KR100313927B1 - method for controlling state of base-station processor - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to mobile communications, and more particularly, to a method of controlling the state of a base station processor by a response-verification process (hereinafter abbreviated as answer-back) between a control station and a base station in a mobile communication system.

In contrast, the present invention provides a method of controlling a state of a base station processor suitable for matching a state between a processor of a control station and a base station by checking whether the base station is normally operated by performing a answer-back between the control station and various base stations. A method of controlling a state of a base station processor to efficiently operate a call resource of a base station by detecting an abnormality in a connection section (Tx, Rx) between the control station and the base station by performing a answer-back between the control station and several base stations. to provide.

Description

Method for controlling state of base-station processor

TECHNICAL FIELD The present invention relates to mobile communications, and more particularly, to a method of controlling a state of a base station processor by a answer-back between a control station and a base station in a mobile communication system.

In general, mobile communication systems include several base stations that coordinate wireless communication between mobile stations at various locations, and a base station controller that controls these base stations.

In the base station, there are a plurality of channel elements (channel elements) as call resources, and a processor (BSP: Base-station Processor) and other processors for controlling them for call processing. Also within the control station is a call control processor (CCP) and other processors, among which the call processing processor (CCP) acts as a master (master) to control the status of various processors in the base station, When a failure is detected in this process, it has a function of notifying the base-station manager (BSM).

The following describes a procedure for controlling the state of a base station processor in a mobile communication system.

Conventionally, the state of the base station processor is controlled by performing a answer-back between the control station and several base stations, so that the state between the control station and the base station processor is matched. 1 illustrates a state control procedure of the base station processor.

1 is a flowchart illustrating a state control procedure of a base station processor according to the prior art.

1 is a state control procedure performed between the control station 10 and one base station 20, and in general, state control targets several base stations.

First, the control station 10 periodically requests an answer-back from the base station 20 (S1), and the base station 20 receiving the request transmits an answer-back message to the control station 10 (S2).

Thereafter, the control station 10 determines whether or not to receive the answer-back message for the answer-back requested by the user (S3).

Here, if the control station 10 receives the answer-back message from the base station 20, the control station 10 again searches the state database storing the previous state control results and records the current state of the base station higher processor as normal. It is determined whether or not it is recorded as abnormal (S4). At this time, if the state of the base station higher processor recorded in the state database is abnormal, the state of the base station higher processor is changed to normal and at the same time, the control station 10 notifies the operation manager (BSM) of the change (S5). If it is recorded as normal, the process returns to the initial step of periodically requesting the answer-back to the base station 20.

However, if the control station 10 has not received the answer-back message from the base station 20, the control station 10 has not received the answer-back message so far for the periodically requested answer-back. It is determined whether the threshold value or more is set in advance (S6). At this time, if the number of unreceived answer-back messages exceeds the threshold, the control station 10 searches the state database storing the previous state control result again and checks whether the current state of the base station higher processor is recorded as normal. Otherwise, it is determined whether it is recorded abnormally (S7). At this time, if the state of the base station processor recorded in the state database is normal, the state of the base station high processor is changed to abnormal and at the same time, the control station 10 notifies the operation manager (BSM) of this change (S8). If it is recorded abnormally, the process returns to the initial stage of periodically requesting the answer-back to the base station 20. Of course, even if the number of non-receipts of the answer-back message does not exceed the threshold, the base station 20 returns to the initial step of periodically requesting the answer-back.

State control of the base station processor is achieved by the procedure described so far.

However, when the Tx section from the control station to the base station is normal and the Rx section from the base station to the control station is abnormal among the connection period between the control station and the base station, even if the base station is normally operated, the call resources in the base station are normally used. In this case, call resources in the base station must be isolated.

In this situation, in the conventional state control described above, since there is no procedure for the base station to check whether the Rx section is abnormal to the control station, call resources of the base station cannot be isolated.

In addition, when inter-processor communication (IPC) for reporting a state change of the base station processor to the control station is lost, a case may occur where the state between the processor of the specific base station and the control station is inconsistent.

An object of the present invention has been devised in view of the above, and is a base station processor suitable for matching the state of the processor of the control station and the base station by performing the answer-back between the control station and the various base stations to check the normal operation of the base station; It provides a state control method.

Another object of the present invention is to perform an answer-back between a control station and several base stations to detect an abnormality in the connection section (Tx, Rx) between the control station and the base station, so as to efficiently operate the call resources of the base station. A state control method of a base station processor is provided.

A feature of the method for controlling a state of a base station processor according to the present invention for achieving the above objects is that the control station periodically requests a response-back process (hereinafter referred to as answer-back) to the base station, and the answer at the base station; quarantine control of the call resources according to whether or not a -back request is received, and then transmitting status information of the base station processors to the control station together with the answer-back message, and receiving the answer-back message from the control station. And changing the state of the base station higher processor stored in the state database, and notifying the operation manager of the state change of the base station higher processor.

Preferably, the control station transmits to the base station previous state information of the base station higher processor which is stored in its state database with the answer-back request. At this time, the base station isolates the call resource when the previous state information on the base station higher processor received with the answer-back request from the control station is abnormal, and also the answer-back request for a predetermined time from the control station If not received, isolate the call resource.

In addition, when the control station receives the answer-back message from the base station, the control station updates the state database for the base station processors based on the state information of the base station processors received with the answer-back message.

1 is a flowchart illustrating a state control procedure of a base station processor according to the prior art.

2 is a flowchart illustrating a state control procedure of a base station processor according to the present invention.

* Description of the symbols for the main parts of the drawings *

100: control station 200: base station

Hereinafter, a preferred embodiment of a state control method of a base station processor according to the present invention will be described with reference to the accompanying drawings.

In the present invention, in order to check whether the base station is in normal operation, answer-back is performed between the control station and several base stations.

In the present invention, when the control station requests the answer-back, the control station transmits the status information about the base station higher processor stored in the state database of the control station with the answer-back request to the base station, thereby causing the base station to receive the Rx interval (base station). It shall be possible to isolate the call resources depending on the abnormality of the connection section from the control station to the control station. On the other hand, if the base station does not receive the answer-back request from the control station for a certain time, it detects that an error has occurred in the Tx section (connection section from the control station to the base station) and isolates the call resource.

In addition, in the present invention, the base station sends the status information of the processors in the base station with the answer-back message for the answer-back request of the control station.

Next, a state control procedure of the base station processor is shown in FIG.

2 is a flowchart illustrating a state control procedure of a base station processor according to the present invention.

2 is a state control procedure performed between the control station 100 and one base station 200.

First, the control station 100 periodically requests answer-back from the base station 200 (S10). At this time, the control station 100 also sends the base station 200 the status information of the base station higher processor stored in the state database in the control station 100 with the periodic answer-back request.

At this time, the base station 200 checks whether the answer-back request is received from the control station 100 (S20). If the answer-back request is received from the control station 100, the base station 200 again returns to the control station ( In operation S30, it is determined whether the state information of the base station higher processor received from the normal is abnormal or abnormal. In this case, if the state of the received base station higher processor is abnormal, the call resource in the base station 200 is isolated (S40), and the state information of the base station processors stored in the state database in the base station 200 is controlled with the answer-back message. It transmits to the station 100 (S60). On the other hand, if the state of the received base station higher processor is normal, it stores in the database of the base station 200 that the answer-back with the control station 100 is normally performed (S50), the base station stored in the state database in the base station 200 Status information of the processors is transmitted to the control station 100 with the answer-back message (S60). Separately, the state information stored in the state database of the base station 200, that is, the information that the answer-back with the control station 100 is normally performed, is used by the processor in charge of resource management of the base station 200 in the isolation state. It is used as basic information to change to possible state.

However, when the base station 200 confirms that the answer-back request is received from the control station 100 (S20), if the answer-back request is not received from the control station 100, the base station 200 periodically answers- It is checked how long there is no back request (S70). That is, it is determined whether the number of times the answer-back request has not been received is greater than or equal to a preset threshold (S70). At this time, the base station 200 isolates the call resources in the base station 200, if the number of unreceived answer-back request exceeds the threshold (S80).

In the above procedure, when the base station 200 transmits an answer-back message to the control station 100 together with the state information stored in its state database (S60), the control station 100 responds to the request-back requested by the base station 200. It is determined whether or not to receive the answer-back message for (S90).

If the control station 100 receives the answer-back message from the base station 200, after updating the stored contents of the state database in which the state information of the base station processors is stored (S100), the control station 100 again transfers The state database storing the state control result is searched to determine whether the current state of the base station higher processor is recorded normally or abnormally (S110). At this time, if the state of the base station higher processor recorded in the state database is abnormal, the state of the base station higher processor is changed to normal and at the same time, the control station 100 notifies the operation manager (BSM) of the change (S120). If it is recorded as normal, the process returns to the initial step of periodically requesting the answer-back to the base station 200.

However, if the control station 100 does not receive the answer-back message from the base station 200, the control station 100 may not receive the answer-back message until the answer-back periodically requested. It is determined whether the threshold value or more is set in advance (S130). At this time, when the number of unreceived messages of the answer-back message exceeds the threshold, the control station 100 searches the state database storing the previous state control result again and checks whether the current state of the base station higher processor is recorded as normal. Otherwise, it is determined whether it is recorded abnormally (S140). At this time, if the state of the base station higher processor recorded in the state database is normal, the state of the base station higher processor is changed to abnormal and at the same time, the control station 100 notifies the operation manager (BSM) of the change (S150). If it is recorded as abnormal in the return to the initial step of periodically requesting the answer-back to the base station 200. Of course, even if the number of non-receipts of the answer-back message does not exceed the threshold, the base station 200 returns to the initial step of periodically requesting the answer-back.

State control of the base station processors is performed by the procedure described so far, and it is checked whether the base station is in normal operation.

As described above, according to the method for controlling a state of a base station processor according to the present invention, by performing a answer-back between a control station and several base stations, it is possible to detect an abnormality in connection sections (Tx, Rx) between the control station and the base station. As a result, call failure that may occur due to an abnormal connection section between the control station and the base station can be prevented. Accordingly, reliability of the overall performance of the communication system can be secured.

In addition, when performing a back-up between a control station and several base stations, the base station transmits not only the answer-back message but also the status information of the processors in the base station for the answer-back request of the control station to periodically check the state of the processors in the base station. Since it can be updated, even if the interprocessor communication (IPC) for reporting the state change of the base station processor to the control station is lost, it is possible to prevent the state mismatch between the processor of the specific base station and the control station.

Claims (4)

The control station periodically requesting a response-back process (hereinafter, "answer-back") from the base station; Performing isolation control on call resources according to whether the answer-back request is received by the base station, and then transmitting status information of the base station processors to the control station along with the answer-back message; Changing a state of a base station higher processor stored in a state database according to whether the control station receives the answer-back message; And the control station notifying an operation manager of the state change of the base station higher processor. 2. The method of claim 1, wherein the control station transmits previous state information of the base station higher processor stored in its state database with the answer-back request to the base station. The method of claim 2, wherein the base station isolates call resources when the previous state information of the base station higher processor received with the answer-back request from the control station is abnormal. . 2. The method of claim 1, wherein the control station updates the state database for the base station processors based on the status information of the base station processors received with the answer-back message as the answer-back message is received from the base station. A state control method of a base station processor, characterized in that.