JP6621726B2 - System, control device, and amplification method - Google Patents

Description

  Embodiments described herein relate generally to a system, an amplification device, a control device, and an amplification method.

A radio communication system (hereinafter referred to as “LTE system”) to which LTE (Long Term Evolution) is applied is compared with a radio communication system to which CDMA (Code Division Multiple Access) is applied, due to interference waves. Communication quality at the terminal is likely to deteriorate. In particular, in LTE systems, uplink signals often become a bottleneck for degradation of communication quality in a communication area.
In the LTE system, when designing a communication area, the interference tolerance to user terminals (User Equipment: UE) from other cells is increased by subdividing sectors or reducing the communication area. It has been broken. If the communication area is reduced, it is necessary to increase the number of base stations, but it is difficult to achieve a balance from the viewpoint of cost-effectiveness such as securing a place for installing the base stations and infrastructure construction costs.

  In order to eliminate a bottleneck in which an uplink signal transmitted from a UE does not reach a base station, it is known to install a TAA (Power Top Amplifier). TAA installs a transmission amplifier and a reception amplifier directly below an antenna to reduce loss of the antenna feeding system. When a TAA is installed to amplify the reception level of a desired wave and an interference wave, there is a communication area where S / N can be improved, and reception sensitivity and uplink throughput can be improved.

  As a technique for amplifying an uplink signal, a technique for adjusting the gain of a booster that amplifies radio waves transmitted by a mobile device is known (for example, see Patent Document 1). According to this technique, a perch signal transmitted by a base station or the like is received, the received power of the perch signal in a booster is measured, information on the transmission power of the perch signal in the base station or the like is received, and the amplified uplink Measure the noise power in the signal booster. Based on the transmission power of the perch signal at the base station, the reception power of the perch signal booster, and the noise power of the amplified upstream signal booster, the amplification gain of the upstream signal and the amplification gain of the downstream signal are controlled.

JP 2001-069091 A

  However, in a communication area where the interference wave level is high, there is a possibility that the interference wave level will rise more than necessary by amplifying the uplink signal. In this case, even when the TAA is installed to amplify the reception levels of the desired wave and the interference wave, the improvement of the S / N may be limited.

  The present invention has been made to solve the above problems, and an object thereof is to amplify an uplink signal while ensuring S / N.

(1) One aspect of the present invention is a system and a control device for controlling the amplification unit and amplification device for amplifying a signal of uplink terminal device transmits the control device, the uplink Based on the information indicating the interference wave level of the uplink signal measured by the base station that has received the signal, the gain of the amplification device when the interference wave level of the uplink signal is equal to or less than a first threshold value And when determining that the gain of the amplifying device is to be reduced when the gain is larger than the first threshold, and when the determining unit determines to change the gain of the amplifying device, A determination unit configured to determine a gain to be set in the amplification device based on an interference wave level of the signal; and an output unit configured to output information indicating the gain determined by the determination unit to the amplification device. Based on information indicating the gain output by the control device, an amplification unit that amplifies an uplink signal transmitted by the terminal device, and information indicating the gain acquired by the acquisition unit, And a setting unit that sets a gain in the amplification unit.
(2) One aspect of the present invention is a system including an amplifying device that amplifies an uplink signal transmitted from a terminal device and a control device that controls the amplifying device, wherein the control device A determination unit that determines that the gain of the amplification device is to be increased when an S / N of the signal is greater than a threshold; and an interference of the signal in the uplink when the determination unit determines to change the gain of the amplification device A determination unit configured to determine a gain to be set in the amplification device based on a wave level; and an output unit configured to output information indicating the gain determined by the determination unit to the amplification device. The amplifying unit for acquiring information indicating the gain output from the control device, an amplifying unit for amplifying an uplink signal transmitted by the terminal device, and the amplification based on the information indicating the gain acquired by the acquiring unit Part A system comprising a setting unit for setting a gain.

(3) One aspect of the present invention, in the system according to (1) or (2), wherein the control device, a monitoring unit for monitoring the variation of a certain time of the interference power of the uplink signal The determination unit is a system that determines whether or not to change the gain of the amplification device based on a fluctuation amount of the interference power monitored by the monitoring unit over a certain period of time.

( 4 ) One aspect of the present invention is the system according to any one of ( 1 ) to ( 3 ) above, in which the determination unit is configured to output information indicating the gain before the information is output to the amplification device. The S / N or N component of the uplink signal is improved by a second threshold value or more compared to the S / N or N component of the uplink signal after the information indicating the gain is output to the amplifier. If not, the system determines that the information indicating the gain is changed to a gain before being output to the amplification device.

( 5 ) One aspect of the present invention is the system according to any one of (1) to ( 4 ), in which the output unit is information indicating the gain to a power line that supplies power to the amplifying device. And the acquisition unit acquires information indicating the gain from the power line.

(6) One aspect of the present invention is a control device that controls an amplifying device that amplifies an uplink signal transmitted by a terminal device, and the uplink measurement is performed by a base station that has received the uplink signal. Based on the information indicating the interference wave level of the signal, it is determined that the gain of the amplification device is increased when the interference wave level of the uplink signal is equal to or lower than a first threshold value, and is larger than the first threshold value. A determination unit that determines that the gain of the amplification device is to be reduced, and sets the amplification device based on the interference wave level of the uplink signal when the determination unit determines to change the gain of the amplification device A control unit including a determination unit that determines a gain to be performed, and an output unit that outputs information indicating the gain determined by the determination unit to the amplification device.

( 7 ) One aspect of the present invention is a control device that controls an amplifying device that amplifies an uplink signal transmitted by a terminal device, and when the S / N of the uplink signal is greater than a threshold, and a determination unit increases the gain of the amplifier, if the determination section determines to change the gain of the amplifying device, based on the interference wave level of the uplink signal, the gain to be set to the amplification device The control device includes a determination unit that determines and an output unit that outputs information indicating the gain determined by the determination unit to the amplification device.

(8) One aspect of the present invention is an amplification method executed by a system including an amplification device that amplifies an uplink signal transmitted from a terminal device and a control device that controls the amplification device, the control device Is based on information indicating the interference wave level of the uplink signal measured by the base station that has received the uplink signal, and the uplink interference signal level is equal to or lower than a first threshold value Determining that the gain of the amplifying device is to be increased, and determining that the gain of the amplifying device is to be decreased when the gain is greater than the first threshold; and And determining the gain to be set in the amplifying device based on the interference wave level of the uplink signal, and the control device determines the step to determine Outputting the information indicating the gain determined in step (a) to the amplifying device; obtaining the information indicating the gain output from the control device; and amplifying device acquiring the information. A step of setting a gain based on the acquired information indicating the gain; and a step of amplifying an uplink signal transmitted by the terminal device with the gain set in the step of setting the gain by the amplification device. It has an amplification method.
(9) One aspect of the present invention is an amplification method executed by a system including an amplification device that amplifies an uplink signal transmitted by a terminal device and a control device that controls the amplification device, the control device When the S / N of the uplink signal is larger than a threshold value, the step of determining to increase the gain of the amplification device and the control device changing the gain of the amplification device in the determination step Determining the gain to be set in the amplifying device based on the interference wave level of the uplink signal when the determination is made, and information indicating the gain determined by the control device in the determining step Outputting to the amplifying device; the amplifying device acquiring information indicating the gain output from the control device; and the amplifying device acquiring the information. And a step of amplifying an uplink signal transmitted by the terminal device with the gain set in the step of setting the gain by the amplifying device based on the information indicating the gain acquired in step And an amplification method.

  According to the embodiment of the present invention, it is possible to amplify an uplink signal while ensuring S / N.

1 is a schematic diagram showing a system according to an embodiment. It is a functional block diagram which shows the system which concerns on embodiment. It is a figure which shows the relationship between S / N and a gain. It is a figure which shows an example (the 1) as a result of the amplification apparatus which concerns on embodiment amplified the signal of the uplink. It is a figure which shows an example (the 2) as a result of the amplification apparatus which concerns on embodiment amplified the signal of the uplink. It is a sequence chart which shows operation | movement of the system which concerns on embodiment.

<Embodiment>
<System>
FIG. 1 shows a system according to an embodiment. The system includes a terminal device 10a, a terminal device 10b, an amplification device 100, and a control device 200. In FIG. 1, a thin broken line shows a desired wave and an interference wave, and a thick broken line shows a result of amplifying the desired wave and the interference wave.
An example of the system is a system to which LTE is applied. An example of the terminal device 10a and the terminal device 10b is a mobile phone, a smartphone, a tablet terminal, or the like. An example of the amplifying apparatus 100 is an apparatus that receives an uplink signal such as a reception TAA. Hereinafter, when it is not necessary to distinguish between the terminal device 10a and the terminal device 10b, they are referred to as the terminal device 10. Control device 200 is included in base station 300.

  The amplifying apparatus 100 is installed in the immediate vicinity of the antenna between the base station 300 antenna and the base station 300. The amplifying apparatus 100 amplifies the uplink signal transmitted by the terminal apparatus 10 and outputs the amplified signal to the base station 300. The base station 300 receives the amplified signal output from the amplification device 100.

  When the base station 300 receives an uplink signal transmitted by the terminal apparatus 10, the base station 300 measures an interference wave level included in the received signal. When the base station 300 measures the interference wave level included in the received signal, the base station 300 outputs information indicating the interference wave level to the control device 200.

  When the control apparatus 200 acquires information indicating the interference wave level output from the base station 300, the control apparatus 200 obtains a gain to be set in the amplification apparatus 100 based on the interference wave level, and outputs the information indicating the gain to the amplification apparatus 100. To do. When acquiring the information indicating the gain output from the control device 200, the amplifying device 100 sets the gain based on the information indicating the gain.

  FIG. 2 is a functional block diagram showing the amplification device 100 and the control device 200 that constitute the system according to the embodiment. The amplification device 100 and the control device 200 will be described in detail with reference to FIG. In FIG. 2, a power line that supplies power from the base station 300 to the amplification device 100 and a feeder line that outputs an amplified uplink signal from the amplification device 100 to the base station 300 are omitted.

<Amplifier>
The amplifying apparatus 100 includes an input unit 102, an amplifying unit 104, and a control unit 106.
The input unit 102 inputs various data output from other devices such as the control device 200. Specifically, the input unit 102 acquires information indicating the gain output from the control device 200 and outputs information indicating the gain to the control unit 106.
The amplifying unit 104 amplifies the uplink signal transmitted by the terminal device 10 with the gain set by the control unit 106. Specifically, the amplifier 104 includes a transmission amplifier (LPA: Linear Power Amp) and a reception amplifier (LNA: Low Noise Amp), and amplifies the desired wave and the interference wave, thereby reducing the loss of the antenna feeding system. To reduce. The uplink signal amplified by the amplification unit 104 is output to a feeder line (not shown) and supplied to the base station 300.

The control unit 106 includes an arithmetic processing device such as a CPU (Central Processing Unit) and a memory, for example. The CPU functions as the acquisition unit 108 and the setting unit 110 by executing the program stored in the memory.
The acquisition unit 108 acquires information indicating the gain output from the input unit 102. When the acquisition unit 108 acquires information indicating the gain, the acquisition unit 108 outputs the gain to the setting unit 110.
The setting unit 110 acquires information indicating the gain output from the acquisition unit 108. When the setting unit 110 acquires information indicating the gain output from the acquisition unit 108, the setting unit 110 sets the gain in the amplification unit 104.

<Control device>
The control device 200 includes an output unit 202, a storage unit 204, and a control unit 210.
The output unit 202 outputs various data to other devices such as the amplification device 100. Specifically, when the output unit 202 acquires information indicating the gain output from the control unit 210, the output unit 202 outputs information indicating the gain to the amplifying apparatus 100.
The storage unit 204 is configured by, for example, a hard disk (HD) or ROM. The storage unit 204 stores a program 206 executed by the control unit 210 and an S / N gain table 208. The S / N gain table 208 is set in the amplifying apparatus 100 when the S / N is obtained in the base station 300 and information indicating the S / N in the base station 300 of the uplink signal transmitted by the terminal apparatus 10. The information indicating the gain to be stored is associated and stored.

FIG. 3 shows the relationship between S / N and gain set in the S / N gain table 208. In FIG. 3, the thick solid line indicates the desired wave, the broken line indicates the interference wave, and the solid line indicates the interference wave level.
The upper diagram of FIG. 3 shows a case where the interference wave level is small (low). If the interference wave level is small, the S / N increases. When the gain is increased, both the desired wave and the interference wave are amplified. On the other hand, when the gain is decreased, both the desired wave and the interference wave are attenuated. Here, since the base station noise and feeder noise existing as system specific are not amplified, when the interference wave level is low and the base station noise or feeder noise is higher, the S / N is increased by increasing the gain. May be improved. In an example of the S / N gain table 208, a gain is set according to the value of S / N.

  The lower diagram of FIG. 3 shows a case where the interference wave level is large (high). When the interference wave level is large, the S / N is small. When the gain is increased, both the desired wave and the interference wave are amplified. On the other hand, when the gain is decreased, both the desired wave and the interference wave are attenuated. Here, since the base station noise and feeder noise existing as system specific are not amplified, when the interference wave level is high and close to the base station noise or feeder noise, even if the gain is increased, S / N improvement is limited. In an example of the S / N gain table 208, a gain is set according to the value of S / N.

Returning to FIG. The control unit 210 is configured by an arithmetic processing device such as a CPU, and the arithmetic processing device functions as the monitoring unit 212, the determination unit 214, and the determination unit 216 by executing the program 206 stored in the storage unit 204.
The monitoring unit 212 acquires information indicating the received electric field strength of the uplink signal from the base station 300. The received electric field strength of the uplink signal includes thermal noise interference (IoT) power and interference power (Interference Power). The interference power includes the sum of the interference wave noise power included in the signal amplified by the amplification device 100 and the noise power generated on the feeder line between the amplification device 100 and the base station 300. The monitoring unit 212 monitors the S / N by obtaining the fluctuation amount of the interference power over a certain period of time based on the received electric field strength of the uplink signal. The monitoring unit 212 outputs information indicating S / N to the determination unit 214.

  When acquiring the information indicating the S / N output from the monitoring unit 212, the determination unit 214 determines whether to change the gain set in the amplifying apparatus 100 based on the information indicating the S / N. Specifically, the determination unit 214 determines to maintain the current gain setting when the S / N is equal to or greater than the first threshold. On the other hand, the determination unit 214 determines to change the current gain setting when the S / N is less than the first threshold. If it is determined that the current gain setting is to be changed, the determination unit 214 outputs information indicating S / N to the determination unit 216.

  When the determination unit 216 acquires the information indicating the S / N output from the determination unit 214, the determination unit 216 refers to the S / N gain table 208 stored in the storage unit 204 and gain related to the information indicating the S / N. Get information indicating When the determining unit 216 acquires information indicating the gain, the determining unit 216 outputs the information indicating the gain to the output unit 202. The output unit 202 outputs information indicating the gain to a dedicated line connecting the output unit 202 and the input unit 102 of the amplification device 100. As a result, information indicating the gain is output from the output unit 202 to the amplifying apparatus 100.

<Example of Amplification of Uplink Signal in Amplifying Device (Part 1)>
FIG. 4 shows an example (No. 1) of uplink signal amplification in the amplification device. In FIG. 4, the left figure shows before amplification, and the right figure shows after amplification. A solid line indicates a desired wave, a broken line indicates an interference wave, and a two-dot chain line indicates noise generated on a feeder line between the amplifying apparatus 100 and the base station 300.
In the example shown in FIG. 4, it can be seen that the interference wave is smaller than the noise generated in the feeder line. Further, it can be seen that the noise generated by the feeder line indicated by the two-dot chain line is substantially constant before and after amplification. That is, in the amplification device 100, when the amplification is performed with the gain determined by the control device 200, both the desired wave and the interference wave are amplified, but the noise generated in the feeder line is hardly amplified. In this case, since noise generated in the feeder line becomes dominant, noise generated in the feeder line may be considered as the noise component. Assuming that “S” is a desired wave and “N1” is noise generated on the feeder line, S / N1 before amplification is 2, whereas S / N1 after amplification is 3.
Therefore, when the interference wave is smaller than the noise generated on the feeder line, the desired wave is amplified by the amplification performed by the amplifying apparatus 100, but the noise generated on the feeder line is almost constant, so S / N is To rise. That is, when the interference wave level is low and the S / N is low, the S / N can be further increased by amplification.

<Example of Amplification of Uplink Signal in Amplifying Device (Part 2)>
FIG. 5 shows an example (part 2) of uplink signal amplification in the amplification device. In FIG. 5, the left figure shows before amplification, the middle figure shows after amplification (part 1), and the right figure shows after amplification (part 2). A solid line indicates a desired wave, a broken line indicates an interference wave, and a two-dot chain line indicates noise generated on a feeder line between the amplifying apparatus 100 and the base station 300.
In the example shown in FIG. 5, the interference wave is smaller than the noise generated in the feeder line, but it can be seen that the interference wave is closer to the noise generated in the feeder line than in the example shown in FIG. Further, it can be seen that the noise generated by the feeder line indicated by the two-dot chain line is substantially constant before and after amplification. That is, in the amplification device 100, when the amplification is performed with the gain determined by the control device 200, both the desired wave and the interference wave are amplified, but the noise generated in the feeder line is hardly amplified. In this case, the interference wave is amplified and thus becomes higher than the noise generated in the feeder line. For this reason, since an interference wave becomes dominant, an interference wave should just be considered as a noise component.
When “S” is a desired wave and “N2” is an interference wave, S / N2 before amplification is 3/1, and S / N2 after amplification (part 1) is 4.5 / 1.5 = 3. Thus, S / N2 after amplification (part 2) is 6/2 = 3.
Therefore, when the interference wave approaches the noise generated in the feeder line, the desired wave is amplified by the amplification performed by the amplification device 100, but the interference wave is also amplified. That is, when the interference wave level is high and the S / N is low, the improvement of the S / N is limited even when the signal is amplified.

<System operation>
FIG. 6 is a sequence chart illustrating an example of the operation of the system according to the embodiment.
In step S602, the monitoring unit 212 of the control device 200 monitors the S / N based on the received electric field strength of the uplink signal.
In step S604, the determination unit 214 of the control device 200 holds the first S / N monitored by the monitoring unit 212. And the determination part 214 determines whether 1st S / N is more than a 1st threshold value. When 1st S / N is more than a 1st threshold value, it returns to step S602.

In step S606, when the first S / N is not greater than or equal to the first threshold, the determination unit 216 of the control device 200 determines the gain. Specifically, the determination unit 216 refers to the S / N gain table 208 stored in the storage unit 204 and acquires information indicating the gain related to the first S / N.
In step S <b> 608, the output unit 202 of the control device 200 outputs information indicating the gain determined by the determination unit 216 to the amplification device 100.
In step S <b> 610, when the input unit 102 of the amplification device 100 acquires information indicating the gain output from the control device 200, the input unit 102 outputs information indicating the gain to the control unit 106. When the acquisition unit 108 of the control unit 106 acquires information indicating the gain output from the input unit 102, the acquisition unit 108 outputs information indicating the gain to the setting unit 110.

In step S612, when the setting unit 110 of the amplifying apparatus 100 acquires the information indicating the gain output from the acquiring unit 108, the setting unit 110 sets the gain indicated by the information indicating the gain in the amplifying unit 104.
In step S614, after the gain of the amplification unit 104 is changed in the amplification device 100, the determination unit 214 of the control device 200 holds the second S / N monitored by the monitoring unit 212 and the first S held. / N is compared.
In step S616, the determination unit 214 of the control device 200 determines whether the second S / N is improved from the first S / N by a second threshold or more.
In step S618, the determination unit 216 of the control device 200 maintains the current gain when the determination unit 214 determines that the second S / N has improved from the first S / N by a second threshold or more. Then decide.
In step S620, if the determination unit 214 determines that the second S / N has not improved more than the second threshold from the first S / N, the determination unit 216 of the control device 200 changes the gain before the change. Determine to return to. In this case, the determination unit 216 outputs information indicating the gain before the change to the output unit 202. The output unit 202 outputs information indicating the gain determined by the determination unit 216 to the amplification device 100. When the input unit 102 of the amplification device 100 acquires the information indicating the gain output from the control device 200, the input unit 102 outputs the information indicating the gain to the control unit 106. When the acquisition unit 108 of the control unit 106 acquires information indicating the gain output from the input unit 102, the acquisition unit 108 outputs information indicating the gain to the setting unit 110. When the setting unit 110 acquires information indicating the gain output from the acquisition unit 108, the setting unit 110 sets the gain indicated by the information indicating the gain in the amplification unit 104. After the process of step S618 or step S620 is completed, the process returns to step S602.
In the sequence chart shown in FIG. 6, the case has been described in which the process returns to step S602 when S / N is equal to or greater than the first threshold value in step S604, but the present invention is not limited to this. For example, when the S / N is greater than or equal to the first threshold, control for increasing the gain may be performed.

  According to the system according to the embodiment, when the base station 300 receives an uplink signal, the base station 300 recognizes a numerically expressed interference wave level from the received signal. When acquiring the interference wave level recognized by the base station 300, the control device 200 obtains a gain suitable for the interference wave level and outputs information indicating the gain to the amplification device 100. When the amplification device 100 acquires information indicating the gain from the control device 200, the amplification device 100 sets the gain. Even when interference waves increase in the communication area after the amplification device 100 is installed, the amplification device 100 is not unnecessary or obstructed by adjusting the gain suitable for the interference wave level, and VoLTE (Voice over Long). Communication area adjustment can be automated so as to improve the quality of Term Evolution (LTE). The reliability can be improved by adjusting the gain following the change of the communication area state. That is, the gain of the amplification device 100 is changed from a fixed value, and the gain is changed according to the interference wave level recognized by the base station 300. Accordingly, the gain can be adaptively optimized according to the communication area, so that the communication area in which the amplifier 100 can be used can be expanded and the S / N of the uplink signal can be secured. As a result, in particular, the quality of VoLTE can be improved, the cost can be suppressed, and a system with high performance reliability can be constructed.

In the above-described embodiment, the case where LTE is applied as an example of the system has been described. However, the present invention is not limited to this example. For example, other communication methods such as CDMA may be applied.
In the above-described embodiment, the case where the control apparatus 200 is included in the base station 300 has been described. However, the present invention is not limited to this example. For example, the control device 200 may be installed at a location different from the base station 300. In this case, the base station 300 transmits information indicating the interference wave level to the control device 200. When the control device 200 acquires information indicating the interference wave level transmitted by the base station 300, the control device 200 obtains a gain to be set in the amplification device 100 based on the interference wave level, and transmits information indicating the gain to the amplification device 100. You may make it do. In addition, the control device 200 may be included in the amplification device 100.
In the above-described embodiment, the case where the control apparatus 200 monitors the S / N based on the received electric field strength of the uplink signal has been described. However, the present invention is not limited to this example. For example, the control device 200 may monitor the N component based on the received electric field strength of the uplink signal. In this case, the determination unit 214 may determine that the gain is changed when the N component is less than the threshold, and may determine that the gain is not changed when the N component is equal to or greater than the threshold.

In the above-described embodiment, the case where the control apparatus 200 monitors the S / N based on the received electric field strength of the uplink signal has been described. However, the present invention is not limited to this example. For example, the control device 200 may monitor the interference wave level based on the received electric field strength of the uplink signal. In this case, the determination unit 214 may determine that the gain is not changed when the interference wave level is equal to or higher than the threshold, and may determine that the gain is changed when the interference wave level is less than the threshold.
In the above-described embodiment, the case where the information indicating the gain is transmitted from the control device 200 to the amplification device 100 through the dedicated line has been described, but the present invention is not limited to this example. For example, the control device 200 outputs information indicating the gain to the power line that supplies power from the base station 300 to the amplification device 100, and the amplification device 100 may acquire the information indicating the gain from the power line. Good. Further, for example, the control device 200 outputs information indicating the gain to a feeder line between the base station 300 and the amplifying device 100, and the amplifying device 100 acquires the information indicating the gain from the feeder line. It may be. In this case, information indicating the gain is superimposed on the high frequency power transmitted through the feeder line.

  In the above-described embodiment, the case where the monitoring unit 212 of the control device 200 monitors the interference power and the interference power of thermal noise has been described, but the present invention is not limited to this example. For example, the monitoring unit 212 may monitor interference power due to radio waves transmitted by terminal devices located outside the sector of the base station 300 in addition to the interference power and interference power of thermal noise.

  As mentioned above, although embodiment of this invention and its modification were demonstrated, these embodiment and its modification are shown as an example, and are not intending limiting the range of invention. These embodiments and modifications thereof can be implemented in various other forms, and various omissions, replacements, changes, and combinations can be made without departing from the spirit of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and at the same time, are included in the invention described in the claims and the equivalents thereof.

The amplifying apparatus 100 and the control apparatus 200 described above have a computer inside. The process of each device described above is stored in a computer-readable recording medium in the form of a program, and the above-described processing is performed by the computer reading and executing the program. Here, the computer-readable recording medium means a magnetic disk, a magneto-optical disk, a CD-ROM, a DVD-ROM, a semiconductor memory, or the like. Alternatively, the computer program may be distributed to the computer via a communication line, and the computer that has received the distribution may execute the program.
The program may be for realizing a part of the functions described above.
Furthermore, what can implement | achieve the function mentioned above in combination with the program already recorded on the computer system, what is called a difference file (difference program) may be sufficient.

  10a, 10b ... terminal device, 100 ... amplification device, 102 ... input unit, 104 ... amplification unit, 106 ... control unit, 108 ... acquisition unit, 110 ... setting unit, 200 ... control device, 202 ... output unit, 204 ... storage , 206 ... program, 208 ... S / N gain table, 210 ... control unit, 212 ... monitoring unit, 214 ... determination unit, 216 ... determination unit, 300 ... base station

Claims (9)

A system comprising an amplifying device for amplifying an uplink signal transmitted by a terminal device and a control device for controlling the amplifying device,
The controller is
Based on information indicating an interference wave level of the uplink signal measured by the base station that has received the uplink signal, the uplink interference signal level is equal to or lower than a first threshold value. A determination unit that determines to increase the gain of the amplification device and determines to decrease the gain of the amplification device when greater than the first threshold;
A determination unit that determines a gain to be set in the amplification device based on an interference wave level of the uplink signal when the determination unit determines to change the gain of the amplification device;
An output unit that outputs information indicating the gain determined by the determination unit to the amplification device;
The amplification device includes:
An acquisition unit for acquiring information indicating the gain output from the control device;
An amplifying unit for amplifying an uplink signal transmitted by the terminal device;
A setting unit configured to set a gain in the amplification unit based on information indicating the gain acquired by the acquisition unit. A system comprising an amplifying device for amplifying an uplink signal transmitted by a terminal device and a control device for controlling the amplifying device,
The controller is
A determination unit that determines to increase the gain of the amplification device when the S / N of the uplink signal is greater than a threshold;
A determination unit configured to determine a gain to be set in the amplification device based on an interference wave level of the uplink signal when the determination unit determines to change the gain of the amplification device;
An output unit that outputs information indicating the gain determined by the determination unit to the amplification device;
The amplification device includes:
An acquisition unit for acquiring information indicating the gain output from the control device;
An amplifying unit for amplifying an uplink signal transmitted by the terminal device;
A setting unit configured to set a gain in the amplification unit based on information indicating the gain acquired by the acquisition unit. The controller is
A monitoring unit that monitors a fluctuation amount of interference power of the signal in the uplink for a certain period of time;
3. The determination unit according to claim 1, wherein the determination unit determines whether to change a gain of the amplification device based on a fluctuation amount of the interference power monitored by the monitoring unit over a certain period of time. System.   The determination unit determines whether the S / N or N component of the uplink signal before the information indicating the gain is output to the amplifying apparatus is the uplink after the information indicating the gain is output to the amplifying apparatus. 2. The method according to claim 1, wherein, when the S / N or N component of the signal of the link is not improved by a second threshold value or more, the information indicating the gain is determined to be changed to a gain before being output to the amplifying device. Item 4. The system according to any one of Items 3. The output unit outputs information indicating the gain to a power line that supplies power to the amplifier.
The system according to any one of claims 1 to 4, wherein the acquisition unit acquires information indicating the gain from the power line. A control device that controls an amplification device that amplifies an uplink signal transmitted by a terminal device,
Based on the information indicating the interference wave level of the uplink signal measured by the base station that has received the uplink signal, when the uplink interference signal level is equal to or lower than a first threshold, A determination unit that determines to increase the gain of the amplification device and determines to decrease the gain of the amplification device when greater than the first threshold;
A determination unit that determines a gain to be set in the amplification device based on an interference wave level of the uplink signal when the determination unit determines to change the gain of the amplification device;
A control device comprising: an output unit that outputs information indicating the gain determined by the determination unit to the amplification device. A control device that controls an amplification device that amplifies an uplink signal transmitted by a terminal device,
A determination unit that determines to increase the gain of the amplification device when the S / N of the uplink signal is greater than a threshold;
A determination unit that determines a gain to be set in the amplification device based on an interference wave level of the uplink signal when the determination unit determines to change the gain of the amplification device;
A control device comprising: an output unit that outputs information indicating the gain determined by the determination unit to the amplification device. An amplification method executed by a system including an amplification device that amplifies an uplink signal transmitted by a terminal device and a control device that controls the amplification device,
Based on the information indicating the interference wave level of the uplink signal measured by the base station that has received the uplink signal , the control device has an interference wave level of the uplink signal equal to or less than a first threshold value. Determining that the gain of the amplifying device is to be increased if it is, and decreasing the gain of the amplifying device if it is greater than the first threshold;
When the control device determines that the gain of the amplifying device is to be changed in the determining step, a step of determining a gain to be set in the amplifying device based on an interference wave level of the uplink signal;
The control device outputting information indicating the gain determined in the determining step to the amplifying device;
The amplification device obtains information indicating the gain output from the control device; and
The amplifying apparatus setting a gain based on the information indicating the gain acquired in the acquiring step;
And amplifying the uplink signal transmitted by the terminal apparatus with the gain set in the gain setting step. An amplification method executed by a system including an amplification device that amplifies an uplink signal transmitted by a terminal device and a control device that controls the amplification device,
The controller determines to increase the gain of the amplifying device when the S / N of the uplink signal is greater than a threshold;
When the control device determines that the gain of the amplifying device is to be changed in the determining step, a step of determining a gain to be set in the amplifying device based on an interference wave level of the uplink signal;
The control device outputting information indicating the gain determined in the determining step to the amplifying device;
The amplification device obtains information indicating the gain output from the control device; and
The amplifying apparatus setting a gain based on the information indicating the gain acquired in the acquiring step;
And amplifying the uplink signal transmitted by the terminal apparatus with the gain set in the gain setting step.

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