100, and the memory 120 stores a program for the CPU 100 to control the system and the CPU 100 controls the system. Temporarily stores the data generated during the control processing. The data terminal subscriber circuits 130-133 relay data terminals or common resources with the system, and the data terminal subscriber circuits 130 relay the common resources with the system, and the remaining data terminal subscriber circuits 131-133 Multiple data terminals are relayed to the system. In addition, the switch circuit 140 provides a communication path between data terminals or between data terminals and common resources.

2 is a flowchart of a conventional call processing method, which is performed by the CPU 100 in FIG. 1 and will be described below. The CPU 100 reads the state of each port to which the data terminal is connected to the data terminal subscriber circuits 131 to 133 (step 200) and checks whether there is call setting request data (step 201). When there is call setting request data in step 201, the CPU 100 finds a called port corresponding to the call setting request data through the corresponding data terminal subscriber circuits 130-133 (step 202). It is checked whether the call port is in a call state or in a standby state (step 203). When the called port found in step 203 is in a standby state, the CPU 100 accesses a call and called port stored in the memory 120. After changing the necessary part of the state table (step 204), the switching circuit 140 is controlled to form a call path between the call port and the called port that requested the call setup (step 205). At this time, data communication between the called port and the calling port is performed through the switch circuit 140. After performing step 205, the CPU 100 waits until the call release request data is received from the call port or the called port through the data terminal subscriber circuit and the switch circuit 140. (Step 206) When the call release request data is input in step 206, the CPU 100 changes the changed part of the status table of the call and called port changed on the memory 120 to its original state (step 207). Step) By controlling the switch circuit 140 to close the communication path formed between the call and the called port (step 208). On the other hand, when the called port is busy in step 203, the CPU 100 transmits a message indicating that call setup is impossible, that is, a busy message, to the call port of the data terminal subscriber circuit (step 209).

Therefore, the call processing method of FIG. 2 maintains the call path between the subscribers when the subscriber requests to set up a call with the other subscriber until the call is released from the subscriber. The subscriber is occupied by the subscriber until the request is made. In this case, there is a problem in that the user occupies the shared resource unless the data communication is performed after establishing a call with the other subscriber or the call cancellation request is completed after the completion of communication. The problem of lowering the efficiency of use of the call channel due to being occupied by the other subscribers and the use of the shared resources by the user who do not use it can improve the use efficiency of the call path and common resources in the data exchange device. The present invention provides a call processing method.

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

3 is a flow chart of the present invention, the first process of finding the port of the other subscriber requesting the call setup request of the subscriber to check whether the connection is possible, then changing the display of the subscriber port status table when the connection is available, and forming a call path with the other subscriber And a second step of checking whether or not to monitor the data transmission status of the subscriber port; and a third step of checking whether data transmission is interrupted to a communication channel during a valid time period of the data transmission status monitoring mode in the second step; If the data transmission state is not checked in the second process or if the data transmission is in progress in the third process, the fourth process waits until the call release request data is received, and the data transmission is stopped in the third process. If the call release request data is received in the above step 4, the change of the subscriber port status is restored, and the channel is closed. Constitute a fifth step of shutting off connection between the subscriber port and the target subscriber port.

4 is a memory map for a port status table in accordance with the present invention.

Accordingly, the present invention will be described in detail with reference to the first, third and fourth degrees. 3 is a flowchart of the present invention performed by the CPU 100 of FIG. 1 in detail with reference to FIG. 1. The fourth intermediate section (A) is a part which has been conventionally a part of indicating the state of the port, the section (B) is a part indicating the data transmission state monitoring mode, and the section (C) is effective for recognizing when the data transmission is interrupted. It is a section to allocate time. The CPU 100 reads the state of each port to which the data terminal is connected to the data terminal subscriber circuits 131 to 133 (step 300) and checks whether there is call setting request data (step 301). When there is call setup request data in step 301, the CPU 100 finds the called port corresponding to the call setup request data through the corresponding data terminal subscriber circuits 130-133 (step 302). It is checked whether the call port is busy or in a waiting state (step 303). When the called port found in step 303 is in the standby state, the CPU 100 changes a necessary portion of the state table for the call and called port stored in the memory 120 (step 304). In step 305, a call path between the call port and the called port that requested the call setup is formed by controlling 140. At this time, data communication between the called port and the calling port is performed through the switch circuit 140. In the step 304, if the necessary part of the status table of the call and called port is changed, not only the state of the conventional port but also the data transmission state monitoring mode and the valid time for the release determination are set. When the called port is in a call state in step 303, the CPU 100 sends a busy message to the call port through the switch circuit 140 and the data terminal subscriber circuit, and then ends the call processing operation (step 306). ).

After performing step 305, the CPU 100 checks whether a data transmission state test mode is set in the port state table stored in the memory 120 (step 307). When the data transmission state test mode is set in step 307, the CPU 100 sets the validity time by setting the release determination time value stored in C of FIG. 4 in FIG. Step 1) It is checked whether there is data being transmitted between the call port and the called port through the switch circuit 140 (step 308-2). If there is no data being transmitted in step 308-2, the CPU 100 decreases the validity period by one second from the port state table stored in the memory 120 every second (step 309), and then the valid time is 0. If it is not OK, it returns to step 308-2 (step 310). On the other hand, if the data transmission state test mode is not set in step 307, the CPU 100 checks whether call release request data is input from the subscriber port, and returns to step 308-2 if it does not enter (3101). step). When the valid time is 0 in step 310 or when the call release request data is input in step 311, the CPU 100 is changed in the state table of the changed call and called port on the memory 120. After changing the part back to its original state (step 312), the switch circuit 140 is controlled to close the communication path formed between the call and the called port (step 313).

As described above, the present invention has the advantage of increasing the use efficiency of the call path by checking the presence or absence of data transmitted after establishing a call, and the advantage of improving the use efficiency of a few common resources.

Claims (1)

A call processing method of a data exchange apparatus, comprising: a first process of finding a port of a partner subscriber required for a call setup request of a subscriber and checking whether the connection is possible; And a second step of checking whether or not the data transmission state monitoring of the pressurizer port is set; and in the second step, the data transmission state monitoring mode is set to transmit data to the communication path during the temporary valid time set by the operator. A third process of checking whether the operation is interrupted, and if the test mode is not set in the second process or if the data transmission is still in progress in the third process, waiting until the call release request data is received. When the data transmission is interrupted in the fourth process and the third process, or when the call release request data is received in the fourth process, Wu and restoration of the changes to the subscriber port is closed, and the speech method that is characterized by consisting of a fifth step of shutting off connection between the subscriber port and the target subscriber port.

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