KR20000002605A - Method for monitoring base station controller processor state of base station manager - Google Patents

Abstract

PURPOSE: A method for monitoring a base station controller processor state of a base station manager is described, which can correctly and periodically monitor each processor state by monitoring each of the processor states step by step to accord data between the base station controller and a base station processor with a transmitted practical hardware feature. CONSTITUTION: The method passes through a gateway CDMA(code division multiple access) interconnection network and a local CDMA interconnection network in this order, periodically transmitting state monitoring data to a base station call control processor or a base station alarm control processor. Thus, each state of the processors is monitored step by step. If it is reported that every processor, which is higher than a processor corresponding to transmitted processor state information, is normal when the processor state information is transmitted from the base station controller, the base station manager renews and receives the transmitted data. Thereby, state of each processor can correctly be monitored.

Description

How to monitor the control station processor status in the control station manager

The present invention relates to a control station of a digital mobile communication system such as a cellular control system (DCS) and a personal communication system (PCS) using a code division multiple access (CDMA) method. The present invention relates to a base station manager (BSM), and more particularly to a method of monitoring a state of a main processor in a base station controller (BSC) in a control station manager.

In general, a mobile communication system is a system that can move while receiving a communication service. This general mobile communication system consists of a mobile station, a base station, a control station, a control station manager, and a switching station.

The base station transmits and receives a signal wirelessly with the mobile station to connect the mobile station and the control station. The control station controls the base station to perform signal processing between the base station and the switching station. The control station manager manages the control station. The switching center exchanges the call so that the mobile station can be provided with mobile communication service with another mobile station or with a fixed station in another communication network.

As shown in FIG. 1, the control station controls a local CDMA Interconnection Network (hereinafter referred to as " LCIN ") 31 for connecting between the control station and the base station, and controls all operations related to call processing. The Call Control Processor (hereinafter abbreviated as "CCP") 32 and the Alarm Control Processor (hereinafter abbreviated as "ACP") 33 for controlling all operations related to alarm processing are referred to. It is configured to include.

In more detail the operation of the control station manager in the general mobile communication system as described above, the control station manager (Base Station Manager; BSM) (10) periodically communicates with the control station (Base Station Controller; BSC) 30 The states of the LCIN 31, the CCP 32, and the ACP 33 in the control station are monitored. Therefore, the BSM 10 stores the state of the monitored main processor in a database and displays the monitoring result to the system operator so that the system operator can know.

The data transfer path between the main processors of the BSM 10 and the control station 30 is referred to as a gateway CDMA Interconnection Network (hereinafter abbreviated as "GCIN") in the BSM 10 and the LCIN (of the control station 30). 31 is sequentially passed through which data is transmitted to the CCP 32 or ACP 33.

Referring to the conventional method for monitoring the state of the main processor in the BSC in the BSM as described above.

The BSM 10 sends data to each of the major processors in the BSC to monitor the status of the major processors in the BSC 30. Thus, each major processor in the BSC 30 that receives the data from the BSM 10 reports its status to the BSM 10. That is, the BSM 10 transmits inspection data to the GCIN 20 to check whether the GCIN 20 operates normally. In addition, the BSM 10 transmits inspection data to the CCP 32 to check whether the CCP 32 of the control station 30 is in normal operation. Thus, the BSM 10 periodically transmits inspection data for each major processor of the control station 30 to monitor the state of the main processor of the control station 30.

At this time, as shown in FIG. 1, the BSM 10 transmits inspection data to the LCIN 31 to inspect the state of the LCIN 31 in the control station 30, but for inspection of the LCIN 31. The data passes through the GCIN 20 and is transmitted to the LCIN 31 of the control station 30. Therefore, when an error occurs in the GCIN 20, the inspection data of the LCIN 31 cannot be transmitted to the LCIN 31. Therefore, the BSM 10 is reported that the LCIN 31 is actually operating normally, but the LCIN 31 also has an error due to the error of the GCIN 20.

In addition, the BSM 10 transmits inspection data to the CCP 32 and the ACP 33 to check the status of the CCP 32 and the ACP 33 of the control station 30, respectively. In order for the data to be transmitted to the ACP 33, the GCIN 20 between the BSM 10 and the control station 30 must first pass. Data is not transmitted to the ACP 33 respectively. Therefore, even when the error occurs only in the GCIN 20 and the LCIN 31, the CCP 32, and the ACP 33 operate normally, the main processor state monitoring method in the control station of the conventional BSM is GCIN 20, LCIN. (31), the CCP 32 and the ACP 33 both determine that an error has occurred.

As described above, the conventional BSM monitoring method in the control station of the control station cannot accurately determine the state of the main processor of the control station.

Thus, when a report was reported that an error occurred in the main processor of the control station, the system operator had to manually check the state of the main processor of the control station.

In addition, since it takes a long time to pinpoint which major processor of the control station has failed, there is a problem that the system can not be quickly recovered.

Therefore, the present invention has been proposed to solve the conventional problems as described above, and an object of the present invention is to receive the status of the processor by the periodic communication to the main processor in the control station in the control station manager, By storing the state of the processor in the database and receiving the status of the processor for the lower processor only when the upper processor along the data communication path is in a normal state, if the error occurs in the upper processor, the final processor for the lower processor The present invention provides a method for monitoring the status of a control station processor of a control station manager, which enables the control station manager to accurately monitor the state of major processors in the control station.

In order to achieve the above object, the control station processor status monitoring method of the control station manager according to the present invention,

A first step of checking which processor state information is periodically reported by the control station; A second step of updating the GCIN status information of the database with the reported status information if the status information received from the test result is the status information of the gateway network (GCIN); A third step of inquiring state information of GCIN recorded in the database if the state information received from the test result is the state information of a local connection network (LCIN); A fourth step of controlling updating the state information of the LCIN of the database according to the state of the GCIN of the database queried in the third step; A fifth step of inquiring state information of GCIN and LCIN recorded in the database if the state information received from the inspection result report is state information of a call processing control unit (CCP) or an alarm processing control unit (ACP); According to the state of GCIN and LCIN of the database queried in the fifth step, the sixth step of controlling updating the status information of the CCP or ACP of the database is characterized in that the method configuration.

1 is a block diagram of a control station manager and a control station to which the present invention is applied;

2 is a flowchart illustrating a control station processor status monitoring method of a control station manager according to the present invention;

<Explanation of symbols for main parts of the drawings>

10: control station manager 20: gateway network

30: control station 31: local connection network

32: call processing control unit 33: alarm processing control unit

Hereinafter, the control station processor status monitoring method of the control station manager according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a system block diagram to which the present invention is applied.

As shown therein, the BSM 10 performs operation management and maintenance functions of the base station and the control station 30-n. The GCIN 20 routes between the BSM 10 and the twelve control stations 30-n and is located at the first control station 30. The LCIN 31 is connected to and routed to the processors in the control station 30 and the base station. The CCP 32 performs call processing control of the control station 30, and the ACP 33 detects and reports hardware alarms of various processors in the control station 30 to the BSM 10.

Among the BSMs and twelve control stations configured as described above, a method of monitoring the state of the main processor of the first control station 30 in the BSM will be described here. The same is true for monitoring the status of the main processors of other control stations in the BSM.

2 is a flowchart illustrating a control station processor status monitoring method of a BSM according to the present invention.

As shown therein, a first step (ST11-ST14) of checking which processor state information is periodically reported by the control station from the processor; A second step (ST15) of updating the state information of the GCIN of the database with the reported state information of the GCIN when the state information received from the test result is reported; A third step (ST16) of inquiring state information of GCIN recorded in the database if the state information received from the test result report is LCIN state information; A fourth step (ST17) of controlling recording of status information of the reported LCIN to the database according to the state of the GCIN of the database queried in the third step (ST16); A fifth step (ST18) of inquiring state information of GCIN and LCIN recorded in the database if the state information received from the inspection result report is state information of CCP or ACP; According to the state of the GCIN and LCIN of the database in the fifth step (ST18), it consists of a sixth step (ST19) for controlling to record the status information of the reported CCP or ACP in the database.

The fourth step ST17 may include: recording state information of the reported LCIN in the database when the state of the GCIN of the database queried in the third step ST16 is normal; If the state of the GCIN of the database queried in the third step ST16 is not normal, the database is not updated.

The sixth step ST19 may include: recording state information of the reported CCP or state information of the ACP in the database if both GCIN and LCIN of the database queried in the fifth step ST18 are normal; If any one of the GCIN and LCIN of the database queried in the fifth step (ST18) is not normal, it is configured to maintain the state reported in the previous cycle without updating the database.

The control station processor status monitoring method of the control station manager according to the present invention configured as described above will be described in detail as follows.

First, the control station manager (BSM) 10 periodically transmits data to the control station 30 to check the state of the main processor of the control station 30. This data is sequentially passed through the GCIN 20 and the LCIN 31 and transmitted to the CCP 32 or the ACP 33.

The control station 30 then periodically reports the status of each major processor to the BSM 10.

The BSM 10 receives the state information of each main processor periodically reported from the control station 30. The BSM 10 periodically checks which processor state information is periodically reported.

As a result of the check, if the status information reported from the control station 30 is the status information of the GCIN 20, the status information of the reported GCIN 20, and the BSM 10 is the GCIN 20 on the database provided therein. It updates the status information of the and displays the status information of the reported GCIN 20 so that the system operator can know (ST15).

Subsequently, processor status information is continuously reported from the control station 30. If the status information is the status information of the LCIN 31, the BSM 10 inquires the status information of the GCIN 20 of the database provided therein ( ST16). As a result, if the state information of the GCIN 20 recorded in the database indicates that the GCIN 20 is in a normal state, the BSM 10 records the state information of the LCIN 31 reported in the current cycle in the corresponding area of the database. (ST17) (ST15).

However, when the GCIN state information query result of the database indicates that the state of the GCIN 20 is abnormal, the BSM 10 does not record the reported state information of the LCIN 31 in the database. Thus, when an error occurs in the GCIN 20, the BSM 10 maintains the state information of the LCIN 31 that was monitored in the previous cycle. As a result, when an error occurs in the GCIN 20, the system operator may know that the LCIN 31, which is a lower processor of the GCIN 20, is in a normal state.

After that, if the status information of the processor reported from the control station 30 is the status information of the CCP 32 or the ACP 33, the BSM 10 sends the status information and the LCIN of the GCIN 20 recorded in the database. Status information of 31 is inquired (ST18). Therefore, it is checked whether the GCIN 20 and the LCIN 31, which are higher processors than the CCP 32 and the ACP 33, are in a normal state. As a result, if both the GCIN 20 and the LCIN 31 are in a normal state, the BSM 10 records the state information of the CCP 32 or ACP 33 reported in the current cycle in the corresponding area of the database. Thus, the status information of the CCP 32 or ACP 33 recorded in the database is updated, and the status information of the CCP 32 or ACP 33 is displayed to the system operator (ST19).

However, if the BSM 10 inquires the states of the GCIN 20 and LCIN 31 recorded in the database, and if either GCIN 20 or LCIN 31 is not normal, the BSM 10 The state information of the CCP 32 or ACP 33 reported in the cycle is not recorded in the database. If the GCIN 20 or the LCIN 31 is not normal, no data is transmitted from the BSM 10 to the CCP 32 or the ACP 33 of the control station 30, so that the BSM 10 receives the CCP 32. ) Or ACP 33 is reported as not normal. However, the CCP 32 and the ACP 33 are not reported as abnormal because they actually generate an error, but an error occurs in the GCIN 20 or the LCIN 31 which are the higher processors of the CCP 32 and the ACP 33. It is reported as abnormal.

Therefore, the BSM 10 does not update the status information of the CCP 32 or ACP 33 reported as abnormal in the database for accurate monitoring of the CCP 32 or ACP 33 of the control station 30. . Therefore, the BSM 10 can accurately grasp the state of the main processor of the control station 30 by maintaining the state information of the CCP 32 or the ACP 33 that has been normally reported in the previous cycle in the database.

As described above, the present invention monitors the state of each processor step by step to match the actual hardware shape in which data is transmitted, so that the state of each processor of the control station can be accurately and individually identified.

In addition, the present invention can be applied not only when the control station manager grasps the state information of the main processor of the control station but also accurately monitors the state of the main processor operating in the subsystem of the digital mobile communication system.

As described above, in the control station processor state monitoring method of the control station manager according to the present invention, when the BSM reports the state of the processor through periodic communication with the main processor in the control station, the state of each processor It is possible to accurately monitor the state of each processor inside the control station by storing the data in a database and receiving and reporting the state of the processor below only when the upper processor is in a normal state.

In addition, the present invention can accurately determine whether or not the normal state for each processor in the control station, there is an effect that can immediately recover the processor in an abnormal state.

Claims (3)

In the method of monitoring the state of the main processor of the control station in the control station manager, A first step of checking which processor state information is periodically reported by the control station; A second step of updating the GCIN status information of the database with the reported status information if the status information received from the test result is the status information of the gateway network (GCIN); A third step of inquiring state information of GCIN recorded in the database if the state information received from the test result is the state information of a local connection network (LCIN); A fourth step of controlling updating the state information of the LCIN of the database according to the state of the GCIN of the database queried in the third step; A fifth step of inquiring state information of GCIN and LCIN recorded in the database if the state information received from the inspection result report is state information of a call processing control unit (CCP) or an alarm processing control unit (ACP); And monitoring the control station processor status of the control station manager according to the fifth step of controlling updating of status information of the CCP or ACP of the database according to the states of the GCIN and LCIN of the database queried in the fifth step. Way. The method of claim 1, wherein the fourth step, If the state of the GCIN of the database queried in the third step is normal, recording the reported state information of the LCIN in the database, and updating the state information of the LCIN of the database; If the state of the GCIN of the database queried in the third step is not normal, the control station comprising the step of maintaining the state information of the LCIN recorded in the database in the previous cycle as it is, and not updating the state information of the LCIN How to monitor the control station processor status of the manager. The method of claim 1, wherein the sixth step is If both the GCIN and LCIN of the database queried in step 5 are normal, the state information of the reported CCP or the state information of the ACP is recorded in the database to update the state information of the CCP of the database or the state information of the ACP. Steps; If any one of the GCIN and LCIN of the database queried in the fifth step is not normal, it is configured to maintain the state reported in the previous cycle without updating the state information of the CCP or the ACP of the database; A control station processor status monitoring method of a control station manager.