KR20010088075A - Apparatus and Method for measuring power in base station - Google Patents

Abstract

PURPOSE: An apparatus and a method for measuring the power of a BTS(Base Transceiver Subsystem) are provided to stably operate and mange a system by measuring a weight mean value of a reliable BTS transmission power. CONSTITUTION: A power control unit(320) measures powers of a transmission signal at a certain period. A transmission power monitor process(310) calculates a weight mean value of the transmission powers measured in the power control unit(320) when a request is generated from an upper process(300). The upper process(300) requests the transmission of the transmission power to the transmission power monitor process(310) and receives the weight mean value from the transmission power monitor process(310). The transmission power monitor process(310) has a transmission power input unit(312) for receiving the transmission powers measured in the power control unit(320), a transmission power storing unit(313) for performing a control for storing the received transmission powers, a circular buffer(314) for storing the transmission powers according to the control of the transmission power storing unit(313), and a transmission power mean/response unit(311) calculates a weight mean value to residual values except for a maximum value and a minimum value among the transmission powers stored in the circular buffer(314) when a transmission request of the transmission power is generated in the upper process(300), and transmits the calculated weight mean value to the upper process(300).

Description

Apparatus and Method for measuring power in base station

TECHNICAL FIELD The present invention relates to a mobile communication system, and more particularly, to an apparatus and method for measuring power of a base station to be suitable for measuring transmission power of the base station.

1 is a block diagram illustrating a conventional base station power measurement apparatus.

Referring to FIG. 1, a conventional transmission power measuring apparatus of a base station calculates a weighted average value by receiving a power control unit 120 for measuring a transmission power of a signal at a base station terminal and a transmission power measured by the power control unit 120. A transmission power monitor process 110 and a higher process 100 that receive a weighted average value of the transmission powers calculated by the transmission power monitor process 110.

Here, the transmission power monitor process 110 may include a transmission power input unit 112 that receives the transmission power measured by the power control unit 120, and an average transmission power calculation unit 113 that calculates a weighted average value of the input transmission power. And a transmission power response section 111 that transmits the weighted average value of the calculated transmission power in response to a request of the upper process 100.

The operation of the base station power measurement apparatus configured as described above is as follows.

First, the power control unit (PACA) 120 is connected to the last stage of the base station to measure the power of the transmission signal at a predetermined period.

This measured power is transmitted to the transmit power monitor process 110.

Then, the transmission power input unit 112 of the transmission power monitor process 110 receives the transmission power measured by the power control unit 120 and transmits the input transmission power to the average transmission power calculation unit 113.

The average transmission power calculator 113 calculates a weighted average value of the transmission powers transmitted from the transmission power input unit 112, and transmits the calculated weighted average value to the transmission power response unit 111.

At this time, the average transmission power calculation unit 113 calculates the weighted average value according to the following equation (1).

Average_Tx_Power = Paca_Tx_Power × Paca_Tx_Power_Weight + Average_Tx_Power × Average_Tx_Power_Weight

Here, Paca_Tx_Power_Weight + Average_Tx_Power_Weight = 1.0 is established.

The transmission power response unit 111 stores the weighted average value transmitted from the average transmission power calculation unit 113 in a buffer (not shown), and then stores the weighted average value when the request is requested by the higher process 100. 100).

Then, the upper process 100 performs an ERP and an overhead calibration function using the weighted average value transmitted from the transmission power response unit 111.

2 is a flowchart illustrating a conventional base station transmission power measurement method.

Referring to FIG. 2, first, the transmission power monitor process receives the measured transmission power from the power control unit (S200).

Next, a weighted average value of the input transmission power is calculated (S201), and the next transmission power is monitored after a delay of a predetermined time (N ms) (S202, S203).

This operation is repeatedly performed even when the upper process does not require transmission power.

Subsequently, if the transmission process requests transmission power from the higher process (S204), the transmission power monitor process transmits the weighted average value of the transmission power stored in the buffer to the higher process (S205).

Next, the next transmission power is measured and the operation is repeated (S206).

In this way, the base station transmit power measurement method does not transmit the value of the transmit power measured by the power control unit to the higher process, and measures the transmit power periodically while there is no request from the higher process in consideration of the change in the transmit power. A weighted average value of the transmitted transmission powers is calculated and transmitted.

However, such a conventional base station transmission power measuring apparatus and method has a problem in that when the base station transmission power changes rapidly to a high or low state, the weighted average value is affected and the reliability of the measured transmission power is lowered.

Accordingly, an object of the present invention has been made in view of the above-mentioned problems of the prior art, and provides an apparatus and method for measuring base station power that can measure an accurate base station transmit power by preventing an influence caused by a sudden change in transmit power. It is to.

According to an apparatus feature of the present invention for achieving the above object, the base station power measurement apparatus is a power control unit for measuring the power of the transmission signal at the base station terminal, a transmission power input unit for receiving the measured power, and the input A transmission power storage unit performing control for storing transmission power, a buffer for storing the input transmission power under the control of the transmission power storage unit, and a transmission stored in the buffer when a transmission request of transmission power is received from the outside. A weighted average value is calculated by excluding maximum and minimum values of power, and the transmission power average / responder transmits the calculated weighted average value to a corresponding device.

Preferably, the buffer is a circular buffer having a circular queue with a predetermined size.

According to the method feature of the present invention for achieving the other object as described above, the power value of the transmission signal is measured at a predetermined period at the base station end, and the measured power values are stored in the circular buffer.

Thereafter, when there is a request from the outside, the weighted average value is calculated using the remaining power values except for the maximum and minimum values among the stored power values, and the calculated weighted average value is transmitted to the device.

1 is a block diagram showing a conventional base station power measurement apparatus.

2 is a flowchart illustrating a conventional base station transmission power measurement method.

3 is a block diagram of a base station power measurement apparatus according to the present invention.

4 is a flowchart illustrating a base station power measurement method according to the present invention.

* Description of the symbols for the main parts of the drawings *

300: upper process 310: transmit power monitor process

311: transmission power average / response section 312: transmission power input section

313 transmit power storage unit 314 circular buffer

320: power control unit

Hereinafter, a configuration and an operation according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

The present invention proposes a base station power measurement apparatus and method that can improve the reliability of the measured transmission power by measuring the accurate transmission power even in a sudden change of the base station power.

To this end, the base station power measurement apparatus according to the present invention calculates a weighted average value using the remaining transmission power values except for the maximum and minimum values of the transmission power measured from the base station. This weighted average is calculated when requested by a higher process.

In addition, the base station power measurement apparatus according to the present invention stores the transmit powers measured at the base station in a circular buffer to support the higher-level process to request the transmission of the transmit power at any time.

3 is a block diagram of a base station power measurement apparatus according to the present invention.

Referring to FIG. 3, a base station power measurement apparatus according to the present invention includes a power control unit 320 for measuring powers of a transmission signal at a predetermined period at a base station end, and the power control unit 320 when a request from an upper process 300 is requested. A transmission power monitor process 310 that calculates a weighted average value of the transmission powers measured at < RTI ID = 0.0 >, < / RTI > and transmits transmission power to the transmission power monitor process 310, and from the transmission power monitor process 310 The upper process 300 receives a weighted average value of the transmission power.

Here, the transmission power monitor process 310 may include a transmission power input unit 312 that receives the transmission powers measured by the power control unit 320, and a transmission power storage unit 313 which performs control for storing the input transmission powers. ), A circular buffer 314 for storing the input transmission powers under the control of the transmission power storage unit 313, and the circular buffer 314 when a transmission request of transmission power is requested by the upper process 300. The transmission power average / responder 311 calculates a weighted average value of the remaining values except for the maximum value and the minimum value among the transmission powers stored in the P-value, and transmits the calculated weighted average value to the upper process 300.

The operation of the base station power measurement apparatus configured as described above is as follows.

First, the power control unit 320 is connected to the base station terminal to measure the power of the transmission signal at a predetermined period.

The transmit powers measured by the power control unit 320 are input to the transmit power input unit 312 of the transmit power monitor process 310.

The transmission power input unit 312 transmits the input transmission powers to the transmission power storage unit 313, and the transmission power storage unit 313 controls the transmitted transmission powers and stores them in the circular buffer 314.

At this time, the transmission power storage unit 313 sequentially stores the transmission powers from the next buffer slot in which no data is stored in the circular buffer 314. Thus, circular buffer 314 having a circular queue of size N will always store the latest N transmit power values.

Thereafter, if there is a request for transmission of transmission power from the upper processor 300, the transmission power average / responder 311 is the remaining power except for the maximum value and the minimum value among the transmission power values stored in the circular buffer 314. A weighted average value is calculated for the values, and the calculated weighted average value is sent to the higher process 300.

Then, the higher process 300 performs an ERP and an overhead calibration function using the weighted average value transmitted from the transmission power average / responder 311.

Meanwhile, the upper process 300 may request transmission of transmission power at any time regardless of the state of the buffer since the last N transmission powers are stored in the circular buffer 314.

4 is a flowchart illustrating a base station power measurement method according to the present invention.

Referring to FIG. 4, first, the power control unit measures the power of the transmission signal from the base station end, and transmits the measured transmission power to the transmission power monitor process (S400).

The transmission power monitor process stores the transmitted transmission power in a circular buffer (S401). Subsequently, after a predetermined time passes, steps S400 to S401 are repeated to monitor the next transmission power (S403).

Thereafter, if there is a request for transmission of transmission power from an upper process (S404), the transmission power monitor process displays and distinguishes the maximum value and the minimum value among the respective transmission powers stored in the circular buffer (S406), and the maximum value and A weighted average value of the remaining power values except the minimum value is calculated (S407).

Subsequently, the transmission power monitor process initializes the maximum / minimum power indication of the circular buffer, and then transmits the calculated weighted average value to the upper process (S408 and S409).

As described above, in the present invention, the weighted average value of the transmission powers transmitted from the power control unit is not immediately calculated, but is first stored in the buffer, and then the weighted average value is calculated and transmitted to the higher process when requested by the higher processor.

As described above, according to the base station power measuring apparatus and method according to the present invention, the weighted average value of the reliable base station transmission power can be measured by calculating the weighted average value excluding the maximum and minimum values of the transmission power measured by the base station. There is.

In addition, by using the circular queue to store the measured transmission power, the upper process can request the transmission of the transmission power regardless of the state of the buffer, thereby making it possible to stabilize system operation / management.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the examples, but should be defined by the claims.

Claims (3)

A power control unit for measuring the power of the transmission signal at the base station end; A transmission power input unit for receiving the measured power; A transmission power storage unit performing control for storing the input transmission power; A buffer for storing the input transmission power under the control of the transmission power storage unit; And a transmission power average / responder for calculating a weighted average value excluding the maximum and minimum values among the transmission powers stored in the buffer when a transmission power transmission request is received from the outside, and transmitting the calculated weighted average value to the corresponding device. Base station power measurement device. The apparatus of claim 1, wherein the buffer is a circular buffer having a circular queue having a predetermined size. Measuring power values of a transmission signal at a predetermined period at a base station end; Storing the measured power values in a circular buffer; Calculating a weighted average value by using the remaining power values except for the maximum and minimum values among the stored power values when there is a request from the outside, And transmitting the calculated weighted average value to a corresponding device.