KR101461508B1 - System and Method for Control of Output of Beacon Signal - Google Patents

Abstract

The present invention relates to a beacon signal output level adjustment system and method capable of automatically adjusting an output level of a beacon signal. The system includes an RF monitoring module for detecting a user frequency output value for each frequency band, And a comparator for comparing a user frequency output value and a beacon signal output value, wherein the comparator compares a user frequency output value and a beacon signal output value with a beacon signal output value according to the compared output difference value, The output of the signal is automatically adjusted.

Beacon, beacon signal, ELF monitoring module

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a beacon signal output level control system,

The present invention relates to a system and method for controlling a beacon signal output level, and more particularly to a beacon signal output level control system and method for automatically adjusting an output level of a beacon signal to improve a beacon signal output characteristic periodically Control systems and methods.

Code spread signals in a code division multiple access communication system are transmitted between a base station and a mobile terminal while sharing a predetermined bandwidth. This bandwidth is called a carrier frequency or frequency channel or frequency assignment (FA).

When the mobile terminal is moving between the base stations, a handoff is performed to maintain the continuity of the call. The handoff is initiated by the mobile terminal measuring the pilot signal generated from the neighbor base stations. At this time, since the mobile terminal can detect the pilot signal only in the same frequency channel, the handoff from the source frequency channel to the destination frequency channel is started by detection of a beacon signal indicating the target frequency channel.

The beacon module including the beacon generator for generating the beacon signal transmits a beacon signal to the portable terminal through the base station power amplifier using a cable or the like to transmit the beacon signal to the input terminal of the base station.

As a result, the beacon module is connected to the base station by using a wired path such as a cable. The cable loss increases due to dust or imperfect attachment / detachment of the cable connector portion, improper curvature radius of the cable, and external pressure applied to the cable. As a result, the output of the beacon signal may be smaller than the initially set value, or the beacon signal output may become larger than the initially set value due to the beacon itself or other causes.

If the beacon signal output decreases or becomes larger than the initially set value in the mobile communication network, a change occurs in the handoff area of the base station and the call quality during the call is lowered. In order to prevent this, there is an inconvenience that the beacon module should be checked manually by the human operator periodically.

It is therefore an object of the present invention to provide a beacon signal output level control system and method that can automatically adjust the output of a beacon signal.

According to another aspect of the present invention, there is provided a system for controlling a beacon signal output level, the apparatus comprising: an RF monitoring module for receiving a base station status detection signal to monitor a base station status and inquiring a user frequency output value for each frequency band; A beacon module including a beacon signal output controller for generating and controlling an output value of the beacon signal, and a beacon monitoring controller for comparing the user frequency output value and the beacon signal output value to adjust an output level of the beacon signal.

The RF monitoring module includes a user frequency storage unit for calculating and storing an average value of the output value of the user frequency for a predetermined period of time.

The beacon monitoring control unit includes a comparator for comparing the user frequency output value by frequency band and the beacon signal output value to calculate a frequency difference value, and a controller for controlling the beacon signal output controller of the beacon module according to the frequency difference value.

A method of adjusting an output level of a beacon signal according to the present invention includes the steps of calculating a user frequency output value, calculating an output value of a beacon signal, calculating a frequency output difference value by comparing a user frequency output value and a beacon signal output value, And adjusting the beacon signal output value according to the frequency output difference value.

At this time, the step of adjusting the beacon signal output value adjusts the beacon signal output value so that (average value of the used frequency output) - (beacon frequency output average value) - (frequency output level difference set value) = (beacon frequency output adjustment value).

According to the present invention, the output of the beacon signal can be automatically controlled. That is, by automatically controlling the output of the beacon signal according to the user frequency output value, it is possible to prevent the beacon signal from having a bad characteristic, thereby improving the service quality of the mobile communication.

In the following, a detailed description of preferred embodiments of the present invention will be given with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a diagram illustrating a beacon signal level automatic control system according to the present invention.

1, the system for automatically adjusting the beacon signal level according to the present invention includes a radio frequency (RF) monitoring module for monitoring a base station status by receiving a base station status detection signal and inquiring an output level measurement value for each frequency band A beacon module 100 for generating a beacon signal at a frequency for handoff and a beacon module 100 for adjusting the output level of the beacon signal according to the difference between the output level measurement value of the beacon signal and the output level measurement value of the communication user frequency And a beacon monitoring and controlling unit (200).

The RF monitoring module 300 measures the output level of the user frequency used for communication in the base station 300 and stores the measured output level in the database 310. The beacon setting information is read from a memory (not shown) for storing the base station information to display a beacon channel, and a beacon state for each beacon channel is displayed.

The beacon module 100 includes a beacon signal generator 110 for generating a beacon signal for handoff. That is, to increase the success rate of handoff between base stations having different FA (Frequency Assignment) numbers, a pilot beacon is generated, which is a frequency that provides only a pilot channel without a traffic channel. In addition, the beacon module 100 of the present invention includes a beacon signal output controller 120 for adjusting an output level value of a frequency of a beacon signal.

The beacon monitoring control unit 200 remotely monitors and controls the beacon module and inquires information stored in the database 310 of the RF monitoring module 300. And a comparator 210 for comparing the output level of the beacon signal with the output level of the frequency band of the frequency for performing the mobile communication service. The beacon signal controller 120 of the beacon module 100 is controlled according to the difference between the frequency measurement level and the reference signal level determined by the comparator 210 to adjust the output level of the beacon signal.

The beacon monitoring control unit 200 is connected to the RF monitoring module 300 through a local area network (LAN). Then, the beacon module 100 inquires the level measurement values of the frequency band stored in the database 310 of the RF monitoring module 300, calculates an average value of the actual mobile communication use frequency output levels measured for each cycle, The average value of the beacon frequency output levels of the beacon signals is calculated.

The base station 400 is arranged in a cell unit. The base station 400 receives a call request signal from the portable terminal through a traffic channel among the signal channels, transmits the received call request signal to the base station controller, And performs location registration for identifying the location of the existing portable terminal. The base station 400 also transmits a beacon signal for handoff between the base station and the base station to the mobile terminal.

2 is a flowchart illustrating a method for adjusting the beacon output level of the present invention.

Referring to FIGS. 1 and 2, a method of adjusting the beacon output level will be described. First, the RF monitoring module 300 detects a base station transmission signal (S701). That is, the average value of the output values of the used frequencies is calculated for each frequency band used by the base station. The average value is calculated as an average of the sampled values by measuring the used frequency in a predetermined time unit. Then, the calculated output value of the used frequency is transmitted to the beacon monitoring control unit 200. In addition, the beacon monitoring control unit 200 receives the output value of the beacon frequency from the beacon module 100 (S703).

The comparator 210 of the beacon monitoring and control unit 200 compares the frequency output value received from the RF monitoring module 300 with the beacon frequency output value transmitted from the beacon module 100 at step S705. At this time, the used frequency output value and the beacon frequency output value can be compared with an average value by using data for a certain period.

The beacon frequency output value is compared with the used frequency output value, and the beacon frequency output value is adjusted so that the difference between the frequency output values corresponds to a predetermined output level difference value (S709). Here is a closer look. Generally, the beacon frequency output value is set lower than the used frequency output value, and the method of setting the beacon frequency output value according to the used frequency output value is as follows.

(Beacon frequency output average value) - (Beacon frequency output average value) - (Frequency output level difference set value) = (Beacon frequency output adjustment value)

For example, in adjusting the beacon frequency output as the frequency output adjustment value, if the difference between the output frequency of the used frequency output value and the output level of the beacon frequency output value is set to 3 dB, the beacon frequency output is adjusted as follows. If the average value of the output frequency of the used frequency detected by the RF monitoring module 300 is 30 dBm, the beacon frequency output value should be adjusted to 27 dBm. At this time, if the beacon frequency output average value calculated by the beacon module 100 is 33 dBm, the beacon frequency output adjustment value should be -6 dBm such that the beacon frequency output is 27 dBm. That is, the beacon signal output controller 120 attenuates the output value of the beacon signal generated by the beacon signal generator 110 by 6 dBm.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the present invention.

The present invention can be applied to a beacon module of a base station in a mobile communication system, and is an invention that can automatically adjust an output level of a beacon signal to replace the attraction force for inspection and stabilize the output of a beacon signal.

1 shows a beacon signal output level system according to the present invention.

2 is a flowchart illustrating a beacon signal output level method according to the present invention.

Description of the Related Art [0002]

100: Beacon module 110: Beacon signal generator

120: Beacon signal output controller 200: Beacon monitoring controller

210: comparator 300: RF monitoring module

310: database 400: base station

Claims (5)

An RF monitoring module for measuring an output level of a user frequency used for communication in the base station and detecting a user frequency output value for each frequency band; A beacon module including a beacon signal output adjuster for generating a beacon signal for handoff and adjusting an output value of the beacon signal; And And a beacon monitoring controller for comparing the user frequency output value and the beacon signal output value and adjusting an output value of the beacon signal such that a difference between the user frequency output value and the beacon signal output value corresponds to a preset output level difference value Wherein the beacon signal output level control system comprises: The method according to claim 1, Wherein the RF monitoring module includes: a user frequency storage unit for calculating and storing an average value of the output value of the user frequency for a predetermined period; Wherein the beacon signal output level control system further comprises: The method according to claim 1, The beacon monitoring control unit A comparator for comparing the user frequency output value by the frequency band and the beacon signal output value to calculate a frequency difference value; And And a controller for controlling the beacon signal output controller of the beacon module according to the frequency difference value. Measuring an output level of a user frequency used for communication in the base station and detecting a user frequency output value for each frequency band; Calculating an output value of the beacon signal; And Comparing the user frequency output value with the beacon signal output value and adjusting an output value of the beacon signal such that a difference between the user frequency output value and the beacon signal output value corresponds to a predetermined output level difference value; And adjusting the beacon signal output level according to the beacon signal. 5. The method of claim 4, Wherein the step of adjusting the beacon signal output value adjusts the beacon signal output value according to the following equation. [Mathematical Expression] (Beacon frequency output average value) - (Beacon frequency output average value) - (Frequency output level difference set value) = (Beacon frequency output adjustment value)

Images