KR100990727B1 - Method for compensating rainfall attenuation loss of microwave repeater - Google Patents

Abstract

Disclosed is a method for compensating rainfall attenuation losses in a microwave repeater. Rainfall attenuation loss compensation method of a microwave repeater according to an embodiment of the present invention comprises the steps of receiving a reverse pilot signal transmitted from the microwave remote repeater (M / W RU); Calculating a reverse path loss using the received reverse pilot signal; Comparing the calculated reverse path loss with a predetermined reference value and determining that reverse rain attenuation loss occurs when the reverse path loss is greater than the reference value; If it is determined that a reverse rainfall attenuation loss has occurred, calculating a reverse rainfall attenuation loss corresponding to a difference between the calculated reverse path loss and the reference value; And after calculating a difference between the first compensation value set in advance to compensate for the calculated reverse rainfall attenuation loss and the reverse rainfall attenuation loss, the M / W RU can compensate for the remainder of the reverse rainfall attenuation loss. The method may include transmitting a second compensation value corresponding to the difference to the M / W RU.

Microwave (M / W), Repeater, Rain Attenuation, Pilot Signal, Forward, Reverse

Description

Rainfall attenuation loss compensation method for microwave repeater {METHOD FOR COMPENSATING RAINFALL ATTENUATION LOSS OF MICROWAVE REPEATER}

The present invention relates to rainfall attenuation loss compensation of a microwave repeater, and more particularly, a pilot in a relay system in which a microwave (M / W) donor repeater (DU) is interlocked with a plurality of M / W remote repeaters (RU). The present invention relates to a rainfall attenuation loss compensation method of a microwave repeater capable of compensating forward rainfall attenuation loss and reverse rainfall attenuation loss using a signal.

In general, various mobile communication systems including mobile phones and personal mobile communication are largely comprised of a mobile switching center, a base station transceiver subsystem, and a mobile station. It has a constant cell coverage based on radio wave strength and call quality received by the mobile communication terminal.

Therefore, when designing a network, a predetermined area is appropriately arranged and constructed to cover a predetermined area with a plurality of base stations based on such a call radius. However, due to the propagation characteristics, a shaded area where communication is impossible due to a decrease in the strength and quality of radio waves. Many of these will occur.

Repeater (repeater) is a device for solving such a shadow area, is installed between the base station and the mobile communication terminal is used to remove the shadow area and to expand the service area of the base station. That is, the repeater amplifies the signal output from the base station and provides it to the mobile communication terminal and amplifies the signal output from the mobile communication terminal and provides it to the base station.

Such a repeater is particularly difficult to install, such as optical cable, even if installed in the area where the number of users can be very small in place of the base station, through which it is possible to expand the service area of the base station as well as economic benefits.

In the microwave relay system, transmission loss occurs due to environmental change in the wireless section between the M / W donor repeater (DU) and the M / W remote repeater (RU), and the transmission loss due to the rainfall is very large.

In other words, in the case of a relay system installed in a region with a lot of rainfall, the loss due to rainfall attenuation frequently occurs. In the case of a relay system installed in a region where the rainfall is not large, the loss due to rainfall attenuation may occur less.

Therefore, in the relay system, transmission loss (rainfall attenuation loss) due to rainfall in the wireless section should be compensated.

However, compensation for rainfall attenuation loss in the M / W relay system is limited to the case where the M / W DU and the M / W RU are 1: 1 interlocked.

Therefore, in a 1: N configuration in which a plurality of M / W RUs interworking with different M / W DUs with rainfall attenuation losses for each path, each device compensates rainfall attenuation losses for each path to enable efficient equipment operation. There is a need for a method.

An object according to an embodiment of the present invention, which was created to solve the above problems, is a forward and reverse rainfall that may be generated differently for each path in a relay system including an M / W DU interworking with a plurality of M / W RUs. To provide a method for compensating rainfall attenuation loss of a microwave repeater capable of compensating attenuation loss.

Another object of the present invention is to compensate for rainfall attenuation losses in M / W DU and M / W RU, thereby compensating for the rainfall attenuation loss of the microwave repeater capable of compensating forward and reverse rainfall attenuation losses. To provide.

In order to achieve the above object, a method for compensating rainfall attenuation loss of a microwave repeater according to an aspect of the present invention includes: receiving a reverse pilot signal transmitted from a microwave remote repeater (M / W RU); Calculating a reverse path loss using the received reverse pilot signal; Comparing the calculated reverse path loss with a predetermined reference value and determining that reverse rain attenuation loss occurs when the reverse path loss is greater than the reference value; If it is determined that a reverse rainfall attenuation loss has occurred, calculating a reverse rainfall attenuation loss corresponding to a difference between the calculated reverse path loss and the reference value; And after calculating a difference between the first compensation value set in advance to compensate for the calculated reverse rainfall attenuation loss and the reverse rainfall attenuation loss, the M / W RU can compensate for the remainder of the reverse rainfall attenuation loss. The method may include transmitting a second compensation value corresponding to the difference to the M / W RU.

According to another aspect of the present invention, a method for compensating rainfall attenuation loss of a microwave repeater includes: transmitting a reverse pilot signal to a microwave donor repeater (M / W DU); Receiving a second compensation value corresponding to a portion of a reverse rainfall attenuation loss calculated and transmitted by the M / W DU based on the reverse pilot signal; And compensating for the reverse rainfall attenuation loss corresponding to the received second compensation value, wherein the second compensation value is the reverse rainfall attenuation loss calculated and the reverse rainfall attenuation loss compensated for in the M / W DU. It may be a difference between a preset first compensation value corresponding to a part of.

Rainfall attenuation loss compensation method of a microwave repeater according to another aspect of the present invention includes the steps of transmitting a reverse pilot signal to the microwave donor repeater (M / W DU); Receiving a reverse rainfall attenuation loss calculated and transmitted by the M / W DU based on the reverse pilot signal; Calculating a difference between the received reverse path attenuation loss and a predetermined first compensation value corresponding to a part of the reverse rainfall attenuation loss compensated for in the M / W DU; And compensating for the reverse rainfall attenuation loss of the second compensation value corresponding to the calculated difference.

Rainfall attenuation loss compensation method of the microwave repeater according to another aspect of the present invention receives the forward pilot signal transmitted from the microwave donor repeater (M / W DU), and forward path loss using the received forward pilot signal Calculating; Comparing the calculated forward path loss with a predetermined reference value and determining that a forward rainfall attenuation loss occurs when the forward path loss is greater than the reference value; If it is determined that a forward rainfall attenuation loss has occurred, calculating a forward rainfall attenuation loss corresponding to a difference between the forward path loss and the reference value; Calculating a difference between the calculated forward rainfall attenuation loss and a predetermined first compensation value corresponding to a part of the forward rainfall attenuation loss compensated in the M / W DU; And compensating for the forward rainfall attenuation loss of the second compensation value corresponding to the calculated difference.

Other objects and features of the present invention in addition to the above objects will be apparent from the description of the embodiments with reference to the accompanying drawings.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

Hereinafter, a method for compensating rainfall attenuation loss of a microwave repeater according to an exemplary embodiment of the present invention will be described in detail with reference to FIGS. 1 to 4.

1 is a diagram illustrating an exemplary relay system for explaining a method for compensating rainfall attenuation loss of a microwave repeater according to the present invention.

Referring to FIG. 1, the relay system includes a base station 110, a donor unit (DU) 120, and a plurality of remote units (RU) 130 and 140.

In the DU 120, the RF DU 123 receives the RF signal transmitted from the base station 110 through the RF antenna 121, amplifies the received RF signal, and outputs the RF signal to the M / W DU 125. The RF signal output from the M / W DU 125 may be received and amplified and transmitted to the base station 110.

In this case, the RF DU 123 may generate and output a forward pilot signal for calculating a forward rainfall attenuation loss between paths between the M / W DU 125 and the plurality of M / W RUs 133. .

The M / W DU 125 receives the RF signal output from the RF DU 123, converts the M / W RU into an M / W signal corresponding to the received RF signal, and then performs the M / W RU through the M / W antenna 127. Send to (133).

In this case, the M / W DU 125 transmits the forward pilot signal to the M / W antenna 127 so that the M / W RU 133 can calculate the respective forward rainfall attenuation loss with respect to the plurality of M / W RUs 133. ) Can be transmitted to a plurality of M / W RU 133, the forward pilot signal transmitted may be a signal generated by the RF DU 123, or may be a signal generated by the M / W DU (125). .

Of course, when the forward rainfall attenuation loss occurs, the M / W DU 125 may compensate for the transmitted signal by a predetermined value of the forward rainfall attenuation loss and then send it to the M / W RU 133.

In addition, the M / W DU 125 converts the M / W signals received from the plurality of M / W RUs 133 into RF signals and outputs them to the RF DU 123, and includes the reverse directions included in the M / W signals. The reverse rainfall attenuation loss can be calculated using a pilot signal.If the maximum value is greater than the reference value by comparing the maximum value of the path loss calculated during the preset time and the preset reference value, the difference between the two values is determined as the reverse rainfall attenuation loss. Calculate the reverse rainfall attenuation loss corresponding to. In this case, the reference value may be set to a minimum value of the path loss measured for a certain period (eg, one day) in a sunny state, for example, when no rainfall occurs.

Here, the received reverse pilot signal may be a signal generated by the M / W RU 133 or the RF RU 135.

At this time, the M / W DU 125 receives a reverse pilot signal transmitted from each of the plurality of M / W RUs 133 for a predetermined time in order to calculate the reverse rainfall attenuation loss with respect to the plurality of M / W RUs 133. It is desirable to receive sequentially at intervals. This is because when the reverse pilot signals transmitted from the plurality of M / W RUs 133 are received at the same time, they are combined into one reverse pilot signal and thus the reverse rainfall attenuation loss for each path cannot be calculated.

Thus, in order to calculate the rainfall attenuation loss for each path from each of the plurality of M / W RUs 133, the corresponding reverse pilot signal is defined at both the M / W DU 125 and the M / W RU 133 at a defined time. Rainfall attenuation loss of each path can be calculated by sending it out accordingly.

Of course, when the M / W DU 125 requests the reverse pilot signal for calculating the rainfall attenuation loss to each of the M / W RUs 133, the corresponding M / W RU 133 may transmit the reverse pilot signal.

The M / W DU 125 calculates a plurality of reverse rainfall attenuation losses or reverse rainfall attenuation losses and the reverse rainfall attenuation losses compensated by the M / W DU 125 when the path-specific reverse rainfall attenuation losses are calculated. Each second compensation value, which is a difference between the corresponding first compensation values, may be transmitted to the corresponding M / W RU 133.

Here, even if the M / W DU 125 transmits the calculated reverse rainfall attenuation loss to the corresponding M / W RU 133, the M / W DU 125 compensates for the first compensation value corresponding to a part of the reverse rainfall attenuation loss. That is, when it is determined that the reverse rainfall attenuation loss occurs, the M / W DU 125 compensates for the loss equal to the first compensation value among the reverse rainfall attenuation losses with the plurality of M / W RUs 133, and the plurality of Ms. Each of the / W RUs 133 compensates the reverse rainfall attenuation loss by the second compensation value corresponding to the difference between the reverse rainfall attenuation loss and the first compensation value for the corresponding path. For example, an M / W DU is associated with two M / W RUs, the rainfall attenuation loss with the first M / W RU is 6 [dB], and the rainfall attenuation loss with the second M / W RU is 8 [dB]. Assuming that 5 [dB] is compensated for in the M / W DU, the first M / W RU is 1 [dB], which is the difference between the corresponding rainfall attenuation loss (6 [dB]) and the first compensation value (5 [dB]). The second M / W RU compensates for 3 [dB], which is a difference between the corresponding rainfall attenuation loss (8 [dB]) and the first compensation value (5 [dB]), and outputs a signal.

In this case, the first compensation value compensated by the M / W DU 125 may vary depending on an environment in which the M / W relay system is installed.

In the RU, the M / W RU 133 receives the M / W signal transmitted from the M / W DU 125 through the M / W antenna 131 and converts the received M / W signal into an RF signal. Output to RF RU 135.

In this case, the M / W RU 133 may calculate the forward rainfall attenuation loss using the forward pilot signal transmitted from the M / W DU 125. The maximum of the path loss calculated for a predetermined time by using the forward pilot signal. If the value is larger than the reference value, it can be determined as the forward rainfall attenuation loss and the difference between the two values can be calculated as the forward rainfall attenuation loss. Of course, the forward rainfall attenuation loss may only be compensated for in the M / W RU 133, or may be distributed and compensated for with the M / W DU 125.

That is, when the M / W RU 133 compensates all of the forward rainfall attenuation loss, the signal is output by increasing the output by the calculated forward rainfall attenuation loss, and when the compensation is performed by distributing the M / W DU 125. By transmitting to the M / W DU 125 that the forward rainfall attenuation loss has occurred, the M / W DU 125 compensates for the first compensation value of the forward rainfall attenuation loss to output a signal, and outputs the M / W RU 133. ) And outputs a signal by compensating for the second compensation value corresponding to the difference between the forward rainfall attenuation loss and the first compensation value. Of course, the second compensation value compensated in each of the plurality of M / W RUs may be different because the forward rainfall attenuation loss may be different for each path.

In addition, the M / W RU 133 receives an RF signal output from the RF RU 135 and converts the RF signal into an M / W signal corresponding to the RF signal, and then, through the M / W antenna 131, the M / W DU ( 125. When receiving the second compensation value which is a part of the reverse rainfall attenuation loss or the reverse rainfall attenuation loss from the M / W DU 125, the compensation is performed by the reverse rainfall attenuation loss or by the second compensation value. Can send a signal.

In this case, when the M / W DU 125 and the reverse rainfall attenuation loss are distributed and compensated, the M / W RU 133 receives the reverse rainfall attenuation loss calculated and transmitted by the M / W DU 125. The difference between the reverse rainfall damping loss and the preset compensation value of the M / W DU 125, that is, the first compensation value, to compensate for the reverse rainfall attenuation loss by the second compensation value corresponding to the difference, and the second compensation. If the value is directly received, the reverse rainfall attenuation loss equal to the second compensation value may be compensated.

Here, compensation for the forward rainfall attenuation loss applied between the M / W RU 133 and the M / W DU 125 may be applied to the reverse rainfall attenuation loss. That is, the compensation value for the forward rainfall attenuation loss compensated by the M / W RU 133 is applied to the reverse rainfall attenuation loss as it is, and the compensation value for the forward rainfall attenuation loss compensated by the M / W DU 125 is reversed. By applying equally to the rainfall attenuation loss, the reverse rainfall attenuation loss may be compensated.

The RF RU 135 receives and amplifies an RF signal output from the M / W RU 133 and transmits the RF signal to a corresponding region through the RF antenna 137, and amplifies the RF signal received by the RF antenna 137 to M. / W output to RU 133.

In this case, the reverse pilot signal transmitted from the M / W RU 133 to the M / W DU 125 may be generated and transmitted by the M / W RU 133 or the RF RU 135.

As such, the compensation for the forward rainfall attenuation loss and the reverse rainfall attenuation loss in the M / W stage may be compensated in real time.

2 is an operation flowchart for forward rainfall attenuation loss compensation according to an embodiment of the present invention.

Referring to FIG. 2, when the M / W RU receives the forward pilot signal transmitted from the M / W DU, the M / W RU calculates a path loss between the M / W DU and the M / W RU for a predetermined time (S210 and S220).

Select the maximum value of the calculated forward path losses, compare the selected maximum value with the preset reference value, and determine that the forward rainfall attenuation loss occurs when the maximum value is greater than the reference value, and the forward rainfall attenuation loss corresponding to the difference between the maximum value and the reference value To calculate (S230 to S250).

At this time, it is preferable to set the reference value compared to determine the forward rainfall attenuation loss to the minimum value of the path loss measured in the environment where the damping due to the rain does not occur. That is, by setting the minimum value of the previously measured path loss as a reference value in the state where the influence of a specific environmental change is excluded, it is determined that the path loss due to the rain occurs when a path loss having a value larger than the reference value occurs.

When the forward rainfall attenuation loss is calculated, it is transmitted to the M / W DU that the forward rainfall attenuation loss has occurred (S260), and corresponds to a portion of the calculated forward rainfall attenuation loss and the forward rainfall attenuation loss compensated by the M / W DU. Compensating the forward rainfall attenuation loss with the second compensation value by calculating a second compensation value that is a difference between the preset first compensation value (S280). Of course, the M / W DU compensates with the first compensation value corresponding to a part of the forward rainfall attenuation loss (S270).

That is, in the forward rainfall attenuation loss compensation method according to an embodiment of the present invention, when it is determined that the forward rainfall attenuation loss has occurred, the M / W DU and the M / W RU divide and compensate the forward rainfall attenuation loss to output a signal. As a result, the loss due to forward rainfall attenuation can be compensated.

Of course, when there are a plurality of M / W RUs interworking with the M / W DU, the result of whether the forward rainfall attenuation loss generated by each of the M / W RUs may be sequentially transmitted to the M / W DU.

The calculated forward rainfall attenuation loss can also be applied to the reverse rainfall attenuation loss. That is, assuming that the forward rainfall attenuation loss and the reverse rainfall attenuation loss are the same, each of the M / W RUs compensates the reverse rainfall attenuation loss with the calculated second compensation value, and in the M / W DU, the reverse rainfall attenuation is used as the first compensation value. The loss can be distributed and compensated. Of course, the forward rainfall attenuation loss and the reverse rainfall attenuation loss may be applicable because the difference occurs to some extent due to the frequency difference.

3 is a flowchart illustrating a method for compensating for reverse rainfall attenuation loss according to an embodiment of the present invention.

Referring to FIG. 3, the M / W DU receives a reverse pilot signal transmitted from an M / W RU and calculates a reverse path loss for a predetermined time using the received reverse pilot signal (S310 and S320).

In this case, when the M / W DU is interworked with a plurality of M / W RUs, the M / W DU receives a reverse pilot signal transmitted from each of the plurality of M / W RUs at predetermined time intervals, thereby reducing path loss for each path with each of the M / W RUs. Can be calculated

Select the maximum value of the reverse path loss calculated for a certain period of time, compare the selected maximum value with the preset reference value, and if the maximum value is larger than the reference value, determine that the reverse rainfall attenuation loss occurred, and the reverse value corresponding to the difference between the maximum value and the reference value Rainfall attenuation loss is calculated (S330 to S350).

Once the reverse rainfall attenuation loss is calculated, a portion of the reverse rainfall attenuation loss to be compensated for in the M / W RU is calculated so that the calculated reverse rainfall attenuation loss can be distributed and compensated in the M / W DU and the M / W RU. That is, the M / W DU calculates a second compensation value corresponding to the difference between the calculated reverse rainfall attenuation loss and the preset first compensation value (S360).

The M / W DU sends the calculated second compensation value to the M / W RU, and the M / W RU compensates for the reverse rainfall attenuation loss with the received second compensation value (S370 and S390).

In this case, the second compensation values transmitted to the plurality of M / W RUs may be different because the reverse rainfall attenuation loss for each path may be different. That is, each of the plurality of M / W RUs receives a second compensation value transmitted from the M / W DU and compensates a part of the reverse rainfall attenuation loss with the received second compensation value.

The M / W DU compensates for a part of the reverse rainfall attenuation loss with respect to the predetermined first compensation value irrespective of the reverse rainfall attenuation loss per path (S380).

As described above, the reverse rainfall attenuation loss compensation method according to an embodiment of the present invention distributes and compensates the reverse rainfall attenuation loss generated in each of the M / W DU and the plurality of M / W RU paths, thereby contributing to the plurality of M / W RUs. Reverse rainfall attenuation losses for each path can be compensated for.

FIG. 4 is an operation flowchart of a reverse rainfall attenuation loss method according to another embodiment of the present invention, which is not performed in the M / W DU in FIG. There is a difference between doing it.

That is, steps S410 to S450 are the same as steps S310 to S350 shown in FIG. 3, and when the reverse rainfall attenuation loss is calculated by step S440, the calculated reverse rainfall attenuation loss is sent to the M / W RU (S460).

When the reverse rainfall attenuation loss is received, the M / W RU calculates a difference between the received reverse rainfall attenuation loss and the first compensation value that is a part of the reverse rainfall attenuation loss compensated in the M / W DU, that is, the second compensation value (S470). ).

The M / W RU compensates for a part of the reverse rainfall attenuation loss with the calculated second compensation value (S490), and the M / W DU compensates for a part of the reverse rainfall attenuation loss with the preset first compensation value (S480). All of the reverse rainfall attenuation losses generated between the M / W DU and the M / W RU can be compensated for.

Rainfall attenuation loss compensation method of the microwave repeater according to the present invention can be modified and applied in various forms within the scope of the technical idea of the present invention and is not limited to the above embodiments. In addition, the embodiments and drawings are merely for the purpose of describing the contents of the invention in detail, not intended to limit the scope of the technical idea of the invention, the present invention described above is common knowledge in the technical field to which the present invention belongs As those skilled in the art can have various substitutions, modifications, and changes without departing from the spirit of the present invention, it is not limited to the embodiments and the accompanying drawings. And should be judged to include equality.

1 is a diagram illustrating an exemplary relay system for explaining a method for compensating rainfall attenuation loss of a microwave repeater according to the present invention.

2 is an operation flowchart for forward rainfall attenuation loss compensation according to an embodiment of the present invention.

3 is a flowchart illustrating a method for compensating for reverse rainfall attenuation loss according to an embodiment of the present invention.

4 is an operation flowchart of a reverse rainfall attenuation loss method according to another embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

120: donor repeater (DU)

123: RF DU

125: microwave (M / W) DU

130, 140: remote repeater (RU)

133: M / W RU

135: RF RU

Claims (10)

Receiving a reverse pilot signal transmitted from a microwave remote repeater (M / W RU); Calculating a reverse path loss for a preset time using the received reverse pilot signal; Comparing the maximum value of the reverse path loss calculated during the predetermined time with a preset reference value and determining that a reverse rainfall attenuation loss has occurred when the maximum value of the reverse path loss is larger than the reference value; If it is determined that a reverse rainfall attenuation loss has occurred, calculating a reverse rainfall attenuation loss corresponding to a difference between the calculated maximum value of the reverse path loss and the reference value; And After calculating the difference between the calculated reverse rainfall attenuation loss and a first compensation value preset in the microwave donor repeater (M / W DU) to compensate for a part of the reverse rainfall attenuation loss, the remainder of the reverse rainfall attenuation loss is calculated. Transmitting a second compensation value corresponding to the difference to the M / W RU to compensate for the M / W RU Rainfall attenuation loss compensation method of the microwave repeater comprising a. The method of claim 1, Rainfall attenuation loss compensation method of the microwave repeater When interworking with a plurality of M / W RU, sequentially receive a plurality of reverse pilot signals transmitted from the plurality of M / W RU at a predetermined time interval, Calculate a second compensation value of each of the plurality of M / W RUs based on each of the plurality of reverse pilot signals received; Rainfall attenuation loss compensation method of the microwave repeater for transmitting each of the calculated second compensation value to the corresponding M / W RU. delete The method of claim 1, The reference value is Rainfall attenuation loss compensation method of microwave repeater which is the minimum value of the reverse path loss measured when no rainfall phenomenon occurs. delete Transmitting a reverse pilot signal from the microwave remote repeater (M / W DU) to the microwave donor repeater (M / W DU); The M / W DU calculates a reverse path loss for a predetermined time using the reverse pilot signal, and compares the maximum value of the reverse path loss calculated during the predetermined time with a preset reference value to determine the reverse path loss. Determining that a reverse rainfall attenuation loss occurs when the maximum value is greater than the reference value; If it is determined that a reverse rainfall attenuation loss occurs in the M / W DU, a reverse rainfall attenuation loss corresponding to a difference between the calculated maximum value of the reverse path loss and the reference value is calculated, and the calculated reverse rainfall attenuation loss is calculated. Transmitting to the M / W RU; The reverse rainfall attenuation loss is received at the M / W RU, and a difference between the received reverse path attenuation loss and a predetermined first compensation value corresponding to a portion of the reverse rainfall attenuation loss compensated for the M / W DU is determined. Calculating; And Compensating for a reverse rainfall attenuation loss of a second compensation value corresponding to the difference calculated at the M / W RU Rainfall attenuation loss compensation method of the microwave repeater comprising a. Receiving a forward pilot signal transmitted from a microwave donor repeater (M / W DU), and calculating a forward path loss for a predetermined time using the received forward pilot signal; Comparing the maximum value of the forward path loss calculated during the predetermined time with a preset reference value and determining that a forward rainfall attenuation loss occurs when the maximum value of the forward path loss is greater than the reference value; If it is determined that a forward rainfall attenuation loss has occurred, calculating a forward rainfall attenuation loss corresponding to a difference between the maximum value of the forward path loss and the reference value; Calculating a difference between the calculated forward rainfall attenuation loss and a predetermined first compensation value corresponding to a part of the forward rainfall attenuation loss compensated in the M / W DU; And Compensating for the forward rainfall attenuation loss of the second compensation value corresponding to the difference calculated Rainfall attenuation loss compensation method of the microwave repeater comprising a. delete The method of claim 7, wherein The reference value is Rainfall attenuation loss compensation method of microwave repeater which is the minimum value of the measured forward path loss when no rainfall occurs. The method of claim 7, wherein Rainfall attenuation loss compensation method of the microwave repeater A method of compensating for rainfall attenuation loss of a microwave repeater, when a reverse rainfall attenuation loss occurs, compensating a part of the reverse rainfall attenuation loss with the second compensation value.

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