JP2022182859A - Control device, system, method, and program - Google Patents

Abstract

To provide a control device, system, method, and program that can reduce the power consumption of a base station without reducing a communication area where a terminal and the base station communicate with each other.SOLUTION: A control device 11 according to the present disclosure includes: a control unit 111 that generates, for each of a plurality of base stations 12, control information to control turning on/off of power of a transmission amplifier 121p that amplifies a downlink signal, in which each base station 12 includes the transmission amplifier 121p; and a communication unit 112 that transmits the control information generated for each of the base stations 12 to the base station 12. The control information includes a predetermined period and an off period indicating a period during which the transmission amplifier 121p is turned off during the predetermined period.SELECTED DRAWING: Figure 1

Description

The present disclosure relates to a control device, system, method, and program, and in particular, a control device capable of reducing power consumption of a base station without reducing a communication area in which a terminal communicates with the base station. , systems, methods and programs.

In the event of a disaster or the like, power supply facilities are damaged and the amount of power that can be supplied is reduced. Therefore, the amount of power that can be used by communication equipment, eg, base stations, is also limited, and there is a need to reduce the power consumption of base stations. However, the method of reducing the power consumption by reducing the number of operating base stations or reducing the number of effective antennas has the problem of reducing the communication area in which terminals and base stations can communicate. .

In paragraph 0014 of Patent Document 1, "When there is no user equipment in communication, the radio base station apparatus intermittently transmits a signal to be transmitted from the radio base station equipment to the user equipment. In this case, the signal to be transmitted to the user equipment is For example, in the case of the W-CDMA system, it is a downlink common channel such as a pilot channel, a sync channel, etc. Here, "during communication" means a state in which the radio base station apparatus and the user apparatus are performing a call or data communication. In addition, intermittent transmission is a method of thinning and transmitting signals so that the output power is reduced compared to normal transmission. This can be done by a method such as limiting (narrowing) the frequency band used by the device."

Paragraph 0013 of Patent Document 2 states, "The radio base station device stores the number of mobile devices, such as the number of mobile devices that have accepted incoming and outgoing calls or the number of registered mobile devices that are registered in the location registration area of its own device. Based on this, carrier transmission output stop/start control is performed, and when the number of mobile units accommodated decreases, the transmission output of some carriers is stopped, thereby suppressing wasteful transmission of radio waves, and the radio base station It is possible to reduce the power consumption of the device."

JP 2014-158279 A JP 2008-109423 A

As described above, methods for reducing power consumption in the event of a disaster include a method of reducing the number of operating base stations, a method of reducing the number of effective antennas, or a method of stopping carrier transmission output. However, these methods have the problem that the communication area in which the terminal and the base station can communicate is reduced. Also, as a related technique, there is a method of intermittent transmission, but this method cannot greatly reduce the power consumption of the base station.

An object of the present disclosure is to provide a control device, system, method, and program that solve the problems described above.

A control device according to the present disclosure includes:
a control unit for generating, for each of the plurality of base stations, control information for controlling power on/off of a transmission amplifier that amplifies a downlink signal and that is included in a base station;
a communication unit that transmits the control information generated for each of the plurality of base stations to the base station;
with
The control information includes a predetermined period and an OFF period indicating a period during which the transmission amplifier is turned off during the predetermined period.

A system according to the present disclosure includes:
a base station having a transmission amplifier for amplifying a downlink signal;
a control device that individually controls the power supplies of the transmission amplifiers of the plurality of base stations;
with
The controller is
a control unit that generates control information for controlling power on/off of the transmission amplifier for each of the plurality of base stations;
a communication unit that transmits the control information generated for each of the plurality of base stations to the base station;
has
The control information includes a predetermined period and an OFF period indicating a period during which the power supply of the transmission amplifier is turned off during the predetermined period;
each of the plurality of base stations,
a power control unit that turns off the power of the transmission amplifier only for the off period in the predetermined period based on the control information;
have.

A method according to the present disclosure includes:
generating, for each of the plurality of base stations, control information for controlling power on/off of transmission amplifiers that amplify downlink signals and that the base stations have;
transmitting the control information generated for each of the plurality of base stations to the base station;
the control information includes a predetermined period and an off period indicating a period during which the power supply of the transmission amplifier is turned off during the predetermined period;
Prepare.

The program according to the present disclosure is
generating, for each of the plurality of base stations, control information for controlling power on/off of transmission amplifiers that amplify downlink signals and that the base stations have;
transmitting the control information generated for each of the plurality of base stations to the base station;
the control information includes a predetermined period and an off period indicating a period during which the power supply of the transmission amplifier is turned off during the predetermined period;
run on the computer.

Advantageous Effects of Invention According to the present disclosure, it is possible to provide a control device, system, method, and program capable of reducing power consumption of a base station without reducing a communication area in which a terminal communicates with the base station.

1 is a block diagram illustrating a control device according to an embodiment; FIG. 1 is a block diagram illustrating a base station according to an embodiment; FIG. 1 is a block diagram illustrating a system according to an embodiment; FIG. 4 is a timing chart illustrating transmission output of a transmission amplifier according to an embodiment; 1 is a block diagram illustrating a system according to a comparative example of an embodiment; FIG. 9 is a timing chart illustrating transmission output of a transmission amplifier according to a comparative example of the embodiment; FIG. 5 is a schematic diagram illustrating a state of a communication area according to a comparative example of the embodiment;

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described with reference to the drawings. In each drawing, the same reference numerals are given to the same or corresponding elements, and redundant description will be omitted as necessary for clarity of description.

[Embodiment]
<Configuration>
1 is a block diagram illustrating a control device according to an embodiment; FIG.
FIG. 2 is a block diagram illustrating a base station according to an embodiment;
FIG. 3 is a block diagram illustrating a system according to an embodiment;

As shown in FIGS. 1 to 3 , system 10 according to Embodiment 1 includes base station 12 and control device 11 . A plurality of base stations 12 are supplied with necessary power from a power supply 13 . The control device 11 controls power supply to the base station 12 . In this example, the plurality of base stations 12 has a first base station 12a, a second base station 12b and a third base station 12c.

The base station 12 includes a transmitter 121 , a receiver 122 , a signal processor 123 , a power controller 124 and a switch 125 . Note that the base station may also be referred to as a base station radio device.

The transmitter 121 has a transmission amplifier 121p that amplifies the downlink signal. A downlink (DL) signal is a signal from the base station 12 to a terminal (not shown). An uplink (UL: Up Link) signal is a signal from a terminal to the base station 12 .

The downlink signal is encoded and modulated by the signal processing section 123, amplified by the transmission amplifier 121p, transmitted from the antenna via the switch 125, and received by the terminal. An uplink signal is transmitted from the terminal, received by the receiving section 122 via the antenna of the base station 12 and the switch 125, and then demodulated and decoded by the signal processing section 123. FIG.

In the base station 12, most of the power consumption is consumed by the transmission amplifier 121p in the transmission section 121. FIG. Therefore, in the embodiment, the control device 11 reduces the power consumption of the base station 12 by limiting the ON period during which the transmission amplifier 121p is ON. Specifically, the power control unit 124 of the base station 12 turns off the power of the transmission amplifier 121p for an off period within a predetermined period based on the control information acquired from the control device 11 . The power consumption of the base station 12 is reduced by providing a power-off period for the transmission amplifier 121p. The controller 11, for example, controls the transmission amplifier 121p so that the transmission amplifier 121p is powered off for (10/3) milliseconds during a period of 10 milliseconds. The power control unit 124 repeats the operation of turning off the power of the transmission amplifier 121p only during the off period within the predetermined period.

The control device 11 includes a control section 111 and a communication section 112 . The control device 11 controls power supplies of the transmission amplifiers 121p of the plurality of base stations 12 respectively. Note that the control device may also be called a base station control device.

Specifically, the control unit 111 generates control information for controlling power on/off of the transmission amplifier 121p that amplifies the downlink signal for each of the plurality of base stations 12 . The control information includes a predetermined period and an OFF period indicating a period during which the transmission amplifier 121p is turned off during the predetermined period.

Note that the control unit 111 generates control information so as to shift the off period for each transmission amplifier 121p. In addition, the control unit 111 generates control information so that the OFF periods of all the transmission amplifiers 121p do not overlap during the predetermined period. As a result, at least one transmission amplifier 121p is powered on, enabling communication in at least one communication area.

Also, the control unit 111 generates control information so that at least one transmission amplifier 121p is powered off during a predetermined period. As a result, the power of at least one transmission amplifier 121p is turned off, so that the power consumption of the plurality of base stations 12 as a whole can be reduced, and the peak value of power consumption can be reduced.

Further, the control unit 111 sets the off time for changing the power of the transmission amplifier 121p from on to off and the on time for changing the power of the transmission amplifier 121p from off to on for each base station 12 based on the predetermined period and the off period. time and may be generated. The control information may further include on-time and off-time. Thereby, the control unit 111 can turn on/off the transmission amplifier 121p of each of the plurality of base stations 12 based on the on time and the off time included in the control information.

In addition, the control unit 111 may generate a mode change flag for changing the operation mode of the base station 12 to the disaster mode when receiving a notification that a disaster has occurred from the outside. In this case, the communication unit 112 further includes a mode change flag so that each of the plurality of base stations 12 repeatedly turns off the power of the transmission amplifier for an off period within a predetermined period during the disaster mode. Control information is transmitted to multiple base stations 12 .

Operation modes of the base station 12 include, for example, a normal mode and a disaster mode. The normal mode is a normal (normal time) operation mode. In the normal mode, the transmission amplifier 121p is powered on for the entire period. Therefore, the transmission amplifier 121p is in a state of being able to transmit the downstream signal over the entire period. The disaster mode is an operation mode when a disaster occurs. In the case of the disaster mode, the transmission amplifier 121p is in a state in which it cannot transmit a downstream signal during the off period because the power is off during the off period.

Further, when the control unit 111 receives a notification from the outside that the disaster has ended, the control unit 111 may generate a mode return flag for changing the operation mode of the base station 12 to the normal mode. In this case, the communication unit 112 sends control information further including a mode recovery flag to the plurality of base stations 12 so that each of the plurality of base stations 12 ends the operation in the disaster mode and resumes operation in the normal mode. Send. The operation in the normal mode is an operation of turning on the power of the transmission amplifier 121p during the entire predetermined period.

A mode switching notification indicating that the mode is to be switched may be used instead of the mode change flag and the mode return flag.

Also, the control unit 111 may determine the length of the OFF period based on the amount of traffic in the communication area where the base station 12 communicates with the terminal. For example, when the first traffic volume in the first communication area covered by the first base station 12a is higher than the second traffic volume in the second communication area, the transmission amplifier 121pa of the first base station 12a covering the first communication area is shorter than the OFF period of the transmission amplifier 121pb of the second base station 12b covering the second communication area. As a result, the ON period of the transmission amplifier 121pa becomes longer than the ON period of the transmission amplifier 121pb, and more downstream signals can be transmitted.

Further, for example, when the first traffic volume in the first communication area covered by the first base station 12a is less than or equal to the second traffic volume in the second communication area, the transmission amplifier 121pa of the first base station 12a covering the first communication area is longer than the OFF period of the transmission amplifier 121pb of the second base station 12b covering the second communication area. As a result, the ON period of the transmission amplifier 121pa is shorter than the ON period of the transmission amplifier 121pb, but the amount of downlink signal traffic is small, so sufficient transmission is possible.

The communication unit 112 transmits control information generated for each of the plurality of base stations 12 to the base stations 12 . Based on the control information acquired from the communication unit 112, the power supply control unit 124 of the base station 12 turns off the power supply of the transmission amplifier 121p only during an off period within a predetermined period.

The control information may include control parameters for on/off controlling the transmission amplifier 121p of the base station 12 . Control parameters include, for example, the above-described predetermined period, OFF period, and the like. The control device 11 may turn on/off the transmission amplifier 121p of the base station 12 by setting control parameters.

During the period of the disaster mode, the power control unit 124 of the base station 12 repeats the operation of turning off the power of the transmission amplifier 121p only for the off period within the predetermined period based on the control information.

In the embodiment, the ON period is set except for the OFF period within the predetermined period, and the power supply of the transmission amplifier 121p is always turned ON during the ON period. That is, the transmission amplifier 121p is not left off for a long period of time. As a result, the base station 12 can transmit downlink signals to the terminal while the power of the transmission amplifier 121p is on, so that the communication area is not narrowed.

As a result, according to the embodiments, it is possible to provide a control device, system, method, and program capable of reducing the power consumption of the base station without reducing the communication area where the terminal communicates with the base station. can be done.

<Action>
FIG. 4 is a timing chart illustrating the transmission output of the transmission amplifier according to the embodiment.
The horizontal axis of FIG. 4 indicates time, and the vertical axis indicates power.

Here, a case where the number of base stations 12 is three will be described as an example. The three base stations are a first base station 12a, a second base station 12b and a third base station 12c. Turning on/off the transmission power of the transmission amplifier 121p and turning on/off the power of the transmission amplifier 121p are linked, and there is no time difference between them.

As shown in FIG. 4, the off period of each of the plurality of base stations 12 is one-third of the predetermined period. The predetermined period is, for example, 10 milliseconds. The off period is, for example, (10/3) milliseconds. The control device 11 turns off the transmission of the downlink signal from the transmission amplifiers 121p one by one, and controls the power supply so that the transmission of one or more transmission amplifiers 121p is always turned off. That is, the control device 11 controls the power supply so that the two-thirds of the transmission amplifiers 121p can always transmit downstream signals.

Specifically, the OFF period of the first base station 12a is from the start time of the predetermined period to 1/3 of the predetermined period. The off period of the second base station 12b is from 1/3 of the predetermined period to 2/3 of the predetermined period. The off period of the third base station 12c is from the time of two-thirds of the predetermined period to the end time of the predetermined period. The first base station 12a, the second base station 12b, and the third base station 12c repeat operations for a predetermined period.

As described above, according to the embodiment, since the transmission amplifier 121p is not stopped (powered off) for a long time, the communication area is not narrowed. In addition, since one of the three transmission amplifiers 121p is powered off, the power consumption of the base station 12 can be reduced. Also, the number of base stations 12 and antennas is not continuously reduced over a long period of time.

Consider a case where the base station 12 operates in a TDD (Time Division Duplex) system. In this case, the predetermined period and the off period shown in FIG. 4 may be matched with the timing of the TDD radio frame or the timing of the time slot. In other words, the control device 11 controls power on/off for downlink transmission of a plurality of base stations 12 (transmitting amplifiers 121p) operating in accordance with the TDD system at the timing of the TDD system. As a result, transmission of downlink signals in the TDD system can be intermittent transmission, and power consumption of the transmission amplifier 121p can be reduced.

In addition, a control program including control information for controlling the power supply of each of the transmission amplifiers 121p of a plurality of base stations 12 is applied to the control device 11, and the power supply of the transmission amplifiers 121p is turned off only during an off period within a predetermined period based on the control information. An execution program that performs the turning off operation may be applied to each of the plurality of base stations 12 . The embodiment can be realized by applying these programs. Since this eliminates the need to add or change new hardware (HW: Hard Ware), the embodiment can be easily applied.

In addition, depending on environmental conditions such as the installation location of the base station 12 and possible damage, it is possible to further increase You can get great results.

[Comparative example]
FIG. 5 is a block diagram illustrating a system according to a comparative example of the embodiment;
FIG. 6 is a timing chart illustrating transmission output of a transmission amplifier according to a comparative example of the embodiment;
FIG. 7 is a schematic diagram illustrating a state of a communication area according to a comparative example of the embodiment;

As shown in FIG. 5, in a system 50 according to the comparative example of the embodiment, a control device 51 does not have a control unit and a communication unit, and a base station 52 has a power supply, unlike the system 10 according to the embodiment. It differs in that it does not have a control unit.

As a result, the control device 51 cannot set an OFF period for each of the transmission amplifiers 521p of the plurality of base stations 52. FIG. Since the system 50 cannot set the OFF period, for example, as shown in FIG. 6, the transmission amplifier 521pa of the first base station 52a is powered off to reduce power consumption. In this case, since the transmission amplifier 521pa is powered off, the transmission amplifier 521pa does not transmit a downstream signal. Moreover, since the power supply of the transmission amplifier 521pb is on, the transmission amplifier 521pb can transmit a downstream signal. Also, since the transmission amplifier 521pc is powered on, the transmission amplifier 521pc can transmit a downstream signal.

Since the transmission amplifier 521pa cannot always transmit a downlink signal, terminals existing in the corresponding communication area cannot communicate with the first base station 52a, resulting in a reduction of the communication area, as shown in FIG. As described above, in the comparative example, the power consumption of the plurality of base stations 52 as a whole is reduced to two-thirds, but the communication area is reduced.

As a result, in the comparative example, it is difficult to provide a control device, system, method, and program capable of reducing the power consumption of the base station without reducing the communication area in which the terminal communicates with the base station.

Although the present invention has been described as a hardware configuration in the above embodiment, the present invention is not limited to this. The present invention can also be implemented by causing a CPU (Central Processing Unit) to execute a computer program to process each component.

In the above embodiments, the programs can be stored and delivered to computers using various types of non-transitory computer readable media. Non-transitory computer-readable media include various types of tangible storage media. Examples of non-transitory computer-readable media include magnetic recording media (specifically flexible disks, magnetic tapes, hard disk drives), magneto-optical recording media (specifically magneto-optical discs), CD-ROMs (Read Only Memory ), CD-R, CD-R/W, semiconductor memory (specifically, mask ROM, PROM (Programmable ROM), EPROM (Erasable PROM)), flash ROM, and RAM (Random Access Memory). The program may also be delivered to the computer on various types of transitory computer readable medium. Examples of transitory computer-readable media include electrical signals, optical signals, and electromagnetic waves. Transitory computer-readable media can deliver the program to the computer via wired channels, such as wires and optical fibers, or wireless channels.

Further, although acts have been depicted in a particular order, this does not mean that such acts are performed in the specific order or sequential order shown, or It should not be understood as requiring that all actions be performed. Multitasking and parallelism can be advantageous in certain situations. Similarly, while details of several specific embodiments have been included in the above discussion, these should not be construed as limitations on the scope of this disclosure, but as illustrations of features unique to those particular embodiments. should. Certain features that are described in the context of separate embodiments can also be implemented in combination in a single embodiment. Conversely, various features that are described in the context of a single embodiment can also be implemented in multiple embodiments separately or in any suitable combination.

Although the present invention has been described with reference to the embodiments, the present invention is not limited to the above. Various changes that can be understood by those skilled in the art can be made to the configuration and details of the present invention within the scope of the invention.

It should be noted that the present invention is not limited to the above embodiments, and can be modified as appropriate without departing from the scope of the invention.

Some or all of the above-described embodiments can also be described in the following supplementary remarks, but are not limited to the following.
(Appendix 1)
a control unit for generating, for each of the plurality of base stations, control information for controlling power on/off of a transmission amplifier that amplifies a downlink signal and that is included in a base station;
a communication unit that transmits the control information generated for each of the plurality of base stations to the base station;
with
The control information includes a predetermined period and an OFF period indicating a period during which the power supply of the transmission amplifier is turned off during the predetermined period.
Control device.
(Appendix 2)
The control unit generates the control information so that the OFF periods of all the transmission amplifiers do not overlap during the predetermined period.
1. The control device according to appendix 1.
(Appendix 3)
The control unit generates the control information so that at least one of the transmission amplifiers is powered off during the predetermined period of time.
3. The control device according to appendix 1 or 2.
(Appendix 4)
The control unit controls an off time for changing the power of the transmission amplifier from on to off for each of the base stations based on the predetermined period and the off period, and an on time for changing the power of the transmission amplifier from off to on. generate the time and
the control information further includes the ON time and the OFF time;
4. The control device according to any one of appendices 1 to 3.
(Appendix 5)
The base station operates in a TDD (Time Division Duplex) scheme,
The control unit generates the predetermined period and the off period so as to match the timing of the TDD radio frame or the timing of the time slot.
5. The control device according to any one of appendices 1 to 4.
(Appendix 6)
The control unit generates a mode change flag for changing the operation mode of the base station to a disaster mode when receiving a notification that a disaster has occurred from the outside,
The communication unit sets the mode change flag so that each of the plurality of base stations repeatedly turns off the power supply of the transmission amplifier during the off period of the predetermined period during the disaster mode. transmitting the control information further comprising to a plurality of the base stations;
6. The control device according to any one of appendices 1 to 5.
(Appendix 7)
The control unit generates a mode return flag for changing the operation mode of the base station to a normal mode when receiving a notification from the outside that the disaster has subsided,
The communication unit transmits the control information further including the mode recovery flag to the plurality of base stations so that each of the plurality of base stations ends the operation in the disaster mode and starts the operation in the normal mode. send to
the operational mode of operation powers on the transmit amplifier during all periods within the predetermined period;
The control device according to appendix 6.
(Appendix 8)
The control unit determines the OFF period based on the amount of traffic in a communication area in which the base station communicates with the terminal.
8. A control device according to any one of appendices 1 to 7.
(Appendix 9)
the number of the plurality of base stations is 3;
wherein the off period of each of the plurality of base stations is one-third of the predetermined period;
9. Control device according to any one of appendices 1 to 8.
(Appendix 10)
the plurality of base stations are a first base station, a second base station and a third base station;
the off period of the first base station is from the start time of the predetermined period to a time that is one-third of the predetermined period;
the off period of the second base station is from a time of 1/3 of the predetermined period to a time of 2/3 of the predetermined period;
The off period of the third base station is from a time two-thirds of the predetermined period to an end time of the predetermined period.
9. Control device according to appendix 9.
(Appendix 11)
a base station having a transmission amplifier for amplifying a downlink signal;
a control device that individually controls the power supplies of the transmission amplifiers of the plurality of base stations;
with
The controller is
a control unit that generates control information for controlling power on/off of the transmission amplifier for each of the plurality of base stations;
a communication unit that transmits the control information generated for each of the plurality of base stations to the base station;
has
The control information includes a predetermined period and an OFF period indicating a period during which the power supply of the transmission amplifier is turned off during the predetermined period;
each of the plurality of base stations,
a power control unit that turns off the power of the transmission amplifier only for the off period in the predetermined period based on the control information;
have
system.
(Appendix 12)
generating, for each of the plurality of base stations, control information for controlling power on/off of transmission amplifiers that amplify downlink signals and that the base stations have;
transmitting the control information generated for each of the plurality of base stations to the base station;
the control information includes a predetermined period and an off period indicating a period during which the power supply of the transmission amplifier is turned off during the predetermined period;
How to prepare.
(Appendix 13)
generating, for each of the plurality of base stations, control information for controlling power on/off of transmission amplifiers that amplify downlink signals and that the base stations have;
transmitting the control information generated for each of the plurality of base stations to the base station;
the control information includes a predetermined period and an off period indicating a period during which the power supply of the transmission amplifier is turned off during the predetermined period;
A program that makes a computer run

10, 50: system 11, 51: control device 111: control unit 112: communication unit 12, 52: base station 12a, 52a: first base station 12b, 52b: second base station 12c, 52c: third base station 121 : transmission unit 121p, 121pa, 121pb, 121pc: transmission amplifier 521p, 521pa, 521pb, 521pc: transmission amplifier 122: reception unit 123: signal processing unit 124: power control unit 125: switch 13: power supply

Claims (10)

a control unit for generating, for each of the plurality of base stations, control information for controlling power on/off of a transmission amplifier that amplifies a downlink signal and that is included in a base station;
a communication unit that transmits the control information generated for each of the plurality of base stations to the base station;
with
The control information includes a predetermined period and an OFF period indicating a period during which the power supply of the transmission amplifier is turned off during the predetermined period.
Control device. The control unit generates the control information so that the OFF periods of all the transmission amplifiers do not overlap during the predetermined period.
A control device according to claim 1 . The control unit generates the control information so that at least one of the transmission amplifiers is powered off during the predetermined period of time.
3. A control device according to claim 1 or 2. The control unit controls an off time for changing the power of the transmission amplifier from on to off for each of the base stations based on the predetermined period and the off period, and an on time for changing the power of the transmission amplifier from off to on. generate the time and
the control information further includes the ON time and the OFF time;
A control device according to any one of claims 1 to 3. The base station operates in a TDD (Time Division Duplex) scheme,
The control unit generates the predetermined period and the off period so as to match the timing of the TDD radio frame or the timing of the time slot.
A control device according to any one of claims 1 to 4. The control unit generates a mode change flag for changing the operation mode of the base station to a disaster mode when receiving a notification that a disaster has occurred from the outside,
The communication unit sets the mode change flag so that each of the plurality of base stations repeatedly turns off the power supply of the transmission amplifier during the off period of the predetermined period during the disaster mode. transmitting the control information further comprising to a plurality of the base stations;
A control device according to any one of claims 1 to 5. The control unit determines the OFF period based on the amount of traffic in a communication area in which the base station communicates with the terminal.
A control device according to any one of claims 1 to 6. a base station having a transmission amplifier for amplifying a downlink signal;
a control device that individually controls the power supplies of the transmission amplifiers of the plurality of base stations;
with
The controller is
a control unit that generates control information for controlling power on/off of the transmission amplifier for each of the plurality of base stations;
a communication unit that transmits the control information generated for each of the plurality of base stations to the base station;
has
The control information includes a predetermined period and an OFF period indicating a period during which the power supply of the transmission amplifier is turned off during the predetermined period;
each of the plurality of base stations,
a power control unit that turns off the power of the transmission amplifier only for the off period in the predetermined period based on the control information;
have
system. generating, for each of the plurality of base stations, control information for controlling power on/off of transmission amplifiers that amplify downlink signals and that the base stations have;
transmitting the control information generated for each of the plurality of base stations to the base station;
the control information includes a predetermined period and an off period indicating a period during which the power supply of the transmission amplifier is turned off during the predetermined period;
How to prepare. generating, for each of the plurality of base stations, control information for controlling power on/off of transmission amplifiers that amplify downlink signals and that the base stations have;
transmitting the control information generated for each of the plurality of base stations to the base station;
the control information includes a predetermined period and an off period indicating a period during which the power supply of the transmission amplifier is turned off during the predetermined period;
A program that makes a computer run

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