JP4104478B2 - Radio base station, operation station, radio base station operation system, operation method, and program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a radio base station that performs time synchronization using a GPS (Global Positioning System) signal.
[0002]
[Prior art]
A conventional mobile radio communication system based on a cell system is configured using a plurality of radio base stations (hereinafter simply referred to as base stations), and provides radio communication services over the entire area covered by each base station.
Such a mobile radio communication system is constructed on the assumption that the communication timings of the respective base stations coincide. This assumption is based on communication control processing near the boundary between the areas covered by the two base stations, for example, when the mobile station moves from the area currently covered by the currently connected base station to the area covered by another base station. It is provided to simplify a handover process for establishing communication with a station and continuing communication.
[0003]
The case where the time division multiple access scheme is adopted will be described as an example. In this scheme, a unit time called a frame repeated at a predetermined cycle is divided into a plurality of time slots, and the base station is a different mobile station in each time slot. The base station matches the start time of each frame (hereinafter simply referred to as time).
Conventionally, time adjustment between base stations is performed as follows. Base stations are classified into reference base stations and general base stations. Each reference base station recognizes a correct current time by receiving a GPS signal from a GPS satellite, and synchronizes its own time with the recognized correct current time (hereinafter also simply referred to as GPS synchronization). As a result, the time between the reference base stations is synchronized. Then, the general base station synchronizes its own time with the time of the neighboring reference base station. Such a time synchronization method is disclosed in Patent Document 1.
[0004]
A technique for calculating an error from the correct current time of the reference base station time together with the position information of the reference base station by receiving a GPS signal from a GPS satellite is well known. It is noted here that GPS signals received from at least four GPS satellites are required to calculate these information from the GPS signals.
The reference base station synchronizes its own time with the correct current time by correcting its own time so as to cancel the calculated error. Such time synchronization processing is performed by receiving a GPS signal at a predetermined time, for example, once a day, when the time of the reference base station indicates the predetermined time.
[0005]
[Patent Document 1]
Japanese Patent Laid-Open No. 2000-23245
[Problems to be solved by the invention]
However, depending on the positional relationship between the GPS satellite and the reference base station, there may be several times a year when GPS signals cannot be received from four or more GPS satellites at a predetermined time. In such a case, if time synchronization is executed, it will fail and end in vain, but the conventional radio base station has a problem of executing such time synchronization without knowing that it is useless.
[0007]
In view of the above problems, an object of the present invention is to provide a radio base station that stops time synchronization without receiving GPS signals when it cannot receive GPS signals from four or more GPS satellites.
[0008]
[Means for Solving the Problems]
(1) In order to solve the above problem, the radio base station of the present invention recognizes the current time by receiving a signal from a GPS satellite at a predetermined time, and synchronizes the time of the own station with the recognized current time. A wireless base station, a period information acquisition means for acquiring period information indicating an appropriate period for receiving a signal from a GPS satellite in the own station, and a period indicated by the acquired period information A determination unit that determines whether or not the signal is included; and a time synchronization cancellation unit that cancels the time synchronization without receiving a signal from the GPS satellite at the predetermined time when it is determined that the signal is not included.
(2) In order to solve the above problem, the operation station of the present invention is an operation station that operates a radio base station that synchronizes its own time with the current time recognized by receiving a signal from a GPS satellite. , Position information holding means for holding position information indicating the position where the wireless base station is installed, orbital calendar information acquiring means for acquiring orbital calendar information of GPS satellites from the outside, and GPS in the wireless base station Period information calculating means for calculating period information indicating an appropriate period for receiving a signal from the satellite from the held position information and the acquired orbital calendar information, and notifying the radio base station of the calculated period information Period information notification means.
(3) In order to solve the above problem, the radio base station operation system of the present invention recognizes the current time by receiving a signal from a GPS satellite at a predetermined time, and sets the time of the own station to the recognized current time. A radio base station operation system comprising a radio base station to be synchronized and an operation station that operates the radio base station, wherein the operation station has position information indicating a position where the radio base station is installed. Position information holding means for holding, orbital calendar information acquisition means for acquiring GPS satellite orbital calendar information, and period information indicating an appropriate period for receiving signals from GPS satellites in the wireless base station, the positional information And period information calculation means for calculating from the orbital calendar information, and period information notification means for notifying the radio base station of the calculated period information, the radio base station,
Period information acquisition means for acquiring the period information from the operation station, determination means for determining whether or not the predetermined time is included in the period indicated by the acquired period information, and determined not to be included A time synchronization stopping means for stopping time synchronization without receiving a signal from a GPS satellite at the predetermined time.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
The radio base station operation system according to the present embodiment is formed by connecting a radio base station and an operation station that operates the radio base station via a network. The reference base station in the present embodiment has a GPS synchronization function, and is notified of an appropriate period for receiving a GPS signal in its own station from the operation station. Stops time synchronization without trying to receive any other signal.
(overall structure)
FIG. 1 is a block diagram showing an overall configuration of a radio base station operation system according to the present embodiment. FIG. 1 shows the entire mobile radio communication system 1 including the radio base station operation system of the present embodiment. For convenience of explanation, it is assumed that a base station in the mobile radio communication system 1 communicates with a mobile station using a time division multiplexing method.
[0010]
The reference base station 10 includes an antenna 11 for communicating with the mobile station 61 and an antenna 12 for receiving a signal from the GPS satellite 80 and performing GPS synchronization. The reference base station 10 is connected to the switching center 40 via the dedicated network 30. The dedicated network 30 is a network dedicated to the mobile radio communication system, and is implemented in accordance with, for example, ISDN (Integrated Services Digital Network) standard.
[0011]
Here, the reference base station 10 (including the antennas 11 and 12), the operation station 70, and the communication path therebetween are included in the scope of the present radio base station operation system.
A general base station 20 is further connected to the dedicated network 30, and the general base station 20 communicates with the mobile station 62 via the antenna 21. The general base station 20 synchronizes its own time with the time of the reference base station 10.
[0012]
The dedicated network 30 is connected to the public network 50 via the exchange 40. A mobile station accommodated in the mobile radio communication system 1 communicates with a telephone or an information processing apparatus accommodated in another mobile radio communication system, a telephone network, an information communication network, or the like via the switching center 40.
In addition to such telephones and information processing apparatuses, an operation station 70 is connected to the public network 50. The operation station 70 supplies period information indicating an appropriate period for receiving the GPS signal to the reference base station 10 via the public network 50, the switching center 40, and the dedicated network 30.
(Configuration of reference base station 10)
FIG. 2 is a functional block diagram showing the overall configuration of the reference base station 10. The reference base station 10 includes an antenna 11 for communication with a mobile station, an antenna 12 for receiving GPS signals, a radio unit 102, a modem unit 103, a time synchronization signal generation unit 105, a signal processing unit 106, and a line I / F unit 107. And the control unit 110.
[0013]
The radio unit 102 is realized by using a low noise amplifier that amplifies a reception signal and a high power amplifier that amplifies a transmission signal, and the modulation / demodulation unit 103 is realized by using a mixer element for modulation and demodulation.
The time synchronization signal generation unit 105 and the signal processing unit 106 are realized using a DSP (Digital Signal Processor), and the functions of the time synchronization signal generation unit 105 and the signal processing unit 106 are performed by digital signal processing performed by the DSP according to a predetermined program. Realized.
[0014]
The line I / F unit 107 and the control unit 110 are realized using a CPU (Central Processing Unit), and the functions of the line I / F unit 107 and the control unit 110 are realized by information processing executed by the CPU according to a predetermined program. The
The antenna 11 receives a signal from a mobile station, the radio unit 102 amplifies the received signal, and the modem unit 103 demodulates the amplified signal into a time division multiplexed signal.
[0015]
The time synchronization signal generation unit 105 generates a 1 PPS (Pulse Per Second) clock signal by dividing an output signal from a temperature-compensated crystal oscillator (not shown) with a counter, and supplies the clock signal to the signal processing unit 106. The signal processing unit 106 extracts an individual mobile station signal from the time division multiplexed signal in each time slot determined from the supplied clock signal, and sends it to the dedicated network 30 via the line I / F unit 107. .
[0016]
When a GPS synchronization command is given from the control unit 110, the time synchronization signal generation unit 105 recognizes the time by receiving a signal from a GPS satellite via the antenna 12. Then, the clock signal is synchronized with the recognized time by resetting the frequency dividing counter at the beginning of the second indicated by the recognized time. In other words, the time of digits less than a second is synchronized. This operation corresponds to the GPS synchronization described above.
[0017]
In addition, the signal processing unit 106 acquires an individual mobile station signal from the dedicated network 30 via the line I / F unit 107, and outputs an individual mobile station signal for each time slot indicated by the clock signal. The distributed time division multiplexed signal is assembled, the modem unit 103 modulates the time division multiplexed signal, and the radio unit 102 amplifies the modulated time division multiplexed signal and sends it from the antenna 11 to the mobile station.
[0018]
The control unit 110 controls all of these operations.
(Details of GPS synchronization command)
The control unit 110 issues a GPS synchronization command to the time synchronization signal generation unit 105 only at an appropriate time for receiving a signal from a GPS satellite. For this purpose, an appropriate period storage unit 111, a synchronization time storage unit 112, and a synchronization execution command unit 113 are provided.
[0019]
FIG. 3 is a flowchart showing the operation of the control unit 110 related to the issuance of the GPS synchronization command.
The appropriate period storage unit 111 acquires and stores the period information supplied from the operation station 70 via the line I / F unit 107 (S21). The period information indicates an appropriate period during which the reference base station 10 receives a signal from a GPS satellite. Here, the appropriate period refers to a period in which four or more GPS satellites can be captured in the reference base station 10. The period information represents the start and end of the appropriate period in year, month, day, hour, minute, and second.
[0020]
The synchronization time storage unit 112 stores information indicating a predetermined time for performing GPS synchronization in the reference base station 10. This information is represented by a predetermined time of the day, and indicates the time as a predetermined time for performing GPS synchronization every day.
When the clock built in the control unit 110 indicates the time stored in the synchronization time storage unit 112 (S22: YES), the synchronization execution command unit 113 is a period in which the time is indicated by the period information. Only when it is included (S23: YES), a GPS synchronization command is issued to the time synchronization signal generation unit 105 to execute GPS synchronization (S24).
[0021]
If not included (S23: NO), the GPS synchronization command is not issued, so the time synchronization signal generation unit 105 stops the GPS synchronization without trying to receive a signal from the GPS satellite.
(Configuration and operation of operation station 70)
FIG. 4 is a functional block diagram showing the overall configuration of the operation station 70. The operation station 70 includes an orbital calendar information acquisition unit 71, a position information storage unit 72, a period information calculation unit 73, and a line I / F unit 74.
[0022]
FIG. 5 is a flowchart showing the operation of the operation station 70 related to the calculation and notification of period information.
The orbital calendar information acquisition unit 71 acquires orbital calendar information indicating the correspondence between the time and the location of each GPS satellite from the outside (S11). Orbital calendar information is published by the US Department of Defense.
[0023]
The position information storage unit 72 stores reference base station position information indicating the location of the reference base station 10.
The period information calculation unit 73 refers to the orbital calendar information and the reference base station position information (S12), calculates the elevation angle formed by the horizontal plane and the GPS satellite in the reference base station 10 for each GPS satellite, It is determined that a GPS satellite having an elevation angle greater than the threshold value can be captured. Then, period information indicating the start and end of a period in which it is determined that four or more GPS satellites can be captured is calculated in seconds (S13).
[0024]
The line I / F unit 74 transmits the calculated period information to the reference base station 10 via the public network 50 (S14).
(Summary)
As described above, according to the operation system configured to include the radio base station and the operation station of the present embodiment, the operation station indicates a period indicating an appropriate period for receiving a signal from a GPS satellite in the radio base station. Information is calculated, and the calculated period information is notified to the radio base station, and the radio base station does not include a predetermined time for performing GPS synchronization in the period indicated by the notified period information. Stops GPS synchronization without attempting to receive a signal from a GPS satellite.
[0025]
As a result, the unnecessary GPS synchronization performed by the wireless base station of the prior art is not performed, so that the power required for such GPS synchronization and the processing capacity of the DSP can be reduced.
(Other variations)
Although the present invention has been described based on the above embodiment, it is needless to say that the present invention is not limited to the above embodiment. The following cases are also included in the present invention.
(1) The present invention may be a computer program for realizing the method including the steps described in the embodiments using a computer system, or may be a digital signal representing the program.
[0026]
Further, the present invention may be a computer-readable recording medium on which the program or the digital signal is recorded, for example, a flexible disk, a hard disk, a CD, an MO, a DVD, a semiconductor memory, or the like.
The present invention may be the computer program or the digital signal transmitted via an electric communication line, a wireless or wired communication line, a network represented by the Internet, or the like.
[0027]
The present invention is also a computer system including a microprocessor and a memory, wherein the memory stores the program, and the microprocessor operates according to the program stored in the memory, so that the method is performed. May be realized.
Further, the program or the digital signal may be recorded on the recording medium and transferred, or transferred via the network or the like, and executed in another independent computer system.
(2) When there is a building or the like that prevents reception of GPS signals in a predetermined elevation direction of a predetermined direction from the GPS antenna in the reference base station 10, the operation station 70 is located at the elevation angle in the direction of the reference base station 10. It may be determined that the calculated GPS satellite cannot be captured when it hits the direction.
(3) The reference base station 10 may set a predetermined time for performing GPS synchronization at regular intervals, for example, every 18 hours. Also in this case, when the predetermined synchronization time comes, if the time is not included in the period information, the GPS synchronization can be stopped.
(4) In the embodiment, the GPS synchronization performed by the reference base station 10 means resetting a counter that divides the signal from the temperature-compensated crystal oscillator at the beginning of the second of the time recognized from the GPS signal. Although this is expressed as synchronizing the digits of the clock signal in seconds or less, this is synonymous with synchronizing the phase of the clock signal.
[0028]
That is, a radio base station that recognizes the time by receiving a signal from a GPS satellite at a predetermined time and synchronizes the phase of the clock signal of the local station at the recognized time, and is outside an appropriate period known from the outside. In the present invention, a radio base station provided with a canceling means for canceling the phase synchronization of the clock signal is also included in the present invention.
(5) In the embodiment, for convenience of understanding, a specific example is shown in which time slot timing management in the time division multiple access method is performed using a clock signal synchronized with GPS. It is not limited to the mobile radio communication system taken.
[0029]
That is, all the base stations that manage the communication timing using the GPS-synchronized clock signal and stop the GPS synchronization of the clock signal outside the appropriate period that is notified from the outside are included in the present invention. It is.
(6) In the embodiment, the operation station 70 is connected to the public network 50 and supplies period information to the reference base station 10 via the public network, the switching center 40, and the dedicated network 30, but as an alternative, The operation station 70 may be connected to the dedicated network 30 and the period information may be supplied to the reference base station 10 via the dedicated network 30.
[0030]
【The invention's effect】
The radio base station of the present invention is a radio base station that recognizes a current time by receiving a signal from a GPS satellite at a predetermined time, and synchronizes its own time with the recognized current time. Period information acquisition means for acquiring period information indicating an appropriate period for receiving a signal from a GPS satellite from the outside, and determination means for determining whether or not the predetermined time is included in a period indicated by the acquired period information And time synchronization canceling means for canceling time synchronization without receiving a signal from a GPS satellite at the predetermined time when it is determined not to be included.
[0031]
According to this configuration, the radio base station attempts to receive a signal from a GPS satellite when the predetermined time for performing GPS synchronization is not included in the appropriate period indicated by the period information notified from the outside. GPS synchronization is stopped without any unnecessary GPS synchronization.
The operation station of the present invention is an operation station that operates a radio base station that synchronizes its own time with the current time recognized by receiving a signal from a GPS satellite, and the radio base station is installed. A position information holding means for holding position information indicating the position, an orbital calendar information acquiring means for acquiring the orbital calendar information of the GPS satellite from the outside, and an appropriate period for receiving a signal from the GPS satellite at the wireless base station. Period information calculating means for calculating the indicated period information from the held position information and the acquired orbital calendar information, and period information notifying means for notifying the radio base station of the calculated period information.
[0032]
According to this configuration, the operation station can notify the radio base station to be operated of an appropriate period for performing GPS synchronization.
The radio base station operation system of the present invention recognizes a current time by receiving a signal from a GPS satellite at a predetermined time, and synchronizes the time of the local station with the recognized current time, and the radio base station A radio base station operation system composed of an operation station that operates a station, wherein the operation station holds position information indicating a position where the radio base station is installed; A period for calculating orbital calendar information acquisition means for acquiring the orbital calendar information of the GPS satellite, and period information indicating an appropriate period for receiving a signal from the GPS satellite in the wireless base station from the position information and the orbital calendar information. Information calculation means, and period information notification means for notifying the radio base station of the calculated period information, wherein the radio base station acquires the period information from the operation station. And a determination means for determining whether or not the predetermined time is included in a period indicated by the acquired period information, and when it is determined that the predetermined time is not included, a signal from the GPS satellite at the predetermined time is received. Time synchronization canceling means for canceling the time synchronization without stopping.
[0033]
According to this configuration, the operation station included in the radio base station operation system notifies the radio base station of an appropriate period for performing GPS synchronization, and the radio base station has If it is not included in the appropriate period indicated by the period information notified from the operation station, GPS synchronization is stopped without trying to receive a signal from a GPS satellite, so that unnecessary GPS synchronization is not performed.
[0034]
The operation method of the present invention is an operation method of a radio base station that recognizes a current time by receiving a signal from a GPS satellite at a predetermined time, and synchronizes the time of the local station with the recognized current time, A period information acquisition step of acquiring period information indicating an appropriate period for receiving a signal from a GPS satellite in a radio base station from outside, and whether or not the predetermined time is included in a period indicated by the acquired period information A determination step for determining and a time synchronization cancellation step for canceling the time synchronization without receiving a signal from the GPS satellite at the predetermined time when it is determined not to be included are executed.
[0035]
The operation method of the present invention is an operation method of a radio base station that recognizes a current time by receiving a signal from a GPS satellite at a predetermined time, and synchronizes the time of the local station with the recognized current time, An orbital calendar information acquisition step that is executed in a radio base station and an operation station that operates the radio base station and acquires orbital calendar information of a GPS satellite in the operation station, and a signal from the GPS satellite in the radio base station A period information calculation step for calculating period information indicating an appropriate period for receiving the radio base station from the position where the radio base station is installed and the acquired orbital calendar information, and notifying the radio base station of the calculated period information Period information notifying step, and in the radio base station, the period information acquiring step for acquiring the period information from the operation station, and the predetermined period is acquired A determination step of determining whether or not the period is included in the period indicated by the information, and a time synchronization stop step of stopping time synchronization without receiving a signal from the GPS satellite at the predetermined time when it is determined that the period is not included And execute.
[0036]
If the radio base station is operated by these methods, the same effect as described above is exhibited.
The program of the present invention can be executed by a computer for operating a radio base station that recognizes the current time by receiving a signal from a GPS satellite at a predetermined time and synchronizes the time of the local station with the recognized current time. The program includes a period information receiving step for receiving period information indicating an appropriate period for receiving a signal from a GPS satellite in the radio base station, and the predetermined period is included in a period indicated by the received period information A determination step for determining whether or not the time synchronization is not included, and a time synchronization cancellation step for canceling the time synchronization without receiving a signal from the GPS satellite at the predetermined time.
[0037]
The program of the present invention recognizes the current time by receiving a signal from a GPS satellite at a predetermined time, and operates the radio base station to synchronize its own time with the recognized current time. A computer-executable program group executed in a station and an operation station that operates the radio base station, the first program included in the program group is an orbital calendar that acquires orbital calendar information of a GPS satellite. Period information calculation for calculating an information acquisition step and period information indicating an appropriate period for receiving a signal from a GPS satellite in the radio base station from a position where the radio base station is installed and the acquired orbital calendar information Causing the computer in the operation station to execute a step and a period information transmission step of transmitting the calculated period information to the radio base station, The second program included in the program group includes a period information receiving step for receiving the period information from an operation station, and a determination for determining whether the predetermined time is included in a period indicated by the received period information. If it is determined that it is not included, the computer in the radio base station is caused to execute a time synchronization stop step of stopping time synchronization without receiving a signal from a GPS satellite at the predetermined time.
[0038]
If the radio base station is operated by executing these programs, the same effects as described above are exhibited.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an overall configuration of a radio base station operation system in the present embodiment.
2 is a functional block diagram showing an overall configuration of a reference base station 10. FIG.
FIG. 3 is a flowchart showing the operation of the control unit 110 relating to the issuance of a GPS synchronization command.
4 is a functional block diagram showing the overall configuration of an operation station 70. FIG.
FIG. 5 is a flowchart showing an operation of the operation station 70 related to calculation and notification of period information.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Mobile radio communication system 10 Reference base station 11 Antenna 12 Antenna 20 General base station 21 Antenna 30 Dedicated network 40 Switching office 50 Public network 61 Mobile station 62 Mobile station 70 Operation station 71 Orbital calendar information acquisition part 72 Location information storage part 73 Period Information calculation unit 74 Line I / F unit 80 GPS satellite 102 Radio unit 103 Modulation / demodulation unit 105 Time synchronization signal generation unit 106 Signal processing unit 107 Line I / F unit 110 Control unit 111 Appropriate period storage unit 112 Synchronization timing storage unit 113 Synchronization execution Command section

Claims (7)

A wireless base station that recognizes the current time by receiving a signal from a GPS satellite at a predetermined time, and synchronizes the time of the local station with the recognized current time,
Period information acquisition means for acquiring period information indicating an appropriate period for receiving a signal from a GPS satellite in the own station from the outside,
Determining means for determining whether or not the predetermined time is included in a period indicated by the acquired period information;
A radio base station, comprising: time synchronization canceling means for canceling time synchronization without receiving a signal from a GPS satellite at the predetermined time when it is determined not to be included. An operation station that operates a radio base station that synchronizes its own time with the current time recognized by receiving a signal from a GPS satellite,
Position information holding means for holding position information indicating a position where the wireless base station is installed;
An ephemeris information acquisition means for acquiring ephemeris information of GPS satellites from the outside;
Period information calculation means for calculating period information indicating an appropriate period for receiving a signal from a GPS satellite in the radio base station from the held position information and the acquired orbital calendar information;
An operation station comprising: period information notification means for notifying the radio base station of the calculated period information. It consists of a radio base station that recognizes the current time by receiving a signal from a GPS satellite at a predetermined time, and synchronizes its own time with the recognized current time, and an operation station that operates the radio base station. Wireless base station operation system,
The operation station is
Position information holding means for holding position information indicating a position where the wireless base station is installed;
Ephemeris information acquisition means for acquiring ephemeris information of GPS satellites;
Period information calculating means for calculating period information indicating an appropriate period for receiving a signal from a GPS satellite in the radio base station from the position information and the orbital calendar information;
Period information notification means for notifying the radio base station of the calculated period information,
The radio base station is
Period information acquisition means for acquiring the period information from the operation station;
Determining means for determining whether or not the predetermined time is included in a period indicated by the acquired period information;
A radio base station operation system, comprising: time synchronization cancellation means for canceling time synchronization without receiving a signal from a GPS satellite at the predetermined time when it is determined not to be included. A wireless base station operation method for recognizing the current time by receiving a signal from a GPS satellite at a predetermined time and synchronizing the time of the own station with the recognized current time,
Period information acquisition step for acquiring period information indicating an appropriate period for receiving a signal from a GPS satellite in the radio base station from the outside,
A determination step of determining whether the predetermined time is included in a period indicated by the acquired period information;
And a time synchronization cancellation step of canceling time synchronization without receiving a signal from a GPS satellite at the predetermined time when it is determined that it is not included. A method of operating a radio base station that recognizes a current time by receiving a signal from a GPS satellite at a predetermined time, and synchronizes the time of the local station with the recognized current time, the radio base station, and the radio Executed with the operation station that operates the base station,
In the operation station,
An ephemeris information acquisition step for acquiring ephemeris information of GPS satellites;
A period information calculation step of calculating period information indicating an appropriate period for receiving a signal from a GPS satellite in the radio base station from a position where the radio base station is installed and the acquired orbital calendar information;
Performing a period information notification step of notifying the radio base station of the calculated period information;
In the radio base station,
A period information acquisition step of acquiring the period information from an operation station;
A determination step of determining whether the predetermined time is included in a period indicated by the acquired period information;
And a time synchronization cancellation step of canceling time synchronization without receiving a signal from a GPS satellite at the predetermined time when it is determined that it is not included. A computer-executable program for operating a radio base station that recognizes the current time by receiving a signal from a GPS satellite at a predetermined time, and synchronizes the time of the local station with the recognized current time,
A period information receiving step for receiving period information indicating an appropriate period for receiving a signal from a GPS satellite in the radio base station;
A determination step of determining whether the predetermined time is included in a period indicated by the received period information;
A program for causing a computer to execute a time synchronization canceling step for canceling time synchronization without receiving a signal from a GPS satellite at the predetermined time when it is determined not to be included. In order to operate a radio base station that recognizes a current time by receiving a signal from a GPS satellite at a predetermined time and synchronizes the time of the local station with the recognized current time, and the radio base station A computer-executable program group that is executed by an operation station that operates a station,
The first program included in the program group is:
An ephemeris information acquisition step for acquiring ephemeris information of GPS satellites;
A period information calculation step of calculating period information indicating an appropriate period for receiving a signal from a GPS satellite in the radio base station from a position where the radio base station is installed and the acquired orbital calendar information;
Causing the computer in the operation station to execute a period information transmission step of transmitting the calculated period information to the radio base station;
The second program included in the program group is:
A period information receiving step for receiving the period information from an operation station;
A determination step of determining whether the predetermined time is included in a period indicated by the received period information;
A group of programs for causing a computer in the radio base station to execute a time synchronization stop step of stopping time synchronization without receiving a signal from a GPS satellite at the predetermined time when it is determined that the wireless base station does not include .

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