KR19990075768A - Redundancy Overhead Channel Management Method of Mobile Communication System - Google Patents

Abstract

According to the present invention, when an error occurs in an overhead channel and the service of a terminal cannot be maintained, a base station operates a redundant overhead channel to perform a normal service between a sector and a cell. Creates a database for the database, initializes the database and each channel, and periodically checks the status of the overhead channel to determine whether the overhead channel is operating normally. Change the database of the corresponding traffic channel to the redundant overhead channel, and operate the initialized traffic channel as the redundant overhead channel.If the overhead channel operates normally, the redundant overhead channel is initialized and the database of the redundant overhead channel By changing the swap to a traffic channel, the redundancy channel initialized as a traffic channel can be maintained to maintain a service state and to solve abnormal operations due to an unexpected error.

Description

Redundancy Overhead Channel Management Method of 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 in which a sector and a cell normally perform a service by operating a redundant overhead channel at a base station when an error occurs in an overhead channel and thus a service of a terminal cannot be maintained. will be.

In general, a mobile communication system is a communication system that targets mobile devices such as people, cars, ships, trains, and airplanes, including mobile phones (mobile phones, vehicle phones), port phones, aircraft phones, and mobile phones (trains, cruise ships). Installed on express buses), radio calls, radiotelephones, satellite mobile communications, amateur radio, and fishing service ships.

1 is a block diagram of a general mobile communication system.

As shown therein, a mobile station (MS) 10 which is operated while moving or stopping at an unspecified point; A base transceiver station (BTS) 20 which receives a call processing request of the terminal 10 and transmits a call transmission request of the control station 30 to the terminal 10; A base station controller (BSC) 30 for controlling signal processing between the base station 20 and the exchange 40; Under the control of the control station 30, the call processing request of the terminal 10 is transmitted to a public telecommunication network (PSTN) or another mobile network and AMPS (Advanced Mobile Phone Service) through a public network or a dedicated network. It was composed of a switch (MSC, Mobile Switching Center) 40 to enable a mobile communication service.

In the general mobile communication system configured as described above, when the subscriber intends to use the mobile communication service while having the terminal 10 within the service radius of the switch 40, the switch 40 is controlled according to the control of the control station 30. The location of the terminal 10 was determined, and a voice / fax information service was performed according to the request of the terminal 10 or connected to another communication network to perform a mobile communication service.

Here, in the PCS (Personal Communication System) and DCS (Digital Communication System) systems, the pilot channel and pilot channel maintain the service state of the terminal of one sector or cell. In PCS and DCS, the system is determined so that only one channel element is assigned, and the code channel corresponding to each of the 64 code channels can be substantially distinguished from each other. Is assigned. The pilot channel is a reference channel for the base station recognition and timing in which the terminal 10 is assigned a code channel 0 and serves as a reference for identifying each sector or cell. The sync channel is assigned with code channel 32 and serves to synchronize initial time synchronization between the terminal and the base station. When the pilot channel and the synchronization channel are allocated one code channel, and the base station 20 initializes each channel element to operate normally, the pilot channel and the synchronization channel are allocated to one channel for this channel. It operates to service each sector and cell.

Up to seven paging channels can be used in one sector or cell, but usually only one channel is used, and code channels can use 1 to 7 codes. The paging channel services the shape information of the base station 20, the reverse information of the terminal 10, and the calling role of the terminal 10.

However, when such a channel performs a normal operation and an error occurs and the service is not normally performed, the respective sectors and cells cannot be serviced. In addition, since the pilot channel and the synchronization channel perform the role of matching the base station recognition, the timing reference channel, and time synchronization, the corresponding terminal 10 does not recognize the base station 20, and the paging channel has the shape information of the base station 20 and Since the terminal 10 has the call information, the terminal 10 is initialized again after recognizing the base station 20. When such an unexpected abnormal operation occurs, the base station 20 can no longer perform a service.

Accordingly, the present invention has been proposed to solve the above-mentioned conventional problems, and an object of the present invention is to operate a redundant overhead channel in a base station when an error occurs in an overhead channel and thus the service of the terminal cannot be maintained. The present invention provides a method for managing a redundant overhead channel of a mobile communication system in which sectors and cells normally perform a service.

Redundancy overhead channel management method of a mobile communication system according to the present invention in order to achieve the above object,

Generating a database for channels per sector per frequency, initializing the database and each channel, and periodically checking the status of the overhead channels to determine whether the overhead channels are operating normally; Initializing a traffic channel of another sector and changing a database of the corresponding traffic channel to a redundant overhead channel if the overhead channel operates abnormally, thereby operating the initialized traffic channel as a redundant overhead channel; When the overhead channel operates normally, the redundancy overhead channel is initialized and the database of the redundant overhead channel is changed to a traffic channel, thereby operating the initialized redundancy channel as a traffic channel.

1 is a block diagram of a general mobile communication system;

2 is a flowchart illustrating a method for managing redundancy overhead channels in a mobile communication system according to the present invention;

3 is a flowchart illustrating a method for managing an overhead channel in abnormal operation of the overhead channel in FIG.

4 is a flowchart illustrating a method for managing an overhead channel in the normal operation of the overhead channel in FIG.

<Explanation of symbols for the main parts of the drawings>

10: terminal 20: base station

30: control station 40: exchanger

Hereinafter, an embodiment according to the technical spirit of the redundant overhead channel management method of the present invention configured as described above will be described in detail.

2 is a flowchart illustrating a method for managing redundancy overhead channels in a mobile communication system according to the present invention.

As shown in the drawing, a database for a channel per sector per frequency is generated, the database and each channel are initialized, and then the state of the overhead channel is periodically checked to determine whether the overhead channel operates normally. ST5); Initializing a traffic channel of another sector and changing a database of the corresponding traffic channel to a redundant overhead channel when the overhead channel is abnormally operated to operate the initialized traffic channel as a redundant overhead channel (ST6-ST8); If the overhead channel operates normally, the redundancy overhead channel is initialized and the database of the redundant overhead channel is changed to a traffic channel, thereby operating the initialized redundancy channel as a traffic channel (ST9 to ST11).

If the overhead channel is abnormally operated, initializing the traffic channel of another sector and changing the database of the corresponding traffic channel to a redundant overhead channel to operate the initialized traffic channel as a redundant overhead channel (ST6 to ST8) 3, if the state of the periodic overhead channel is abnormal, determining whether the redundant overhead channel is normal or abnormal and the channel type (ST21) (ST22); Determining that the corresponding channel is abnormal when the redundancy overhead channel is abnormal and the channel type is a traffic channel (ST23) (ST24); If the redundancy overhead channel is abnormal and the channel type is a redundancy channel, determining that the channel type of the corresponding database is abnormal and changing to a traffic channel (ST25); If the redundancy overhead channel is normal and the channel type is a traffic channel, if a call is placed on the corresponding traffic channel, the call is released, the channel type is changed to a redundancy channel, and the channel is operated in a redundant overhead channel state (ST27). )Wow; If the redundancy overhead channel is normal and the channel type is the redundancy channel, it is determined that the redundancy overhead channel is normally operated and no operations are performed (ST29).

If the overhead channel is operating normally, initializing the redundant overhead channel, changing the database of the redundant overhead channel to the traffic channel, and operating the initialized redundancy channel as the traffic channel (ST9 to ST11) are illustrated in FIG. As described above, if the state of the periodic overhead channel is normal, determining whether the redundant overhead channel is normal or abnormal and the channel type (ST31) (ST32); Determining that the corresponding channel is abnormal when the redundancy overhead channel is abnormal and the channel type is a traffic channel (ST33) (ST34); If the redundancy overhead channel is abnormal and the channel type is a redundancy channel, determining that the channel type of the corresponding database is abnormal and changing to a traffic channel (ST35) (ST36); If the redundancy overhead channel is normal and the channel type is a traffic channel, determining that the corresponding database and state are normal and performing no operation (ST37); If the redundancy overhead channel is normal and the channel type is a redundancy channel, the database is changed to a traffic channel, and the channel is initialized and changed into a traffic channel (ST39).

An operation of the redundant overhead channel management method of the mobile communication system according to the present invention configured as described above will be described in detail with reference to the accompanying drawings.

First, in the PCS and DCS, the pilot channel, the synchronization channel, and the access channel are used to maintain the service state by the terminal 10 in maintaining the call and providing the service, and the paging channel is the base station 20. The base station 20 and the terminal 10 can communicate with each other with information and information that the terminal 10 needs to operate. The pilot channel and the synchronization channel are involved in base station recognition, synchronization, and reverse signal processing of the terminal 10. When this channel is abnormally operated, the terminal 10 corresponding to a sector or a cell cannot maintain a service state, and paging is performed. Since the channel has the shape information of the base station 20 and the terminal call information, the channel 10 cannot maintain the service state of the terminal 10 during abnormal operation. Therefore, when an error occurs in such a channel, the base station 20 operates the overhead in an appropriate manner to operate the sector and the cell again so that the service can be performed.

Therefore, the overhead channel in the base station 20 is a channel having a function of maintaining the terminal 10 in a sector or cell to maintain the service state, and when the overhead channel fails, the terminal 10 makes a call. A situation that does not come up. Therefore, the base station 20 enables the terminal 10 to maintain the service state by using the redundant overhead channel function so that the terminal can maintain the service state even if the overhead channel fails.

The redundancy overhead channel method fixes one of the traffic channels in the base station 20 so that the overhead channel fails to perform a normal operation. The base station 20 initializes the fixed traffic channel and overwrites the channel. It is a method to operate as a head channel. In case of a sector base station, the location of the redundant overhead channel is set to be located in different sectors so as to maintain the service of the terminal 10 even if an error occurs in the sector itself. When the faulted overhead performs normal operation again, the base station 20 initializes the redundancy overhead to use the traffic channel. The base station 20 manages and maintains channels efficiently by databaseting state information, channel type, and shape information of each channel for each channel, so that an error due to an unexpected situation occurs and a normal overhead and When the redundancy overhead is all in service or abnormally occurring, it can operate properly for the function.

Therefore, when the overhead channel of the base station 20 is operating normally, and an error occurs in the channel and the service cannot be provided to the terminal 10, the base station 20 continuously uses the redundancy overhead method. Provide service to 10). The base station 20 manages a database of channels so that periodic overheads can be checked so that an error occurs in the overhead to prevent normal operation and an overload due to unexpected operation due to loss of channel card and data transmission. In case of abnormal operation of the head channel, the periodic channel management and status check allow the overhead channel to operate normally.

Accordingly, the base station 20 first generates a database of channels per sector per frequency, and initializes each state information and data (ST1) (ST2). The base station 20 initializes each device, and when the device operates normally, the base station 20 manages a database of the corresponding device (ST3). Thus, the base station 20 periodically checks the state of the overhead channel (ST4) (ST5).

If the overhead channel is abnormally operated by the periodic check of the overhead channel state, the traffic channel of another sector is initialized and the database of the corresponding traffic channel is changed to the redundant overhead channel to convert the initialized traffic channel into the redundant overhead channel. It is activated (ST6-ST8). That is, the base station 20 periodically checks in the database whether the state of the overhead channel is normal (ST21). Therefore, when the status of the overhead channel is abnormal, if the base station 20 is a sector, the status of the redundant overhead channel is checked in a database corresponding to another sector (ST22).

Accordingly, if the state of the redundant overhead channel is abnormal and the channel type is the traffic channel, the base station 20 determines that the channel is abnormal and does not perform any operation (ST23) (ST24). In addition, if the status of the redundant overhead channel is abnormal and the channel type is the redundant channel, the base station 20 determines that the channel type of the corresponding database is abnormal and changes the channel type to the traffic channel (ST25) (ST26). In addition, if the status of the redundancy overhead channel is normal and the channel type is a traffic channel, the base station 20 first releases the call when the call is in the corresponding traffic channel, and changes the channel type to the redundancy channel in the database of the corresponding channel. Initialize The base station 20 changes the corresponding channel into a redundant overhead channel to perform a service state of the corresponding frequency and sector (ST27). Furthermore, if the state of the redundancy overhead channel is normal and the channel type is the redundancy channel, it is determined that the redundancy overhead channel is operating normally and the base station 20 does not perform any operation (ST29) (ST30).

In this way, the base station 20 periodically checks the state of the overhead to continue the proper operation when an error occurs.

On the other hand, if the overhead channel is normally operated by periodic checking of the overhead channel state, the redundant overhead channel is initialized and the database of the redundant overhead channel is changed to a traffic channel to operate the initialized redundancy channel as a traffic channel (ST9). -ST11). That is, the base station 20 periodically checks in the database whether the state of the overhead channel is normal (ST31). Therefore, when the state of the overhead channel is normal, if the base station 20 is a sector, the state of the redundant overhead channel is checked in a database corresponding to another sector (ST32).

Accordingly, if the state of the redundancy overhead channel is normal and the channel type is the traffic channel, it is determined that the channel is abnormal and the base station 20 does not perform any operation (ST33) (ST34). In addition, if the status of the redundant overhead channel is abnormal and the channel type is the redundant channel, the base station 20 determines that the channel type of the corresponding database is abnormal and changes the channel type to the traffic channel (ST35) (ST36). In addition, if the state of the redundancy overhead channel is normal and the channel type is a traffic channel, the base station 20 does not perform any operation (ST37) (ST38). Furthermore, if the state of the redundancy overhead channel is normal and the channel type is the redundancy channel, the base station 20 changes the channel type to the traffic channel in the database of the channel and initializes the redundancy overhead channel. The base station 20 changes the corresponding channel into the traffic channel to perform the call channel (ST39) (ST40).

In this way, the base station 20 periodically checks the state of the overhead to continue the proper operation when an error occurs.

As described above, in the present invention, when the base station has such an algorithm and fails to operate normally due to an error in each sector or cell or an error in an overhead channel, the base station maintains a service state and affects an existing call channel. It is possible to solve the abnormal service state of the overhead that may occur during operation by duplexing the overhead channel so as not to give.

Although preferred embodiments of the present invention have been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

As described above, in the redundant overhead channel management method of the mobile communication system according to the present invention, when an error occurs in one sector due to the redundancy overhead function and the sector does not operate normally, the traffic channel in the other sector is redundantly overwritten. When the head channel is operated, and the overhead channel in which the error occurs is operated normally, the redundant overhead channel is operated as the traffic channel to maintain the service state.

In addition, the present invention also has the effect of periodically checking each overhead channel to solve the abnormal operation due to the unexpected error by the database information corresponding to each channel of the base station.

Claims (3)

Generating a database for channels per sector per frequency, initializing the database and each channel, and periodically checking the status of the overhead channels to determine whether the overhead channels are operating normally; Initializing a traffic channel of another sector and changing a database of the corresponding traffic channel to a redundant overhead channel if the overhead channel operates abnormally, thereby operating the initialized traffic channel as a redundant overhead channel; Redundancy over of the mobile communication system comprising the steps of: initializing the redundant overhead channel and changing the database of the redundant overhead channel to the traffic channel if the overhead channel operates normally and operating the initialized redundancy channel as a traffic channel. Head channel management method. The method of claim 1, wherein if the overhead channel is abnormally operated, initializing traffic channels of other sectors and changing a database of the corresponding traffic channel to a redundant overhead channel to operate the initialized traffic channel as a redundant overhead channel. , Determining whether the redundant overhead channel is normal / abnormal and the channel type if the state of the periodic overhead channel is abnormal; If the redundancy overhead channel is abnormal and the channel type is a traffic channel, determining that the channel is abnormal and performing no operation; If the redundancy overhead channel is abnormal and the channel type is a redundancy channel, determining that the channel type of the corresponding database is abnormal and changing to a traffic channel; If the redundancy overhead channel is normal and the channel type is a traffic channel, releasing the call if the call is in the corresponding traffic channel, changing the channel type to a redundancy channel, and operating the channel in a redundant overhead channel state; If the redundancy overhead channel is normal and the channel type is a redundancy channel, the redundancy overhead channel management method of the mobile communication system comprising the step of determining that the redundancy overhead channel is operating normally and does not perform any operation. The method of claim 1, wherein the initializing of the redundant overhead channel and changing the database of the redundant overhead channel to the traffic channel when the overhead channel operates normally operates the initialized redundancy channel as a traffic channel. Determining whether the redundant overhead channel is normal / abnormal and the channel type if the state of the periodic overhead channel is normal; If the redundancy overhead channel is abnormal and the channel type is a traffic channel, determining that the channel is abnormal and performing no operation; If the redundancy overhead channel is abnormal and the channel type is a redundancy channel, determining that the channel type of the corresponding database is abnormal and changing to a traffic channel; If the redundancy overhead channel is normal and the channel type is a traffic channel, determining that the corresponding database and state are normal and performing no operation; If the redundancy overhead channel is normal and the channel type is a redundancy channel, changing the database into a traffic channel, initializing the channel, and changing the traffic channel to a traffic channel.