KR100487545B1 - Method of detecting transmission power in mobile base station - Google Patents

Abstract

The present invention relates to a method for detecting a transmission power of a base station in a mobile communication system. The method for detecting a transmission power of a mobile communication base station according to the present invention defines a number of sample power values to be input for detecting a transmission power and selects a channel. Receiving a set number of power values; Arranging the input power values by size, setting an upper / lower limit line, and temporarily storing power values that deviate from an upper / lower limit value; Comparing power values that deviate from the temporarily stored upper / lower limit lines to determine whether they deviate from the upper / lower limit lines by a predetermined number or more in a row; And determining an average power value using power values that deviate from the upper and lower limits by a predetermined number or more and power values corresponding to the middle 50% rank among all power values. .

According to the present invention, rather than discarding the value of 25% of the upper and lower unconditionally, if the value exceeds the upper and lower limits continuously for a predetermined number or more, the value is included in calculating the average value for more reliable transmission power. The effect of being able to detect the value is expected.

Description

Method of detecting transmission power in mobile base station

The present invention relates to a method of detecting a current transmission power for power control in a base station of a mobile communication system, and actively copes with a change in power value in consideration of monotonous increase or monotonic decrease of power due to natural and physical effects. The present invention relates to a transmission power detection method of a mobile communication base station for detecting reliable transmission power.

Since the CDMA (Code Division Multiple Access) type mobile communication system is basically a system in which channel capacity is determined by interference, the difference in signal power received from the base station is very large depending on the distance between the terminal and the base station according to a long distance or a short distance. As the near / far problem occurs, the propagation characteristics of the electromagnetic wave affect the channel capacity of the CDMA system, and thus, power control in the base station and the terminal is required to overcome such an environment and maximize the subscriber capacity.

The power control described above may be divided into reverse link power control for power transmitted from the terminal to the base station and forward link power control for power transmitted from the base station to the terminal.

In order to maximize capacity in a CDMA system, each terminal's signal must be received at the base station with a minimum signal-to-noise ratio. If the transmission power of the terminal is low, the call quality is low, and if it is high, the call quality of the terminal is good, but the communication quality of other subscribers is worsened because it greatly interferes with other terminals using the same channel.

Therefore, in order for all subscribers to maintain good call quality and maximize the capacity, the receiving power of each terminal received by the base station is the same, and the transmission power of each terminal must be controlled so that the size has at least the signal-to-interference ratio. Reverse link power control.

In addition, when the terminal is located in a region where the path loss between the current base station and the neighboring base station is similar in a cell boundary where two to three cells overlap, the terminal deteriorates the call quality due to interference by other neighboring base stations. On the contrary, when the terminal is located in a region where the signal-to-interference ratio is very good near the base station, the base station transmit power is reduced so that there is no significant effect on the call quality. It can be said that forward link power control is to reduce the size of?.

The present invention relates to a transmission power detection method in a base station for the forward link power control, and to detect transmission power in a mobile communication base station, a unit of power by a power adjust control assembly (PACA) mounted in a base station. It accepts a value and uses it to determine the send level.

1 is a block diagram illustrating a configuration of a PACA for detecting transmission power of a mobile communication base station.

Referring to FIG. 1, a PACA for detecting transmission power at a base station includes a path selection switch 10 for switching an analog signal looped back to the base station at an appropriate timing to pass at regular time intervals according to sectors and frequencies; A filter 20, a PLL 30 for bringing down a signal of a channel selected by the path selection switch 10 to an intermediate frequency, a mixer 40, and a signal separated by the intermediate frequency level are converted into a digital signal. An A / D converter 50 for performing the operation, an FPGA 60 for outputting squared input data to convert the voltage level value passing through the A / D converter 50 into a power level value, and the FPGA ( The CPU 80 performs the operation of detecting the transmission power by receiving the square value of the voltage level value output from the voltage 60, and the power value, and measures the temperature to determine the correlation between power and temperature. It is configured to include a temperature sensor 70 for transmission to the machine CPU (80).

In addition, the FPGA 60 performs an operation of squaring a voltage level value, which is to convert the voltage level value into a power level value by Equation 1 and transmit the voltage level value to the CPU 80.

In Equation 1, the impedance R is a constant value.

According to Equation 1, when the voltage level (V) digitally converted through the A / D converter 50 is squared in the FPGA 60 (V ² ), a power value is obtained. This is possible because P = V ² can be thought of as R is a constant value in Equation (1).

In this case, the CPU 80 does not receive all the power values transmitted from the FPGA 60, but accepts a predetermined number of values to calculate and report an average power value by an arbitrary algorithm.

That is, when the number is set to 100, the CPU 80 receives up to 100 power values input from the FPGA 60, and the general average value P = ), And sort the 100 power values received by the algorithm used to improve the reliability of the conventional power, starting from small values, subtracting the top 25 and the bottom 25, and the average power using the remaining 50 Calculate (P ').

2 is a diagram illustrating an embodiment of a transmission power distribution of a mobile communication base station.

Referring to FIG. 2, an average value (P = 8.7435) calculated using 100 samples using 100 different sample values is compared with an average value (P ′ = 8.5122) calculated using an algorithm.

If the comparison result does not exceed a certain range, the average value A 'calculated using the algorithm is recognized as a transmission power and reported to the upper side.

The process of detecting the conventional transmission power in more detail as follows.

3 is a flowchart illustrating an operation procedure of a transmission power detecting method of a conventional mobile communication base station.

Referring to FIG. 3, in order to detect the transmission power in the base station, the number of samples to be input is first determined as a reference (S11) and temperature information is received (S12). This is to consider the correlation with the transmission power according to the temperature.

When the number of samples is determined as described above, the path selection switch 10 of the PACA selects and passes only the signal for measuring the transmission power according to the sector and the frequency (S13), and the signal of the selected channel is passed through the PLL 30 and the mixer. It is adjusted to the intermediate frequency through 40.

At this time, the PLL 30 generates a frequency calculated to drop the received channel frequency to the intermediate frequency, and causes the frequency of the channel selected as the intermediate frequency to fall through the mixer 40.

The channel signal converted to the intermediate frequency is converted into a digital value through the A / D converter 50 (S14), and the converted digital value represents a voltage value.

Therefore, in order to obtain the power value according to Equation 1, the FPGA 60 calculates the power value by squaring the voltage value (S15) and transmits it to the CPU 80.

The CPU 80 receives sample power values from the FPGA 60 as many as the number of samples as defined in step S11 (S146), and arranges them in descending order from smallest power values (S17). At this time, they are arranged in order by mapping them to a table in consideration of the functional relationship with the temperature value received in step S12.

Only 50% of the aligned power values are taken from the middle to calculate an average value (S18), and stored in the PACA (S19).

The stored average power value is reported to the higher when there is a request from the higher (S20).

In addition, the PACA internally compares the average power value for the middle 50% and the average value for all samples to determine whether there is a difference over a certain level.

Measuring the transmission power value in the same manner as described above, it can be determined that the safety device corresponding to the phenomenon that the power level that is inevitable in the radio wave environment changes randomly. However, by taking the variance of the average values and not distinguishing the necessary data from the upper and lower 50% data, respectively, unconditionally discarding the upper 25% and lower 25%, and taking the mean of the middle 50%, In the case of CDMA, which is a separate communication method, it may be generated with an error that cannot be ignored.

In other words, if the base station transmit power level is affected by lightning or natural disasters, and there is a momentary change, the value can be ignored. However, it is an error to ignore the value of monotonic decrease or monotonic increase for a certain time. Can be generated.

In order to solve the above problem, the present invention does not unconditionally discard 25% of the upper and lower values, but includes the value in calculating the average value when the value exceeds the upper / lower limit for a certain number of consecutive times. It is an object of the present invention to provide a transmission power detection method of a mobile communication base station that can detect a more reliable transmission power value.

The transmission power detection method of a mobile communication base station according to the present invention,

Defining the number of sample power values to be input for detecting the transmission power, and selecting a channel to receive a predetermined number of power values;

Arranging the input power values by size, setting an upper / lower limit line, and temporarily storing power values that deviate from an upper / lower limit value;

Comparing power values that deviate from the temporarily stored upper / lower limit lines to determine whether they deviate from the upper / lower limit lines by a predetermined number or more in a row;

And determining an average power value using power values that deviate from the upper and lower limits by a predetermined number or more and power values corresponding to the middle 50% rank among all power values. .

Preferably, the method further comprises the step of temporarily storing the calculated average power value in the base station, and transmitting according to the request of the upper level.

A transmission power detection method of a mobile communication base station according to the present invention configured as described above will be described with reference to the accompanying drawings.

4 is a flowchart illustrating an operation procedure of a transmission power detection method of a mobile communication base station according to an embodiment of the present invention.

On the other hand, since the present invention relates to an algorithm that does not affect the configuration of the existing PACA for transmission power detection and is implemented only by software modification, the configuration of the PACA will be described with reference to FIG. 1.

4, the CPU 80 of the PACA of the base station first defines the number of samples (S101), and measures the temperature affecting the power value (S102).

In addition, the path selection switch 10 selects a channel according to the sector and the frequency, passes the signal (S10), mixes the signal output from the PLL 30, and makes the intermediate frequency.

The intermediate frequency generated as described above is converted into a digital value through the A / D converter 50 (S104), and calculated as a power value by squaring the digitized voltage value in the FPGA 60 (S105).

The power value is input to the CPU 80. The CPU 80 receives a predetermined number of power values input from the FPGA 60 (S106), and arranges the upper and lower limits in order according to the magnitude of the power values. Confirm (S108)

In addition, the power values of the upper 25% and the lower 25% is stored (S109), and it is determined whether the predetermined number continuously deviates from the upper limit or the lower limit (S110), and the power values that do not deviate continuously are discarded (S111), and continuously If the predetermined number is outside the upper or lower limit, the number is counted and the average value is stored (S112).

Then, the average power value is calculated using the average of 50% of the power values among all the sample power values, the average value stored in the step S112 and the number N of samples (S113), and the internal power is set as the transmission power level. Save (S114).

The average power value stored above is transmitted by a request of a higher level (S115).

Detecting such a transmission power level will be described in more detail below.

When the number of samples is defined as 100, the CPU 80 receives 100 power values and arranges them in order by size.

Then, the upper limit / lower limit is determined, and the upper 25 and the lower 25 are temporarily stored, and then, among the upper 25 and the lower 25 power values, whether there is a value beyond the upper limit or the lower limit in succession is examined.

At this time, if 10 out of the top 25 consecutively exceeded the upper limit, the number of samples (N = 10) is stored and the average value is stored.

For the remaining power sample values that do not deviate from the upper limit or the lower limit in succession, the value is ignored, and finally 50 intermediate power values and the values of the samples that deviate from the upper limit continuously are added, divided by 50 + N, and the average power value To obtain the transmission power level and store it internally.

As described above, in the method of detecting a transmission power of a mobile communication base station according to the present invention, a monotonous increase or a monotonous decrease occurs, instead of merely detecting the transmit power only by 50% of the sample power values. By calculating the average power value as the transmission power in consideration of the power values that deviate from the upper limit or the lower limit, it is possible to detect the reliable transmission power and to make the power control more reliable.

1 is a block diagram illustrating a configuration of a PACA for detecting transmission power of a mobile communication base station.

2 is a diagram illustrating an embodiment of a transmission power distribution of a mobile communication base station.

3 is a flowchart illustrating an operation procedure of a transmission power detecting method of a conventional mobile communication base station.

4 is a flowchart illustrating an operation procedure of a transmission power detection method of a mobile communication base station according to an embodiment of the present invention.

<Brief description of the main parts of the drawings>

10: path selector switch 20: filter

30: phase selector 40: mixer

50: A / D converter 60: FPGA

70: temperature sensor 80: CPU

Claims (2)

Setting a number of sample power values to be input for detecting transmission power, and selecting a channel to receive the set number of power values; Arranging the input power values by size , setting an upper limit or a lower limit, and temporarily storing power values that deviate from the upper limit or the lower limit; Comparing power values that deviate from the temporarily stored upper limit or lower limit to determine whether a predetermined number or more of the temporary limits deviate from the upper limit or the lower limit; And determining an average power value using a predetermined number or more of power values that deviate from the upper limit or the lower limit and power values corresponding to a middle 50% rank among all power values. Transmission power detection method of a mobile communication base station. The method of claim 1, further comprising: temporarily storing the calculated average power value in the base station and transmitting the received average power value according to a higher request.