KR19990056114A - Cell configuration method of wireless private branch exchange - Google Patents

Abstract

The present invention relates to a method for constructing a CT-2 base station cell in a building in which a wireless private branch exchange is installed. In particular, after reconstructing a CT-2 base station cell based on the movement and distribution of a wireless terminal according to each base station cell, the CT-2 base station cell is reconfigured. It is a method for doing so. Accordingly, the present invention, after the number of the wireless terminal corresponding to the cell of each base station matched to the wireless premises private exchange and the crossover cell between the base station detects the number by a predetermined time period and statistical data, and then the statistical data Statistically processes the number of radio terminals corresponding to each cell and the cross cell to determine the distribution of copper wires and radio terminals of the radio terminal according to the cell and the cross cell of each base station. When the most suitable location of the base station is selected based on the identified copper wire, the location of the base station is changed accordingly, and when the appropriate number of base stations is determined based on the determined distribution of the wireless terminals, the base station is increased or decreased. If it is difficult to change the location of the base station or increase or decrease the number of base stations, the cell number of the base station is classified into a cell that is densely packed with a cell by distributing the number of radio terminals corresponding to each of the statistical data cells and cross cells. Then, the base station of the dense cell lowers the field strength, the base station of the distributed cell is characterized by an efficient CT-2 base station cell configuration method by the process of increasing the field strength.

Description

Cell configuration method of wireless private branch exchange

The present invention relates to a method for constructing a CT-2 base station cell in a building in which a wireless private branch exchange is installed. In particular, after reconstructing a CT-2 base station cell based on the movement and distribution of a wireless terminal according to each base station cell, the CT-2 base station cell is reconfigured. It relates to a method for doing so.

In general, when designing a 2nd generation cordless telephone (CT-2) cell inside a building in which a private automatic branch exchange (PABX) is installed, the CT-2 scheme is a frequency division mulitple access (common name FDMA). Due to the characteristic that a fixed number of available channels are fixed to each base station and used, a method of configuring a base station cell is used so that only a predetermined channel is always available regardless of the distribution of radio terminals of each base station cell. However, this has caused a great difficulty in configuring a cell having an appropriate call environment because the usage conditions of the wireless terminal are different for each base station cell. Therefore, conventionally, in order to solve this problem, it is a method of configuring a base station cell to have an appropriate call environment to more accurately analyze installation geographic information when configuring a base cell in an initial state. However, even if a base station cell is configured under accurate prediction and analysis, there are many cases where an appropriate call situation cannot be obtained due to an unexpected situation in actual use. That is, when some base station cells are congested differently from the situation predicted at the initial cell configuration, and another base station cell is less than the predicted amount, the already configured base station cell has a problem of inefficiency in system operation. It is necessary to reconstruct an appropriate base station cell for the converted situation by recognizing this, and there is no easy way to solve this problem. Therefore, the problem of deterioration of the call quality of the wireless terminal in the conventional wireless private branch exchange has continued, causing a lot of inconvenience for users.

Accordingly, an object of the present invention is to provide a method that can more easily and simply configure the CT-2 base station cell according to the changed usage and call conditions of the wireless terminal.

Accordingly, the present invention is to implement a method for reconstructing the CT-2 base station cell with reference to this after identifying the copper wire and distribution of the wireless terminal according to each base station cell.

In order to implement the base station cell reconfiguration method, the present invention detects the number of wireless terminals corresponding to the cells of each base station matched to the wireless premises private exchange and the number of wireless terminals corresponding to the cross cells between the base stations at predetermined time intervals. And statistically processing the data, and then, statistically processing the number of wireless terminals corresponding to each of the statistical data cells and the cross-cells to determine distribution of copper wires and wireless terminals of the cell and cross-cells of each base station. When the location of the base station is selected based on the identified copper line in the process of identification, the location of the base station is changed accordingly. When the number of base stations is determined based on the determined distribution of wireless terminals, the base station is increased or decreased. If the base station location change or increase or decrease of the base station number is difficult, By statistically processing the number of radio terminals corresponding to each cell and cross-cellized cells, the cell of the base station is classified into a cell where the radio terminal is densely distributed and a cell that is dispersed, and then the base station of the dense cell lowers the electric field strength and the base station of the distributed cell is The present invention proposes a method for constructing a base station cell that performs a process of increasing field strength.

1 is a system configuration diagram of a wireless premises private exchange in which the present invention is carried out.

2 is a diagram illustrating a method for reconfiguring a CT-2 base station cell according to copper wire and distribution of a wireless terminal according to a base station cell according to a first embodiment of the present invention.

3 is a diagram illustrating a distribution state of radio terminals of each base station cell identified according to the practice of the present invention.

Figure 4 is a graph showing the distribution status of the radio terminal of each base station cell according to the time zone grasped according to the implementation of the present invention.

5 is a diagram illustrating a method for reconfiguring a CT-2 base station cell according to a distribution of a wireless terminal according to a base station cell according to a second embodiment of the present invention.

DETAILED DESCRIPTION A detailed description of preferred embodiments of the present invention will now be described with reference to the accompanying drawings.

In the following description of the present invention, if it is determined that the detailed description of the related well-known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. The terms to be described below are terms defined in consideration of functions in the present invention, and may be changed according to the intention or custom of the user or chip designer, and the definitions should be made based on the contents throughout the present specification. That is, in the following description of the operation and performance of the present invention, the wireless private branch exchange of the CT-2 system is mentioned. The wireless premises private exchange other than the CT-2 system can be used for flooding and application of the present invention, and also for public network wireless switching system.

First, FIG. 1 is a system configuration diagram of a wireless premises private exchange in which the present invention is performed.

Referring to FIG. 1, the wireless private branch exchange 100 includes an exchange device 102 therein, and the wireless private branch exchange 100 in the premises includes a base station matching unit 104 that matches the switch device 102 and the switch device 102. A plurality of base stations 110 are matched to the base station matching unit 104, and each of the base stations 110 has a cell of a corresponding area. The wireless terminal 120 transmits and receives a radio signal with a base station in the cell to perform a call. On the other hand, the cell is assigned a cell corresponding to the base station when the system configuration in the initial state, which is configured through the installation geographic information analysis. In the description of the present invention, a cell corresponding to the base station will be described as a base station cell for convenience. On the other hand, the exchange apparatus 102 is a CPU (Central Processing Unit), an interface unit, a memory unit, a switching circuit, a subscriber circuit, a trunk line circuit, a DTMF (Dual Tone Multi Frequency) receiving circuit, and a tone supply, which are components of a conventional private exchange. Circuit, DTMF transmission circuit, and ring generating circuit.

FIG. 2 is a diagram illustrating a method for reconfiguring a CT-2 base station cell according to a moving line and a distribution of a wireless terminal according to an embodiment of the present invention, which is performed by the switch apparatus 102.

Referring to FIG. 2, in step 212, the number of radio terminals detected in each base station cell is checked. In step 214, the number of radio terminals detected in the cross cell which is a common part between the base station cells is checked. The operations checked in steps 212 and 214 are performed according to a predetermined time zone, and the smaller the time zone, the more accurate detection value can be known. In step 220, the number of radio terminals corresponding to the cells of each base station checked in steps 212 and 214 and the number of radio terminals corresponding to the cross cells between the base stations are detected by a predetermined time period, and statistical data are generated. The number of wireless terminals corresponding to the cell and the cross cell is statistically processed. That is, an operation of statistically determining how many radio terminals are detected in each base station cell according to each time period. After completion of the statistical process of step 220, the result value is output to the copper line of the wireless terminal in step 222, the distribution corresponding to each base station cell of the wireless terminal is determined in step 224. This can be identified by time zone, and by processing the statistics identified by time zone, the location of an appropriate base station can be known, and the distribution of radio terminals for each base station cell can be known. As a result, if the copper line of the wireless terminal is identified in step 222, the appropriate position of the base station according to the copper line can be determined in step 232, so that the base station can determine the most suitable position to move. Therefore, the manager or the operator can readjust the position of the base station with reference to the operation performed in step 232. In addition, when the distribution of the wireless terminal is determined in step 224, it is determined whether the most appropriate number of base stations is increased or decreased in step 234 according to the distribution. That is, the manager or the operator relatively reduces the number of base stations when the distribution is low, and when the distribution is high, the base station cell is reconfigured by increasing the number of base stations. For reference, FIG. 3 is a diagram illustrating a distribution state of wireless terminals of each base station cell identified according to the present invention, and shows a state of the base station cell output according to the operation of step 220. Referring to FIG. 3, cell a shows a relatively good distribution of the wireless terminal, cell b shows a high cell distribution, and cell c shows a low cell distribution. Therefore, since the base station cell configuration is inefficient, it needs to be reconfigured, and the configuration of the cell to be reconfigured is possible by configuring the most appropriate cell through the result output according to the operation of FIG. FIG. 4 is a graph illustrating a distribution state of wireless terminals of respective base station cells according to time zones identified according to an embodiment of the present invention, which shows distribution curves of wireless terminals according to time zones according to the operation of FIG. 2. That is, FIG. 2 shows that the cell a described in FIG. 3 has an appropriate distribution of radio terminals at 12 o'clock, the cell b has a relatively high distribution at 12 o'clock, and the cell c. Is a low distribution at 12 o'clock. This shows the distribution of wireless terminals corresponding to each cell in a specific time zone. However, if the distribution is checked for each time zone and predetermined statistics are processed for all time zones, an appropriate number of base station locations and the number of base stations for each base station cell can be derived. do.

FIG. 5 is a diagram illustrating a method for reconfiguring a CT-2 base station cell according to a distribution of a wireless terminal according to another base station cell according to another embodiment of the present invention. Reconstruction method is shown.

Referring to FIG. 5, in steps 512 and 514, the number of radio terminals detected in each base station cell and the number of radio terminals detected in a cross cell are converted. Accordingly, in step 522, the dense cell of the wireless terminal is identified, and in step 524, the distributed cell of the wireless terminal is identified. This shows that the operation of classifying each base station cell into a cell in which a plurality of radio terminals are relatively detected and a cell in which a few are detected is performed. When the dense cell is detected in step 522, the electric field strength of the base station of the dense cell is reduced in step 532, and the electric field strength of the base station of the distributed cell is increased in step 534. In other words, when there are relatively many wireless terminals, the field strength is weakened to prevent interference between the wireless terminals, and when the wireless terminals are small, the field strength is increased to increase the call quality. Therefore, the call service is improved and the call quality is improved.

On the other hand, the operation of FIG. 5 is a method used when the position movement of the base station is impossible or difficult due to various situations, and when the base station is difficult to increase or decrease.

In conclusion, the present invention provides a method for reconstructing the base station cell according to the result obtained by separately identifying the operating state of the base station cell configured in the initial state.

As described above, the present invention provides a method for reconfiguring a base station cell initially configured in a wireless private branch exchange according to a subsequent call situation, and at the same time feeding back a base station cell operation state and reconfiguring the base station cell with reference thereto, or. It has advantages in terms of efficiency. In addition, there is an advantage that the optimal use of radio resources can be enabled.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by the equivalents of the claims.

Claims (3)

In a method of configuring a CT-2 base station cell in a building where a wireless private branch exchange is installed, After the number of wireless terminals corresponding to the cells of each base station matched to the wireless premises private exchange and the crossover cell between the base stations are detected by the predetermined time intervals, the statistical data is generated, and then each of the statistical data cells and the intersection Statistically processing the number of wireless terminals corresponding to the cell; Determining distribution of copper wires and wireless terminals of the wireless terminal according to the cell and the cross cell of each base station through the statistical processing; Determining the location of the most suitable base station according to the identified wireless terminal movement line, and if the most suitable base station number is determined according to the determined distribution of the wireless terminal, changing the location of the base station and increasing or decreasing the appropriate base station number. A method for reconfiguring base station cells according to the operating state of a wireless terminal in a private branch exchange. In a method of configuring a CT-2 base station cell in a building where a wireless private branch exchange is installed, After the number of wireless terminals corresponding to the cells of each base station matched to the wireless premises private exchange and the crossover cell between the base stations are detected by the predetermined time intervals, the statistical data is generated, and then each of the statistical data cells and the intersection Statistically processing the number of wireless terminals corresponding to the cell; Identifying the density of wireless terminals corresponding to each of the cells and the cross cells through the statistical processing, and classifying the cells of the base station into cells distributed from cells densely packed with the wireless terminals; In the classification step, the base station classified as a dense cell to reduce the electric field strength, and the base station classified as a distributed cell to increase the electric field strength, the base station cell reconfiguration method according to the operating state of the wireless terminal in the wireless private branch exchange. . In a method of configuring a CT-2 base station cell in a building where a wireless private branch exchange is installed, After extracting the statistical data related to the configuration of the base station cell through the number of detection of the wireless terminal of each base station cell according to the time zone through the location tracking of the wireless terminal subscribed to the exchange, the number of base stations and the base station according to the extracted statistical data A method of reconfiguring a base station cell by feeding back an operating state of a wireless terminal in a wireless private branch exchange, characterized in that the strength of the field strength is determined and the base station cell is reconfigured accordingly.