KR100498904B1 - Method of Sharing Wireless Channel Information between Adjacent Cells of Wireless Private Exchange - Google Patents

Abstract

end. The technical field to which the invention described in the claims belongs

The present invention relates to a method for sharing radio channel information between adjacent cells of a wireless private exchange.

I. The technical problem that the invention is trying to solve

The present invention provides a method for sharing radio channel information between adjacent cells of a wireless private exchange for preventing interference caused by the use of the same channel by the channel of the cell and the radio channel of the neighbor cell.

All. Summary of Solution of the Invention

In a method of sharing wireless channel information of a wireless private exchange system when one wireless terminal includes a radio terminal and at least one wireless terminal and a wireless channel is formed with the corresponding wireless base station, the terminal unique number and channel information transmitted from the terminal A first step of detecting through the radio base station of the second terminal and searching for a channel of the neighboring cell to determine whether the neighboring cell is using the same channel as the channel of the radio channel information; And a second process of storing channel information in a radio base station of its own cell and a radio base station of an adjacent cell.

la. Important uses of the invention

Used to prevent radio channel interference between adjacent cells in a radio switching system.

Description

Method of Sharing Wireless Channel Information between Adjacent Cells of Wireless Private Exchange

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless private exchange system, and more particularly, to a method for sharing radio channel information between neighboring cells sharing channel information of neighboring cells in order to prevent interference between neighboring cells.

1 is a block diagram of a wireless private exchange system according to an exemplary embodiment of the present invention.

In general, a wireless private exchange system is composed of a wireless private exchange, a base station connected to the switch and a wireless terminal as shown in FIG. Referring to FIG. 1, the central processing unit 10 controls the overall operation of the wireless private exchange system. The memory 20 stores a unique number of a registered terminal, and stores a database including configuration information in each cell. The trunk line circuit 60 detects ring signals applied from a plurality of trunk lines CO, forms a trunk line loop under the control of the central processing unit 10, and forms a trunk line loop. Interface. The switching unit 40 switches various tones and data under the control of the CPU 10. The subscriber circuit 50 supplies the voice current of the voice band to the telephone set of the subscriber station, and performs interfacing between the extension telephones 501 to 50n and the device. In addition, the wireless private exchange further includes base stations 80-1 to 80-n connected between the wireless connection unit 80 and the wireless terminal to provide a wireless call service to the wireless terminal. The wireless access unit 80 is an Integrated Service Digital Network (ISDN) card and is a basic rate interface (BRI) card. At this time, the base station is provided in each predetermined cell area and provides a service to a wireless terminal located in the area.

On the other hand, the radio base station needs to be appropriately installed in the predetermined cell area in the wireless private switching system. That is, the location and height of the radio base station should be determined not only to cover all parts of the service area but also to minimize interference of radio waves. In addition, in order to implement a handoff function between adjacent cells, it is necessary to have overlapping areas (first overlapping area and second overlapping area).

As described above, the present invention requires careful attention when using a radio channel in the overlapping region of the cell. That is, when the Ch1 channel is used in the cell of the first region, the cell of the second region, which is an adjacent cell, should not use the Ch1 channel. In the non-overlapping area of the first area, there is no big problem, but when the wireless terminal 80-A moves to the first overlapping area, the data of the wireless terminal 80-A and the wireless terminal 80-B of the first area are moved. Damage occurs and the error rate increases significantly, reducing the quality of the call. In addition, if this is severe, there is a problem that occurs until the link breaking phenomenon.

Accordingly, an object of the present invention is to provide a method for sharing radio channel information between neighboring cells in a codeless telephony method for preventing interference and link breakage occurring during a call by sharing radio channel information between a cell and an adjacent cell.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals have the same reference numerals as much as possible even if displayed on different drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

2 is a flowchart illustrating a method for sharing radio channel information between adjacent cells of a wireless private exchange system according to an exemplary embodiment of the present invention.

1 and 2, first, in step 201, under the control of the central processing unit 10, the wireless base station 80-2 forms a wireless channel by the call of the wireless terminal 80-B. . In the method of occupying the radio channel, the radio terminal has authority to call, and the radio base station has authority to call. For example, in the case of a call, the wireless terminal 80-B first requests the Ch1 channel. In response to the Ch1 channel request of the radio terminal 80-B, a radio channel is formed with the radio base station 80-2. In addition, the wireless terminal 80-B informs the unique number of the wireless terminal 80-B together with Ch1, which is a channel used by the wireless terminal 80-B. The system stores a working area for each base station to indicate that a channel is in use, and has information according to a call state of the wireless terminal. The information according to the call state of the radio terminal includes the received field strength of the channel occupying the link, the ID of the radio base station, the power transmission level of the radio base station, the channel number of the radio base station, the group number of the radio base station, and the radio base station in the group. Total number of wireless base stations in the group. When a wireless channel is formed between the wireless base station 80-2 and the wireless terminal 80-B, the central processing unit 10 is unique to the wireless terminal 80-B from the wireless base station 80-2 in step 202. It is checked whether channel information including the number and the channel number has been detected. When the unique number and the channel information Ch1 are detected, the central processing unit 10 determines that the unique number of the wireless terminal 80-B detected by the wireless base station 80-2 is the data of the memory 20 in step 203. Check if the number is registered in the base. If the unique number of the wireless terminal 80-B is not a registered number in step 203, the central processing unit 10 ends the process, and if it is a registered number, the central processing unit 10 is stored in the memory 20 in step 204. Radio base stations 80-1 and 80-3 of adjacent cells adjacent to the radio base station 80-2 through the radio connection unit 80 according to the configuration information of neighbor cells (first area and third area) of the stored database. Search for channels in the working area that are used by. The adjacent cell may have a maximum of eight cells, and if there are eight neighboring cells, all the channels of the working area used by the eight neighboring cells are examined. After the investigation, in step 205, the central processing unit 10 has a channel such as the channel Ch1 requested by the radio base station 80-B of its own cell (second area) adjacent cell (first area, third area). Is detected in the working area. If the channel Ch1 is not used in the adjacent cells (first region and third region), the central processing unit 10 stores the used channel of the own cell in the database of the memory 20 in step 206. The channel Ch1 is allocated to the radio base station 80-2 of its own cell (second area), and the channel information Ch1, which is the channel information, is displayed for the channel in use of the radio base station 80-2. -B) Save it to the working area. In addition, the channel information Ch1 of the own cell (second area) is stored in the working areas of the radio base stations 80-1 and 80-3 of the first area and the third area. After step 208, in step 209, the central processing unit 10 controls the tone generating unit 100 to generate a dial tone, and in step 210 to form a call path through the general call processing procedure. However, if the Ch1 channel is used in one of the adjacent cells (first region and second region) in step 205, the CPU 10 checks whether new channel information is detected in step 211. When the new channel information is detected, the process returns to step 204 to repeat the process thereafter. However, if new channel information is not detected, the error information is notified to the radio base station 80-2.

As described above, the present invention has the advantage of preventing the use of the same radio channel between adjacent cells by sharing the channel information in use between adjacent cells, thereby preventing interference between the same channels. In addition, as a result of this, the call success rate and the call success rate are improved, thereby improving the call quality.

1 is a block diagram of a wireless private exchange system according to an exemplary embodiment of the present invention.

2 is a flowchart illustrating a method for sharing radio channel information between adjacent cells of a wireless private exchange according to an exemplary embodiment of the present invention.

Claims (4)

A method for sharing wireless channel information of a wireless private exchange system comprising one or more wireless terminals and a wireless base station, wherein a wireless channel is formed with a wireless base station of its own cell where any wireless terminal is currently located. Detecting the terminal unique number and channel information transmitted according to the radio channel formation from the arbitrary terminal through the radio base station of the own cell, and searching the working area of the neighbor cell of the own cell to find the same channel as the channel of the channel information. First step to determine if the channel is active, If the neighbor cell does not use the same channel as the channel of the channel information, the channel information is stored in the working area of the radio base station of the own cell and the radio base station of the neighbor cell, and the channel information is stored through the channel of the channel information. A method for sharing radio channel information between adjacent cells of a wireless private exchange system comprising a second process of forming a call path. The method of claim 1, wherein the first process, A first step of investigating whether the radio channel is formed between the radio terminal and the radio base station of the own cell; A second step of detecting the unique number and channel information of the wireless terminal transmitted from the wireless terminal when the wireless channel is formed; A third step of checking whether the detected unique number of the wireless terminal is a registered number; And if the wireless terminal unique number is a registered number, a fourth step of searching whether a neighboring cell is using a channel identical to the channel of the channel information by searching for a used channel stored in the working area of the neighboring cell. A method for sharing radio channel information between adjacent cells in a radio switch system. The method of claim 1, wherein the second process comprises: Storing a channel included in the channel information of the own cell as a use channel in a database of the wireless private exchange system, assigning a channel of the channel information to a radio base station of the own cell, A first step of storing the channel information in a working area; A second step of storing the channel information in a wireless base station working area of the adjacent cell; And a third step of supplying a dialtone to the arbitrary wireless terminal and performing a general call processing procedure. The method of claim 1, If the adjacent cell is using the same channel as the channel of the radio channel information, and whether new channel information is detected from the arbitrary wireless terminal, if the new channel information is detected, the second process is performed, and the new channel information is performed. The method of claim 1, further comprising a third step of notifying error information if channel information is not detected.

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