JP6487221B2 - Control device, control method, and computer program - Google Patents

Description

  The present invention relates to a control device, a control method, and a computer program.

  Conventionally, in a wireless communication system, the coverage of a base station device is changed by changing the tilt angle of the antenna of the base station device (see, for example, Patent Documents 1 and 2). When the tilt angle is reduced, the directivity direction of the main lobe of the vertical radiation pattern of the antenna approaches horizontal, and thus the coverage of the base station apparatus is usually increased. On the other hand, when the tilt angle is increased, the directivity direction of the main lobe of the vertical radiation pattern of the antenna becomes closer to the vertical, and thus the coverage of the base station apparatus is usually reduced.

JP 2008-48107 A JP2012-16015A

  Coverage can be changed by changing the tilt angle as described above. However, expanding the coverage may cause radio interference to other coverage in the vicinity, and reducing the coverage may cause a coverage hole in the vicinity. . On the other hand, it is preferable to adjust the coverage according to changes in the wireless communication environment. For this reason, it is desired to contribute to the realization of coverage adjustment according to changes in the wireless communication environment by reducing the adverse effects of the change in coverage.

  The present invention has been made in view of such circumstances, and it is an object of the present invention to provide a control device, a control method, and a computer program that can reduce the adverse effects of a change in coverage.

  One aspect of the present invention is a control apparatus that outputs control information to be controlled by a base station that uses a plurality of carrier frequencies for wireless communication with a terminal, and carrier control that determines the coverage of each carrier frequency And an output unit that outputs control information about the determined coverage, wherein the carrier control unit determines the coverage of the first carrier frequency based on the coverage of the second carrier frequency, The carrier control unit has coverage of the second carrier frequency in all or at least a part of the range of the coverage hole of the first carrier frequency generated when the coverage of the first carrier frequency is reduced. In addition, when the communication capacity of the first carrier frequency is tight, the control device reduces the coverage of the first carrier frequency.

  One aspect of the present invention is a control method in which a base station that uses a plurality of carrier frequencies for wireless communication with a terminal outputs control information to be controlled, and a carrier wave control unit is configured to cover each carrier frequency. And the output unit outputs control information about the determined coverage, and the carrier control unit converts the coverage of the first carrier frequency to the coverage of the second carrier frequency. The carrier wave control unit determines the second carrier frequency to cover all or at least a part of the range of the first carrier frequency coverage hole that occurs when the coverage of the first carrier frequency is reduced. Reducing coverage of the first carrier frequency when coverage of the carrier frequency exists and communication capacity of the first carrier frequency is tight, It is your way.

  One aspect of the present invention is a computer program for performing control processing in which a base station that uses a plurality of carrier frequencies for wireless communication with a terminal outputs control information to be controlled. A carrier control step for determining coverage and an output step for outputting control information on the determined coverage are executed by a computer, and the carrier control step is configured to set the coverage of the first carrier frequency to the second carrier frequency. And the carrier wave control step may include the coverage area of the first carrier frequency generated when reducing the coverage of the first carrier frequency or at least a part of the range. There is coverage of the second carrier frequency, and the communication capacity of the first carrier frequency is tight. Sometimes, to reduce the coverage of the first carrier frequency is a computer program.

  According to the present invention, it is possible to reduce an adverse effect due to a change in coverage.

1 is a configuration diagram showing a wireless communication system 1 according to a first embodiment of the present invention. It is explanatory drawing which shows the example of the coverage which concerns on 1st Embodiment of this invention. It is explanatory drawing which shows tilt angle (theta) _tilt of the antenna apparatus 31 which concerns on 1st Embodiment of this invention. It is a block diagram which shows the carrier wave control part 11 of the control apparatus 10 which concerns on 1st Embodiment of this invention. It is a flowchart which shows the control method which concerns on 1st Embodiment of this invention. It is a block diagram which shows the radio | wireless communications system 2 which concerns on 2nd Embodiment of this invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

[First Embodiment]
FIG. 1 is a configuration diagram showing a radio communication system 1 according to the first embodiment of the present invention. In FIG. 1, the wireless communication system 1 corresponds to each of the control device 10, M (M is an integer of 2 or more) base station devices 20-1 to 20 -M, and base station devices 20-1 to 20 -M. M number of tilt control devices (RET: Remote Electrical Tilt Units) 30-1 to M and M antennas provided corresponding to each of the base station devices 20-1 to 20-M The devices 31-1 to 31 -M and the terminal device 40 are provided. The tilt control devices 30-1 to 30-M and the antenna devices 31-1 to 31-M are provided corresponding to each. Hereinafter, the base station devices 20-1 to 20 -M will be referred to as “base station device 20” unless otherwise distinguished. When the tilt control devices 30-1 to 30-M are not particularly distinguished, they are referred to as “tilt control devices 30”. When the antenna devices 31-1 to 31-M are not particularly distinguished, they are referred to as “antenna device 31”.

  The control device 10 and the base station device 20 are connected via a wired or wireless communication network. The control device 10 performs centralized control of the M base station devices 20-1 to 20-M. The base station apparatus 20 performs radio communication with the terminal apparatus 40 existing within its own coverage. The base station apparatus 20 uses a plurality of carrier frequencies. There is coverage for each carrier frequency. Examples of the carrier frequency include 800 MHz band, 1.5 GHz band, and 2 GHz band. The tilt control device 30 is connected to the base station device 20 corresponding to itself through a communication cable or the like. The tilt control device 30 is connected to the antenna device 31 corresponding to itself through a communication cable or the like. The antenna device 31 is connected to the base station device 20 corresponding to itself via a communication cable or the like.

  FIG. 2 is an explanatory diagram illustrating an example of coverage according to the first embodiment of the present invention. In the example of FIG. 2, the base station apparatus 20 uses two carrier frequencies f1 and f2. The antenna device 31 performs transmission / reception of the radio wave of the carrier frequency f1 and transmission / reception of the radio wave of the carrier frequency f2. There are coverages Cov_f1 and Cov_f2 for each of the carrier frequencies f1 and f2. Coverage Cov_f1 is an area in which the terminal device 40 can transmit and receive radio waves of the carrier frequency f1 to and from the base station device 20. The base station apparatus 20 can perform wireless communication with the terminal apparatus 40 existing in the coverage Cov_f1 using the carrier frequency f1. Coverage Cov_f2 is an area in which the terminal device 40 can transmit and receive radio waves of the carrier frequency f2 to and from the base station device 20. The base station device 20 can perform wireless communication with the terminal device 40 existing in the coverage Cov_f2 using the carrier frequency f2.

  Returning to FIG. The control device 10 includes a carrier wave control unit 11 and an output unit 12. The base station device 20 includes an information output unit 21, a control unit 22, a radio unit 23, and a signal processing unit 24. The antenna device 31 corresponding to the base station device 20 may be provided for each carrier frequency, or may be capable of transmitting and receiving a plurality of carrier frequencies. When the antenna device 31 corresponding to the base station device 20 is provided for each carrier frequency, the tilt control device 30 corresponding to the base station device 20 sets the antenna device 31 for each carrier frequency corresponding to the base station device 20 respectively. Control.

  The information output unit 21 of the base station device 20 transmits the base station information A1 to the control device 10. The base station information A1 includes coverage quality information and traffic load information.

  The coverage quality information indicates the wireless communication quality of each coverage of the base station device 20. As coverage quality information, for example, common pilot channel (CPICH: Common Pilot Channel) received power (CPICH RSCP: Received Signal Code Power), common pilot channel received quality (CPICH Ec / No), downlink (base station apparatus 20) Link to terminal device 40) Reference signal received power (RSRP), downlink reference signal received quality (RSRQ), CQI (Channel Quality Indicator), Information such as connection rate, call loss rate, and the like. Any one of these pieces of information may be used for the coverage quality information, or any one of them may be used for the coverage quality information.

  The traffic load information indicates the traffic load of the base station device 20. The traffic load may be the traffic load of the base station apparatus 20 as a whole, or may be the traffic load for each coverage. As traffic load information, for example, the number of terminal devices 40 connected to the base station device 20 (the number of connected terminals per cell), the sector throughput of the terminal device 40 connected to the base station device 20, and the radio resource usage of the base station device 20 Information such as rate. Any one of these pieces of information may be used for the traffic load information, or any one of them may be used for the traffic load information.

  The carrier wave control unit 11 of the control device 10 determines each coverage of the base station device 20 based on the base station information A1 received from the base station device 20. The carrier wave control unit 11 transmits coverage determination information A2 that is information about the determined coverage to the output unit 12. The output unit 12 transmits coverage control information A3 to the base station device 20 based on the coverage determination information A2 received from the carrier wave control unit 11.

  Based on the coverage control information A3 received from the control device 10, the control unit 22 of the base station device 20 performs a coverage change control process for changing each coverage of the base station device 20.

  As the coverage change control process executed by the control unit 22, for example, a tilt angle change instruction based on the coverage control information A3 may be transmitted to the tilt control device 30. There is a tilt angle change instruction for each carrier frequency. The tilt control device 30 changes the tilt angle of the antenna device 31 according to the tilt angle change instruction for each carrier frequency. The output unit 12 of the control device 10 may use the tilt angle change information as the coverage control information A3. The tilt angle change information is an example of antenna control information of the antenna device 31.

  FIG. 3 is an explanatory diagram showing the tilt angle θ_tilt of the antenna device 31. In the example of FIG. 3, the base station device 20, the tilt control device 30, and the antenna device 31 are provided on the roof of a building Bu. In FIG. 3, the tilt angle θ_tilt of the antenna device 31 is an angle in the vertical direction from the horizontal direction DirH to the main lobe direction DirBM. The main lobe direction DirBM is a directing direction of the main lobe BM of the vertical radiation pattern of the antenna device 31. When the tilt angle θ_tilt increases (when the tilt is down), the main lobe direction DirBM is more directed toward the ground Gr. For this reason, the coverage of the base station apparatus 20 is reduced. On the other hand, when the tilt angle θ_tilt becomes small (up-tilt), the main lobe direction DirBM is directed to the sky opposite to the ground Gr. For this reason, the coverage of the base station apparatus 20 is expanded.

  Returning to FIG. As the coverage change control process executed by the control unit 22, for example, an antenna parameter change instruction based on the coverage control information A3 may be transmitted to the radio unit 23. There is an antenna parameter change instruction for each carrier frequency. The radio unit 23 changes the antenna parameter of the antenna device 31 according to the antenna parameter change instruction for each carrier frequency. Examples of antenna parameters include antenna gain, beam width, horizontal wireless parameter, vertical wireless parameter, and the like. Note that the output unit 12 of the control device 10 may use the antenna parameter change information as the coverage control information A3. The antenna parameter change information is an example of antenna control information of the antenna device 31.

  As a coverage change control process executed by the control unit 22, for example, a transmission power change instruction based on the coverage control information A3 may be transmitted to the radio unit 23. There is a transmission power change instruction for each carrier frequency. The radio unit 23 changes the transmission power according to the transmission power change instruction for each carrier frequency. Note that the output unit 12 of the control device 10 may use the transmission power change information as the coverage control information A3. The transmission power change information is an example of transmission power control information of the transmission power of the base station device 20.

  The control unit 22 of the base station device 20 may instruct the signal processing unit 24 to change the method of using the carrier frequency based on the coverage control information A3 received from the control device 10.

  FIG. 4 is a configuration diagram illustrating the carrier wave control unit 11 of the control device 10 according to the first embodiment of the present invention. In FIG. 4, the carrier wave control unit 11 includes a coverage determination condition storage unit 51, a coverage determination unit 52, and a base station management information storage unit 53.

  The coverage determination condition storage unit 51 stores information indicating a condition (coverage determination condition) when determining the coverage of the base station device 20. The coverage determination unit 52 determines the coverage of the base station apparatus 20 based on the coverage determination condition indicated by the information stored in the coverage determination condition storage unit 51. The base station management information storage unit 53 stores management information of the base station device 20. The management information of the base station apparatus 20 includes information such as a carrier frequency used by the base station apparatus 20, coverage of the base station apparatus 20, and an operation policy when operating the base station apparatus 20.

  FIG. 5 is a flowchart showing a control method according to the first embodiment of the present invention. With reference to FIG. 5, operation | movement of the control apparatus 10 which concerns on 1st Embodiment of this invention is demonstrated. When receiving the base station information A1 from one base station apparatus 20, the control apparatus 10 starts the control process of FIG. 5 with the one base station apparatus 20 as a control target. Hereinafter, in the description of the control processing of FIG. 5, the base station apparatus 20 refers to the same base station apparatus 20 that is a control target.

(Step S1) The coverage determination unit 52 determines whether there is a coverage to be changed among a plurality of coverages of the base station device 20 based on the base station information A1 received from the base station device 20. This determination is performed based on, for example, the operation policy information of the base station apparatus 20 stored in the base station management information storage unit 53.

  As an operation policy of the base station apparatus 20, for example, when there is “reduce coverage holes”, the presence / absence of a coverage hole is determined based on the coverage quality information of the base station information A1. When the result of this determination is “with coverage hole”, it is determined that there is coverage to be changed.

  As an operation policy of the base station apparatus 20, for example, when “the traffic load of the base station apparatus 20 is equal to or less than a certain amount”, the traffic load of the base station apparatus 20 is constant based on the traffic load information of the base station information A1. Determine if the amount is exceeded. When the result of this determination is “the traffic load of the base station device 20 exceeds a certain amount”, it is determined that there is coverage to be changed.

  If it is determined in step S1 that there is coverage to be changed, the process proceeds to step S2. On the other hand, if there is no coverage to be changed, the control process of FIG. 5 is terminated.

  In the description after step S2, the carrier frequency of the coverage determined to be changed in step S1 is set as the second carrier frequency f2 for convenience of explanation. The coverage of the second carrier frequency f2 is coverage Cov_f2. Further, among the plurality of carrier frequencies of the base station apparatus 20, one carrier frequency other than the second carrier frequency f2 is referred to as a first carrier frequency f1 for convenience of explanation. The coverage of the first carrier frequency f1 is coverage Cov_f1.

(Step S2) The coverage determining unit 52 determines the coverage Cov_f2 for the second carrier frequency f2 of the base station apparatus 20 determined to change the coverage in Step S1. For example, when the operation policy of the base station apparatus 20 is “reduce coverage holes” and the result of the determination in step S1 is “with coverage holes”, it is determined to expand coverage Cov_f2. For example, the operation policy of the base station apparatus 20 is “the traffic load of the base station apparatus 20 is set to a certain amount or less”, and the determination result in step S1 is “the traffic load of the base station apparatus 20 exceeds a certain amount”. Is determined to reduce the coverage Cov_f2.

(Step S3) The coverage determining unit 52 determines the coverage Cov_f1 of the first carrier frequency f1 of the base station device 20 based on the coverage Cov_f2 determined in step S2. In determining the coverage Cov_f1, the coverage determining unit 52 follows the coverage determining condition indicated by the information stored in the coverage determining condition storing unit 51.

(Step S4) The coverage determining unit 52 transmits the coverage determination information A2 of the coverage Cov_f2 determined in step S2 and the coverage determination information A2 of the coverage Cov_f1 determined in step S3 to the output unit 12. The output unit 12 transmits coverage control information A3 to the base station device 20 based on the coverage determination information A2 received from the carrier wave control unit 11. Thereby, the control unit 22 of the base station apparatus 20 executes a coverage change control process for changing the coverage Cov_f1 and the coverage Cov_f2 of the base station apparatus 20 based on the coverage control information A3 received from the control apparatus 10.

  The coverage determination unit 52 is a base station apparatus stored in the base station management information storage unit 53 based on the coverage determination information A2 of the coverage Cov_f2 determined in step S2 and the coverage determination information A2 of the coverage Cov_f1 determined in step S3 20 management information is updated.

  Next, an example of the coverage determination condition according to step S3 of FIG. 5 described above will be described.

(Example 1 of coverage determination conditions)
Example 1 of the coverage determination condition is to similarly change the size of the coverage. According to example 1 of the coverage determination condition, the coverage determination unit 52 determines to expand the coverage Cov_f1 of the first carrier frequency f1 when expanding the coverage Cov_f2 of the second carrier frequency f2. According to example 1 of the coverage determination condition, the coverage determination unit 52 determines to reduce the coverage Cov_f1 of the first carrier frequency f1 when reducing the coverage Cov_f2 of the second carrier frequency f2.

(Example 2 of coverage determination conditions)
Example 2 of the coverage determination condition is to change the size of the coverage in reverse. According to the coverage determination condition example 2, the coverage determination unit 52 determines to reduce the coverage Cov_f1 of the first carrier frequency f1 when expanding the coverage Cov_f2 of the second carrier frequency f2. According to Example 2 of the coverage determination condition, the coverage determination unit 52 determines to expand the coverage Cov_f1 of the first carrier frequency f1 when reducing the coverage Cov_f2 of the second carrier frequency f2.

(Example 3 of coverage determination conditions)
Example 3 of the coverage determination condition is to enlarge when changing the size of the coverage. According to the coverage determination condition example 3, the coverage determination unit 52 determines to expand the coverage Cov_f1 of the first carrier frequency f1 when changing the size of the coverage Cov_f2 of the second carrier frequency f2.

(Example 4 of coverage determination conditions)
Example 4 of the coverage determination condition is to reduce the coverage size when the size of the coverage is changed. According to example 4 of the coverage determination condition, the coverage determination unit 52 determines to reduce the coverage Cov_f1 of the first carrier frequency f1 when changing the size of the coverage Cov_f2 of the second carrier frequency f2.

(Example 5 of coverage determination conditions)
Example 5 of the coverage determination condition is to determine a coverage change method. According to example 5 of the coverage determination condition, the coverage determination unit 52 determines a method for changing the coverage Cov_f1 of the first carrier frequency f1 according to the method of changing the coverage Cov_f2 of the second carrier frequency f2.

  A specific example of the coverage determination condition example 5 will be described.

(Specific example 5-1A of coverage determination condition example 5)
Specific example 5-1A is to make the change range of the coverage the same. According to Specific Example 5-1A, the coverage determining unit 52 determines that the change range of the coverage Cov_f1 of the first carrier frequency f1 is the same as the change range of the coverage Cov_f2 of the second carrier frequency f2. The coverage change range includes an amount of changing the coverage size (coverage change amount) and a direction of changing the coverage size (coverage change direction). Note that only the coverage change amount may be the same, or only the coverage change direction may be the same, or both the coverage change amount and the coverage change direction may be the same.

(Specific example 5-1B of coverage determination condition example 5)
Specific example 5-1B is to change the change range of the coverage. According to the specific example 5-1B, the coverage determination unit 52 determines that the change range of the coverage Cov_f1 of the first carrier frequency f1 is different from the change range of the coverage Cov_f2 of the second carrier frequency f2. The coverage change range includes a coverage change amount and a coverage change direction. Note that only the coverage change amount may be different, only the coverage change direction may be different, or both the coverage change amount and the coverage change direction may be different.

(Specific example 5-2A of coverage determination condition example 5)
Specific example 5-2A is to make the change time of the coverage the same. The coverage change time is the time from the start of coverage change until the coverage becomes the target coverage. According to the specific example 5-2A, the coverage determining unit 52 changes the time from the start of changing the coverage Cov_f2 of the second carrier frequency f2 until the coverage Cov_f2 becomes the target coverage, and the coverage of the first carrier frequency f1. It is determined that the change time from the start of changing Cov_f1 to the time when coverage Cov_f1 becomes the target coverage is the same.

(Specific example 5-2B of example 5 of coverage determination condition)
Specific example 5-2B is to change the change time of the coverage. According to the specific example 5-2B, the coverage determining unit 52 changes the time from the start of changing the coverage Cov_f2 of the second carrier frequency f2 until the coverage Cov_f2 becomes the target coverage, and the coverage of the first carrier frequency f1. It is determined that the change time from the start of changing Cov_f1 to the time when coverage Cov_f1 becomes the target coverage is different.

(Example 6 of coverage determination conditions)
Example 6 of the coverage determination condition is to reduce the coverage presence as a condition. According to the coverage determination condition example 6, the coverage determination unit 52 reduces the coverage Cov_f1 of the first carrier frequency f1 on condition that the coverage Cov_f2 of the second carrier frequency f2 exists. The condition that the coverage Cov_f2 exists is that the coverage Cov_f2 exists in at least a part of the coverage hole range of the first carrier frequency f1 generated as a result of reducing the coverage Cov_f1. More preferably, the condition that the coverage Cov_f2 exists is that the coverage Cov_f2 exists in the entire coverage hole range of the first carrier frequency f1 generated as a result of reducing the coverage Cov_f1.
An example of a method for determining whether or not coverage Cov_f2 has reached a certain area (determination target area) is given below. When the terminal device 40 that is in communication connection with the base station device 20 using the second carrier frequency f2 exists in the determination target region, it is determined that the coverage Cov_f2 has reached the determination target region. On the other hand, if the terminal device 40 that is in communication connection with the base station device 20 using the second carrier frequency f2 does not exist in the determination target region for a predetermined period, it is determined that the coverage Cov_f2 does not reach the determination target region. . Alternatively, if the terminal device 40 that communicates with the base station device 20 using the second carrier frequency f2 does not exist in the determination target region for a predetermined period, a region (coverage hole) that is not covered by the coverage Cov_f2 is determined. It may be determined that it exists in the area.

  A modified example of the coverage determination condition example 6 will be described.

(Modification 6-1 of Example 6 of coverage determination condition)
The modified example 6-1 is to reduce the communication capacity when the communication capacity is tight, on condition that the coverage exists. According to the modified example 6-1, the coverage determining unit 52 determines to reduce the coverage Cov_f1 on condition that the coverage Cov_f2 of the second carrier frequency f2 exists and when the communication capacity of the first carrier frequency f1 is tight. To do. The coverage determination unit 52 determines whether the communication capacity of the first carrier frequency f1 of the base station device 20 is tight based on the traffic load information of the base station information A1 received from the base station device 20. For example, when the number of connected terminals of the first carrier frequency f1 included in the traffic load information of the base station information A1 is a predetermined value or more, it is determined that the communication capacity of the first carrier frequency f1 is tight, When it is less than the predetermined value, it is determined that the communication capacity of the first carrier frequency f1 is not tight.

(Modification 6-2 of Example 6 of coverage determination condition)
The modified example 6-2 is to increase the coverage when there is a margin of communication capacity on the condition that there is coverage. According to the modified example 6-2, the coverage determining unit 52 expands the coverage Cov_f1 when there is a margin of communication capacity at the first carrier frequency f1 on condition that the coverage Cov_f2 of the second carrier frequency f2 exists. decide. Based on the traffic load information of the base station information A1 received from the base station device 20, the coverage determining unit 52 determines whether or not there is a margin in the communication capacity of the first carrier frequency f1 of the base station device 20. To do. For example, when the number of connected terminals of the first carrier frequency f1 included in the traffic load information of the base station information A1 is less than a predetermined value, it is determined that there is a margin in the communication capacity of the first carrier frequency f1. If it is equal to or greater than the predetermined value, it is determined that there is no margin in the communication capacity of the first carrier frequency f1.

  The above is an example of coverage determination conditions.

  According to the first embodiment described above, in the same base station apparatus 20, by coordinating the determination of the coverage of a plurality of carrier frequencies, the adverse effect due to the change of the coverage of one carrier frequency is caused by the coverage of the other carrier frequency. Can be reduced. As a result, it is possible to flexibly cope with the occurrence of a coverage hole or a short-term increase in traffic load by coverage adjustment.

  For example, the generation of a coverage hole due to the reduction of the coverage Cov_f2 of the second carrier frequency f2 can be compensated by expanding the coverage Cov_f1 of the first carrier frequency f1. Thereby, it is possible to reduce an adverse effect due to the occurrence of a coverage hole when the coverage Cov_f2 of the second carrier frequency f2 is reduced.

  For example, by reducing the coverage Cov_f1 of the first carrier frequency f1 on the condition that the coverage Cov_f2 of the second carrier frequency f2 exists, it is possible to suppress a decrease in communication quality due to the reduction of the coverage Cov_f1.

  For example, the effect generated by changing the coverage of one carrier frequency can be enhanced by changing the coverage of the other carrier frequency. Specifically, for example, when the coverage Cov_f2 of the second carrier frequency f2 is expanded, the coverage enhancement effect can be increased by expanding the coverage Cov_f1 of the first carrier frequency f1.

[Second Embodiment]
The second embodiment is a modification of the first embodiment. FIG. 6 is a configuration diagram showing a radio communication system 2 according to the second embodiment of the present invention. In FIG. 6, parts corresponding to those in FIG. In FIG. 6, the radio communication system 2 includes M (M is an integer of 2 or more) base station apparatuses 20a-1 to 20M and M pieces of base station apparatuses 20a-1 to 20M provided corresponding to the base station apparatuses 20a-1 to 20M. Tilt control devices 30-1 to 30-M, M antenna devices 31-1 to 31-M provided corresponding to each of the base station devices 20a-1 to 20a-M, and a terminal device 40. In the first embodiment described above, the control apparatus 10 shown in FIG. 1 performs centralized control of the M base station apparatuses 20-1 to 20 -M, but in the second embodiment, the M base stations shown in FIG. 6. Each of the devices 20a-1 to 20M includes a carrier wave control unit 11 and an output unit 12, and each of the M base station devices 20a-1 to 20a-1 performs distributed control. Hereinafter, the base station devices 20a-1 to 20a-1M will be referred to as “base station device 20a” unless otherwise distinguished.

  The base station apparatus 20a performs radio communication with the terminal apparatus 40 existing within its own coverage. The base station device 20a uses a plurality of carrier frequencies. There is coverage for each carrier frequency. In the base station device 20a, the information output unit 21 transmits the base station information A1 to the carrier wave control unit 11. The carrier wave control unit 11 determines each coverage of the base station apparatus 20a based on the base station information A1 received from the information output unit 21. The carrier wave control unit 11 transmits coverage determination information A2 that is information about the determined coverage to the output unit 12. The output unit 12 transmits coverage control information A3 to the control unit 22 based on the coverage determination information A2 received from the carrier wave control unit 11. Based on the coverage control information A3 received from the output unit 12, the control unit 22 executes a coverage change control process for changing each coverage of the own base station device 20a. The operation of each part of the base station device 20a is the same as the corresponding part of the first embodiment described above.

  According to the centralized control by the control device 10 according to the first embodiment described above, the control device 10 manages the coverage of the M base station devices 20-1 to 20 -M, and therefore, between the coverages of adjacent base station devices 20. It is possible to change the coverage aiming at long-term operation of coverage by grasping the state. On the other hand, according to the distributed control by each base station apparatus 20a according to the second embodiment described above, each base station apparatus 20a can quickly change the coverage based on its own coverage state.

  The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and includes design changes and the like within a scope not departing from the gist of the present invention.

For example, a computer program for realizing each step shown in FIG. 5 may be recorded on a computer-readable recording medium, and the program recorded on the recording medium may be read by the computer system and executed. Here, the “computer system” may include an OS and hardware such as peripheral devices.
“Computer-readable recording medium” refers to a flexible disk, a magneto-optical disk, a ROM, a writable nonvolatile memory such as a flash memory, a portable medium such as a DVD (Digital Versatile Disk), and a built-in computer system. A storage device such as a hard disk.

Further, the “computer-readable recording medium” means a volatile memory (for example, DRAM (Dynamic DRAM) in a computer system that becomes a server or a client when a program is transmitted through a network such as the Internet or a communication line such as a telephone line. Random Access Memory)), etc., which hold programs for a certain period of time.
The program may be transmitted from a computer system storing the program in a storage device or the like to another computer system via a transmission medium or by a transmission wave in the transmission medium. Here, the “transmission medium” for transmitting the program refers to a medium having a function of transmitting information, such as a network (communication network) such as the Internet or a communication line (communication line) such as a telephone line.
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, and what is called a difference file (difference program) may be sufficient.

DESCRIPTION OF SYMBOLS 1, 2 ... Wireless communication system, 10 ... Control apparatus, 11 ... Carrier wave control part, 12 ... Output part, 20-1-M ... Base station apparatus, 20a-1-M ... Base station apparatus, 21 ... Information output part, DESCRIPTION OF SYMBOLS 22 ... Control part, 23 ... Radio | wireless part, 24 ... Signal processing part, 30-1-M ... Tilt control apparatus, 31-1-M ... Antenna apparatus, 40 ... Terminal device, 51 ... Coverage determination condition storage part, 52 ... Coverage determination unit, 53 ... base station management information storage unit

Claims (3)

A control device that outputs control information to be controlled by a base station that uses a plurality of carrier frequencies for wireless communication with a terminal,
A carrier wave control unit for determining the coverage of each carrier frequency;
An output unit for outputting control information about the determined coverage,
The carrier wave control unit determines the coverage of the first carrier frequency based on the coverage of the second carrier frequency,
The carrier wave control unit has the coverage of the second carrier frequency in all or at least a part of the range of the coverage hole of the first carrier frequency generated when the coverage of the first carrier frequency is reduced. Reducing coverage of the first carrier frequency when present and when the communication capacity of the first carrier frequency is tight,
Control device. A control method in which a base station that uses a plurality of carrier frequencies for wireless communication with a terminal outputs control information to be controlled,
A carrier control unit determining a coverage of each of the carrier frequencies;
An output unit outputting control information about the determined coverage, and
The carrier wave control unit determines the coverage of the first carrier frequency based on the coverage of the second carrier frequency,
The carrier wave control unit has the coverage of the second carrier frequency in all or at least a part of the range of the coverage hole of the first carrier frequency generated when the coverage of the first carrier frequency is reduced. Reducing coverage of the first carrier frequency when present and when the communication capacity of the first carrier frequency is tight,
Control method. A base station that uses a plurality of carrier frequencies for wireless communication with a terminal is a computer program for performing control processing to output control information that is a control target,
A carrier wave control step for determining the coverage of each carrier frequency;
Outputting the control information about the determined coverage, causing the computer to execute,
The carrier wave control step determines the coverage of the first carrier frequency based on the coverage of the second carrier frequency,
In the carrier wave control step, the coverage of the second carrier frequency is present in all or at least a part of the range of the coverage hole of the first carrier frequency that occurs when the coverage of the first carrier frequency is reduced. Reducing coverage of the first carrier frequency when present and when the communication capacity of the first carrier frequency is tight,
Computer program.

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