KR20000065355A - Command processing method of the digital mobile communication system - Google Patents

Abstract

PURPOSE: A method for processing an instruction in a digital mobile communication system is provided to efficiently use a resource of a system by performing a stand-by station during an optimum time. CONSTITUTION: A maximum response stand-by time is shortly performed(ST1), and a system for receiving a request of a command process performs an intermediate information during a process of a command(ST2). A BSM repeatedly starts a response time count while receiving an intermediate response information(ST3). The system for receiving the request of the command process performs a result information to the BSM when all processes are completed(ST4). The BSM for receiving the result information outputs the received result.

Description

Command processing method of the digital mobile communication system

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication system, and more particularly, to a method for processing a command in a digital mobile communication system, which makes it possible to efficiently use resources of a system by always waiting for an optimum time according to each command.

In the conventional command processing method, when a command is issued by an operator as shown in FIG. 1, the BSM analyzes the command, transmits the analyzed command to the system to process the command, and waits for a response of the command (ST1).

The system receiving the command processes the command and sends the result to the BSM (ST2).

The BSM waiting for a response reports the progress to the operator after receiving the response of the command (ST3).

In addition, as shown in FIG. 2, if no response is received from the system until the maximum response wait time ST4, the operator reports a time-out error (ST5).

The maximum response wait time is a predetermined process value based on the longest command among all commands.

However, in the prior art as described above, there are the following problems.

If there is a problem with the system and cannot respond, the BSM always waits until the maximum response wait time to determine if a time-out error command occurs.

That is, since the processing time varies depending on each command in the mobile communication system and the exact processing time cannot be predicted, there is a problem of waiting the longest estimated time to determine whether the command is processed successfully.

In addition, if an unexpected overload occurs in the system and the instruction processing is delayed, the system may respond later than the maximum wait time.

At this point, the BSM does not receive a response from the system because it has already reported the timeout error to the operator.

The present invention has been made to solve such a conventional problem, and an object of the present invention is to receive a periodic-polling signal shorter than the maximum wait time periodically from the system until the maximum wait time is short and the processing of the command is completed. The present invention provides a method for processing a command in a digital mobile communication system that waits for a command response as long as a polling signal comes and generates a timeout error when the polling signal does not come for a maximum waiting time.

1 is a view for explaining a command processing method in a conventional normal case

2 is a view for explaining a command processing method in the conventional abnormal case

3 is a diagram illustrating a command processing method in a normal case according to the present invention.

4 is a diagram illustrating a command processing method in an abnormal case according to the present invention.

5 is a BSM operation flow chart of the present invention

6 is a flow chart of the system of the present invention.

In order to achieve the above object, the present invention provides a first step in which the maximum response waiting time is shortened, and the system which is requested to process the command periodically makes an intermediate report to the BSM while processing the command. When the received BSM receives this intermediate response report, the second step of restarting the response time count, the third step of reporting a result to the BSM when all processing is completed in the system that is requested to process the command from the BSM, receives the result report. In order to process the command by performing the fourth step of outputting the result reported by the operator to the BSM, in case of abnormality, if the intermediate report or the result report from the system does not come within the response waiting time, the BSM immediately reports the timeout error to the operator. This is done by processing the command.

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

3 is a view for explaining a command processing method in the normal case of the present invention, Figure 4 is a view for explaining a command processing method in the abnormal case of the present invention.

First, as shown in FIG. 3, the maximum response waiting time is shortened (ST1), and the system which is requested to process the command periodically makes an intermediate report while processing the command (ST2).

Therefore, the BSM receiving the intermediate report restarts the response time count each time the intermediate response report is received (ST3).

The system, which is requested to process the command, reports the result to the BSM after all processing (ST4).

Then, the BSM receiving the result report responds by outputting the result reported to the operator.

In an abnormal case, as shown in FIG. 4, if an intermediate report or a result report does not come within a response waiting time, a BSM immediately reports a time out error to the operator (ST5).

Therefore, in the present invention, because the maximum response waiting time is shortened, if a response does not occur due to a problem in the system, it can be quickly reported to the operator, even if the processing time of the command changes depending on the status of the command or the system. In response, correct results can be reported to the operator.

5 is a flowchart illustrating the operation of the BSM unit of the present invention, when a command processing request is made to a sub-system when an operator command is input, a timer is set to start operation of the timer (steps S1-S3).

Subsequently, if the response is not received by waiting for the subsystem response for n sec and outputting a time-out error, the process ends (steps S4 and S5).

However, if a response is received, the response is analyzed, and if the periodic report goes to step S3, if the response is a command processing result, the command result is output and ends (steps S6 and S7).

FIG. 6 is a flowchart illustrating an operation of a subsystem, and when receiving a command processing request message from a BSM, generates a periodic message report and a thread (steps S10 and S11).

Subsequently, the command is processed to terminate the periodic message reporting and tread and transmit the processing result to the BSM (steps S12 to S14).

In step S11, the periodic message report tread is transmitted to the BSM and sleeps for n sec (steps S15-S17).

As described above, the present invention can quickly detect a problem when a command and processing of a command are not possible due to a system failure between commands requiring various processing time, and an instruction processing is expected due to an overload of the system processing the command. If it is delayed, there is an effect that it can be properly received without losing the treatment result.

In addition, the present invention is applicable not only to mobile communication systems but also to all systems having commands to be processed between various systems.

Claims (3)

In the normal case, the first step is to shorten the maximum response waiting time, and the system requesting the command processing periodically makes an intermediate report to the BSM during the processing of the command; Receiving the intermediate report, the second step of restarting the response time count each time the intermediate response report is received; A third step of reporting a result to the BSM when all processing is completed in the system that is requested to process the command from the BSM; The BSM that received the result report processes the command by performing the fourth step of outputting the reported result to the operator. In an abnormal case, if the intermediate report or the result report from the system does not come within the response waiting time, the BSM processes the command to report a timeout error to the operator immediately. The timer setting step of claim 1, wherein the BSM sets a timer when an operator command is input to operate the timer, waits for a sub-system response for n sec, analyzes the response when the response comes, and performs a timer setting step when the response is a periodic report. And outputting a command result when the response is a command processing result. The method of claim 1, wherein the system generates a periodic message report and a tread when receiving a command processing request message from a BSM, processes a command, and transmits a processing result to the BSM. Way.