KR930010284B1 - Maintenance method in electronic exchange - Google Patents

Abstract

The method includes the first step (401 to 403) for inputting an instruction word for initializing the system and controlling a conversational procedure control from user, the second step (404,405) for analyzing grammar and meaning of inputted instruction word after the above first step, the third step (406,407) for supplying an efficient conversation procedure according to the above instruction word after the above second step, the forth step (408 to 412) for actually operating the instruction word and deciding an effectiveness if the operation is reasonable after the above third step, the fifth step (413,414) for outputting the operated result to user after the above forth step.

Description

Operator Matching Method of Signal Relay Switching System

1 is a hardware configuration to which the present invention is applied.

2 is an overall software configuration to which the present invention is applied.

3 is an operator matching software configuration diagram according to the present invention.

4 is an overall flowchart of an operator registration method according to the present invention.

5 is a flowchart of a conversation procedure control of the present invention.

6 is an instruction analysis flowchart of the present invention.

7 is a flowchart illustrating a command execution control of the present invention.

8 is a flow chart of the conversation support of the present invention.

9 is an output message control flowchart of the present invention.

* Explanation of symbols for main parts of the drawings

101: operation management computer 102: system connection subsystem

103, 301: Signal Switching System

201, 302: operator matching function block in operation management computer

202: other function blocks in the operation management computer

203 Message Subsystem Subsystem 204 Signal Network Management System

303: conversation procedure control function unit 304: conversation support function unit

305: command analysis function unit 306: output message control function unit

307 command execution control function unit

The present invention relates to an operator matching method of a signaling relay switch system.

In order to provide an appropriate dialogue procedure between the signaling exchanger and the operator, it should be designed to include menu selections, help, etc. to be familiar with the signaling exchanger SMX-1 (Signalling Message Exchange No.1) system. As the signal relay exchange improves and requires reliability, multiple windows, formatters, command file configuration, operation history recording, and graphic output functions should be designed.

Accordingly, the present invention provides an operator matching method that maintains the familiarity with the system by preventing malfunctions caused by the lack of expertise of the operation personnel by providing a service for various types of operation management, which requires higher technology and higher reliability than the present. For the purpose of providing it.

In order to achieve the above object, the present invention includes a signal relay exchange to which operator matching is applied, an operation management computer for operating and managing the signal relay exchange, and a system connection subsystem for connection between the operation management computer and the signal relay exchange. In the operator matching method of the system configured to, the first step of initializing the system and inputting a command for dialogue procedure control from the operator, the second step of performing a grammar and semantic analysis on the input command after performing the first step A third step of supporting an efficient conversation according to the command after the second step is performed; a fourth step of determining that the command is actually executed after execution of the third step and that the execution is valid; After performing step 4, it is characterized in that performed by the fifth step of outputting the execution result to the operator.

A first step of initializing the system and inputting a command, a second step of performing grammar and semantic analysis on the input command, a third step of actually executing the command, a fourth step of supporting an efficient conversation according to the command, And a fifth step of outputting the execution result to the operator.

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

1 is a hardware configuration diagram to which the present invention is applied, where 101 is an operation management computer, 102 is a system connection subsystem, and 103 is a signal relay switch system.

In the hardware to which the present invention is applied, as shown in FIG. 1, the signal relay switch system includes a system connection sub-system 102 for connecting a system with an operation management computer 101 for operation management and an operator matching. It consists of a signal relay exchange system (103).

2 is an overall software configuration to which the present invention is applied, 201 is an operator matching function block, 202 is a function block of an operation management computer, 203 is a message transfer unit subsystem, and 204 is a signal network management unit system. In general, the operation management subsystem is in communication with the message delivery unit subsystem 203 of the signal relay switch system and the signal network manager system 204 for managing a plurality of signal relay switch systems. The lower systems of these signaling relay exchanges communicate with the function blocks 202 present in the operation management subsystem, and finally with the operator managing the system through the operator matching 201 function block.

3 is a configuration diagram of operator matching software according to the present invention, 301 is a signal relay switch system, 301 is an operator matching function block, 303 is a conversation procedure control function unit, 304 is a conversation support function unit, 305 is a command analysis function unit, 306 denotes an output message control function unit, and 307 denotes an instruction execution control function unit.

The operator matching software includes a dialogue procedure control function unit 303 which performs dialogue procedure control, start and end of conversation sessions, creation and destruction of operator registration processes, and timeout processing of sessions, as shown in FIG. Command analysis function unit 305 for semantic checking and analysis, format for providing operator convenience, and dialog support function unit 304 for configuring and processing menu / form / help forms, and providing a matching function for application programs. Command execution control function unit 307 for receiving command from the command transfer / command execution status and receiving the output message from related functions and responding to the command execution status inquiry, and receiving and outputting the error / status / alarm function And spooling and prioritizing output, inhibiting and resuming specific message output, and efficient distribution and output of graphical messages. An output message, the control unit 306 that the type of configuration.

Various data are processed by the signal relay switch internal system 301 in the command execution control function unit 307 in the operator matching function block 302, and the commands input by the operator are first transmitted through the dialog procedure control function unit 303. Syntax and semantic checks are received from the command analysis function unit 305. At this time, the conversation support function unit 304 provides help and menu selection functions so that an operator can conveniently use the system. Thus, the result processed in the command execution control function unit 307 is reported to the operator via the output message function unit 306.

4 shows an overall flowchart of an operator registration method according to the present invention. When the operation management computer is turned on (401), once the system is initialized and downloaded (402), the operator inputs an operation command (403). The input command is analyzed grammar and semantics in the command analysis function unit (404) and the appropriate examination of the command (405). At this time, when the input of the correct command is determined, a menu / form / help form is output (406), which is checked for feasibility for execution in the system (407, 408, 409) (410, 412), and the execution result is output (423,414,415). If not valid (411) it is repeated again.

5 is a flowchart illustrating a conversation procedure control according to the present invention.

When power is turned on (501) while the management computer is powered off (501), the devices are initialized (503) to link and activate all processors (505). If the system is unstable, the device is powered down (504), the processor terminates and the link is switched (506), receives a termination process signal, and waits (512, 515).

When the process of the dialog procedure control function unit is generated by outputting the information process signal (507), various processes for providing the user information signal, the device status request, the process status request, the fault status request, and the termination process signal are simultaneously formed (508, 509, 510, 511 and 512). .

When the user information signal is received (508) retrieves the input character form (513) and outputs the device status request, process status request, fault status request according to the input character form (516, 517, 518), call the time check procedure and It waits to check the state (520, 521).

6 is a flowchart of command analysis of the present invention.

The data input from the conversation procedure controller (601) is classified into token units to perform a procedure for syntax and semantic analysis (602, 603), and the result is notified to the operator, and the data generated by each procedure is transmitted to the corresponding functional unit. Data is transmitted to be performed at (604, 605, 606, 607), the string input from the operator is classified and stored in token units, and the input characters are echoed (608, 609, 610, 611, 612, 613, 614, 615, 618). That is, when the information process signal is input (605), the state of the information process signal is retrieved (608), the instruction is executed and prohibited, enters into a conversation state (614), and when the user information signal is input (606), the input information is retrieved ( 609) Store a token, print out message information and screens, and enter into a conversation state (615, 618). Each procedure syntax and meaning is checked for validity (613) and the result is output to the operator (616, 617, 619, 620, 621, 622, 623, 624). And generates the information of the input command.

7 is a flowchart illustrating a command execution control of the present invention.

When the process creation request is generated as the conversation procedure control function unit (706) after being generated (702, 704) with the operation start (701), the main process is generated (step 708, 709, 710). When a process extinction request is received from the interactive procedure control function unit, the process extinction signal is waited for by the corresponding function unit or process. Controls the management and execution of commands received from the command analysis function unit (710, 711, 713), generates one execution result for every command, and saves and updates the command processing result in a table to control the status information when querying the command status. Transfer to the functional unit (712, 714, 715).

8 is a flowchart illustrating a conversation support according to the present invention.

When a process is received from the conversation procedure control function unit 801, the process is created and destroyed (802 to 806), and information about the process is notified to the conversation procedure control function unit. The main function receives a conversation support execution request 807 from the command analysis function unit and retrieves a screen state (809) to find a processing unit, that is, a menu type procedure, a form type procedure, and a help type procedure according to the function (809, 810, 811). . When the execution request signal is output (812, 813, 814) and the menu function is generated (816, 817, 818), the menu screen is started, the corresponding menu is searched for and outputted, and the menu selection input is waited for (812, 822, 823, 826, 827, 828, 829, 830, 831, 835, 837, 837). The help function generates a help screen and finds and outputs the corresponding help information (820, 825, 832). When the execution is completed, the menu screen is terminated (819,824).

9 is an output message control flowchart of the present invention.

When the process creation request is received from the dialog procedure control function unit after being generated 903 together with the operation start 901, a process for spooling and screen control is generated (904 and 905). The main function receives the execution result for each command from the instruction execution control function unit (906, 907, 908), reconstructs the message, and sends the output result to the spooling process (909, 910, 911). When a message is received to transmit a message to an output device, the message is placed in a message spool (913,914,915), and when the output device transitions to the standby state, the message in the spool is transmitted to the conversation procedure control function unit (916).

Therefore, the present invention configured and operated as described above aims to maximize the convenience of the operator in terms of operation management and maintenance of the signal relay switch system, and maximizes the operational efficiency during the system operation and prevents malfunction of the operator in advance, thereby improving the efficiency of the system. Reliability can be assured as much as possible. In particular, operator matching provides a direct communication channel between humans (operators) and computers (systems), so the effectiveness and profitability of addition / deletion can be guaranteed for efficient operation management. have.

Claims (5)

A signal relay exchange 103 to which operator matching is applied, an operation management computer 101 for operating and managing the signal relay exchange 103, and a system for connection between the operation management computer 101 and the signal relay exchange 103. An operator matching method for a system comprising a connection subsystem (102); A second step of initializing the system and inputting a command for dialogue procedure control from an operation site (401 to 403), and performing a grammar and semantic analysis on the input command after performing the first step (401 to 403) 404, 405, after performing the second step (404, 405), after the third step (406, 407) and the third step (406, 407), which supports efficient conversation in accordance with the command, the command is actually executed, if valid And a fifth step (413, 414) of outputting an execution result to the operator after performing the fourth step (408 to 412) and the fourth step (9408 to 412). The method of claim 1, wherein the conversation process control method in the first step (401 to 403); Operation When the computer is powered off, the devices are initialized to link and activate all processors to output information process signals. If the system is unstable, power off the device, shut down the processor, disconnect the link, and signal the shutdown process. After performing the first processes 501 to 507 and the first processes 501 to 507 to receive and wait, when a process of the conversation procedure control function unit is generated according to the information process signal, a user information signal, a device status request, a process After performing the second process (508 to 512) and the second process (508 to 512) in which various processes for providing a status request, a fault condition request, and an end process signal are simultaneously formed, the user information signal is received. Search for device status request, process status request, fault condition according to input character type A third process (513 to 519) for outputting a request, outputting message information and a screen through a help procedure when a device status request, a process status request, and a fault status request signal are received, and waiting when the end process signal is received; And performing a third process (513 to 519), followed by a fourth process (521, 521) of calling a time check procedure and waiting to check the state. The method of claim 1, wherein the command analysis method in the second step (404,405); Information process to classify data input from conversation procedure control by token unit to perform procedure for syntax and semantic analysis, inform the operator of the result, and execute data generated in each procedure in the corresponding functional unit. First process of outputting a signal (601 to 604) After performing the first process (601 to 604), when the information process signal is input, the second process to search and execute the instructions of the information process signal to inhibit and execute the instruction After the processes 605 to 614 and the first processes 601 to 604, when the user information process signal is input, the user information signal is input, the input information is searched for, a token is stored, and the message information and the screen are output. Enters into a conversational state, checks the validity of each procedure syntax and meaning, and prints the result to the operator. Operator matching method, characterized in that performed by the third process (606 608 to 624) for generating information, the fourth process 607 to terminate when the end process signal is received after performing the first process (601 to 604). . The method of claim 1, wherein the third method (406, 407) supports conversation; Processes for creating and destroying a process when receiving a process creation or destruction request from the conversation procedure control function unit, and notifying the information about the process to the conversation procedure control process (steps 801 to 806), and the first process (801 to 806). After the execution of the command analysis dialog support, the second step (807 to 815) of searching for a screen state by searching for a screen state, searching for a menu type procedure, a form type push procedure, a help type procedure, and outputting an execution request signal and ending an error procedure. After performing the second processes 807 to 815, when a menu function is generated, a menu screen is started, a menu is searched for and printed out, a help and a screen for the help function are generated, the corresponding help information is found, printed, and the execution is completed. The operator registration method, characterized in that performed by the third process (816 to 837) to terminate the menu screen. The method of claim 1, wherein the command execution control method in the fourth step (408 to 412) is performed; The first process (701 to 710) and the first process of generating a main process and notifying the conversation procedure control function unit of the result of the current state when the process creation request is received from the conversation procedure control function unit after being generated with the start of operation. When the process destruction request is received from the dialog procedure control function unit after execution, the process waits for the process destruction signal and controls the management and execution of the command received from the command analysis function unit to generate one execution result for each command. And a second process (711 to 712) for storing and updating the command processing result in a table to transmit the status information to the output message control function unit when the command status query is performed.