KR100329655B1 - Dynamic control method for overhead channel - Google Patents

Abstract

PURPOSE: A dynamic control method for an overhead channel is provided to continuously offer a service to terminals in each sector or cell by periodically monitoring whether an overhead channel is normal and changing an abnormal overhead channel to a traffic channel when the overhead channel is abnormally operated. CONSTITUTION: A base station confirms whether a mode for dynamically controlling an overhead channel is set up(S11). If the mode is set up, the base station periodically confirms whether the overhead channel having a pilot channel, a synchronous channel, an access channel, and a paging channel is normally operated(S12,S13). If the overhead channel is abnormally operated because an error occurs in one overhead among a plurality of overheads, the base station resets the overhead channel in which the error occurs(S14). The base station confirms whether an unused traffic channel exists among normally operated traffic channels(S15). The base station resets the unused traffic channel so that the unused traffic channel is reset as the abnormal overhead channel(S16). The base station provides a normal service to a terminal by the normally operated overhead channel and the overhead channel reset as the traffic channel(S17). The base station continuously checks the operation state of the reset overhead channel(S18) and confirms whether the reset overhead channel is in a normal state(S20). If the reset overhead channel is in the normal state, the base station controls the operations of the overhead channel and the traffic channel so that the overhead channel and the traffic channel are returned to a previous state(S20).

Description

Dynamic Control of Overhead Channel

The present invention relates to a dynamic control method of an overhead channel, and more particularly, by periodically checking the steady state of the overhead channel and, if the overhead channel is abnormally operated, by changing it to a traffic channel. Dynamic control method of an overhead channel that continuously provides services of terminals in each sector and cell even when an error occurs in any one of an overhead channel consisting of a pilot channel, a synchronization channel, an access channel, and a paging channel It is about.

Many functions are required to smoothly maintain a call service in a personal communication system (hereinafter referred to as "PCS") and a digital communication system (hereinafter referred to as "DCS"). In order to handle basic call processing and handoff at a terminal and to maintain a service state, devices of many base stations operate.

Among them, a channel element is operated to maintain a substantial service state and to handle a call. The channel element includes a pilot channel, a synchronization channel, an access channel, a paging channel, and a traffic channel. The access channel and the paging channel are referred to as "overhead channels", and the overhead channels serve to keep the terminal in a service state. If these channels fail and become inoperable, the terminal cannot maintain service.

In the overhead channel, a pilot channel is a channel through which a terminal can distinguish a sector or a cell as a reference channel for system acquisition and timing. A synchronization channel is a channel used for initial time synchronization between a terminal and a base station. A terminal receives and processes information (frequency, system shape information, neighbor shape information, and access related information) of a base station system.

When all these channels are transmitted, the terminal can initialize its system and maintain the service state. In the current PCS and DCS, a pilot channel and a synchronization channel allow a terminal to be initialized using one channel element, and a paging channel allows a terminal to maintain a service state using up to seven channels.

However, when such overhead channels are allocated, the number of traffic channels that actually handle calls decreases, and the number of users who can provide services per cell or per sector decreases.

Therefore, the base station is configured to maintain the service state of the terminal by allocating one channel element to the overhead channel. When such an overhead channel fails, the sector or cell that is responsible for the overhead is not served. When the overhead channel reaches a state in which the overhead channel cannot be serviced again due to a serious failure, there is a problem that the terminal corresponding to the sector or cell continues to enter the service state.

The present invention has been made to solve the conventional problems as described above, and periodically checks whether the overhead channel is normal, and if the overhead channel is abnormally operated, change it to a traffic channel to synchronize with the pilot channel. To provide a dynamic control method of an overhead channel that can continuously provide services of terminals in each sector and cell even when an overhead channel of an overhead channel consisting of a channel, an access channel, and a paging channel is abnormal. There is a purpose.

In order to achieve the above object, the dynamic control method of the overhead channel of the present invention includes checking the state of the overhead channel when the dynamic function is set, and resetting the overhead channel in an abnormal state when the overhead channel is abnormal. And checking whether there is an unused traffic channel among the traffic channels, resetting the traffic channel when there is an unused traffic channel, and initializing it as an overhead channel, and initializing an overhead channel of the terminal. And providing a service.

Here, the overhead channel is composed of a pilot channel, a synchronization channel, an access channel, and a paging channel. Also, when an overhead in an abnormal state returns to normal, the base station controls the overhead channel and the traffic channel to be returned to their original state. .

1 is a flow chart showing an operating state according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation for achieving the dynamic control method of the overhead channel according to the present invention.

First, the base station initializes all channel cards and determines the function of each channel element to initialize the overhead channel and the traffic channel.

Then, the base station checks whether the mode for dynamic control of the overhead channel is set (S11). If the mode for dynamic control of the overhead channel is not set, the base station performs step S11, but if the mode for dynamic control of the overhead channel is set, the pilot channel, the synchronization channel, and the access channel, It is periodically checked whether the overhead channel including the paging channel is normally operated (S12) (S13).

If it is determined that all of the overhead channels are operating normally, the base station repeatedly performs steps S12 and S13. However, if an error occurs in one of the plurality of overheads and fails to perform normal operation, It is determined that the overhead channel is abnormal to reset the overhead channel in which an error occurs (S14).

Subsequently, the base station checks whether there is an unused traffic channel among the normally operating traffic channels (S15). Then, the unused traffic channel is selected and reset, and it is initialized to the overhead channel determined as abnormal in step S13 (S16).

Accordingly, the base station can provide a normal service to the terminal by the overhead channel initialized with the overhead channel and the traffic channel in operation (S17).

The base station which provides a service to the terminal by changing the abnormal overhead channel to the traffic channel as in steps S11 to S17 continuously checks the operation state of the reset overhead channel in step S14 (S18). It is checked whether it is returned to the state (S20).

If the overhead channel is still abnormal, the base station controls the operation of each overhead channel to perform the above step S17, but if the overhead channel returns to the normal state, the overhead channel and the traffic channel return to the previous state. Their operation is controlled so as to (S20).

As described above, the present invention periodically checks whether the overhead channel is normal, and if the overhead channel is abnormally operated, by changing it to a traffic channel, the overhead consisting of a pilot channel, a synchronization channel, an access channel, and a paging channel Even if an error occurs in an overhead channel of one of the channels, there is an effect of providing the services of terminals in each sector and cell.

Claims (1)

A first step of initializing a function of each channel element of the base station to perform an overhead channel and a traffic channel; A second step of selecting and setting whether to perform a dynamic overhead channel change function by an operator input; A third step in which the base station sends and receives a signal indicating that its status is normal to the overhead channel; When the base station detects that an error occurs in a predetermined overhead channel and cannot perform a normal operation, the base station determines that the overhead channel is abnormal and resets the corresponding overhead channel. A fourth step of selecting a channel to reset the traffic channel and changing the channel to an overhead channel; A fifth step of periodically exchanging a signal indicating whether or not the changed overhead channel functions normally and its state is normal; If it detects that the abnormally operating overhead channel is restored normally, the base station resets the changed overhead channel currently in operation, and initializes it to operate again as an original function of the traffic channel; And a seventh step in which the base station periodically sends a signal to the recovered overhead channel to determine whether its state is normal.

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