JP2013030917A - Wireless base station system, wireless base station, and time acquisition method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wireless base station system, a wireless base station, and a time acquisition method which do not require writing installation place information in the wireless base station equipped with an assist GPS module and can prevent an incorrect operation even when an installation place of the wireless base station equipped with the assist GPS module has changed.SOLUTION: A wireless base station 2 comprises a GPS module which receives trajectory information from a GPS satellite on the basis of assist data received from an assist server 3 and by using the received trajectory information, first location information received from a data server, and first time information received from an NTP server 5, generates second time information indicating highly accurate time compared to the first time information.

Description

  The present invention relates to a radio base station system, a radio base station, and a time acquisition method, and more particularly to a radio base station having an assist GPS module, a radio base station system including such a radio base station, and such a radio base station. The present invention relates to a time acquisition method for synchronization.

  The radio base station includes a GPS module as a timing acquisition unit in order to align transmission and reception timings. The GPS module acquires information from a plurality of GPS satellites in the sky via a GPS antenna, calculates a correct location and time from the information, and outputs a timing signal.

  In order to create a correct timing signal, information from four or more GPS satellites is necessary, and accurate information is also required. Therefore, the GPS antenna is generally installed in a place where the sky in the sky is good.

  A method for calculating how many GPS satellites can be received at a place where a GPS module is installed is described in Japanese Patent Application Laid-Open No. 8-285933. Using this method, the number of GPS satellites visible at any time can be calculated.

  However, the sky view is not always good at all locations. In the case of an indoor radio base station, since a GPS antenna is installed indoors, it can be seen only within a certain angle, and it is impossible to see the whole sky. For this reason, the radio base station may use a GPS module (hereinafter referred to as an assist GPS module) corresponding to a method called an assist method.

  By the way, it is necessary to give the installation position of the wireless base station to the assist GPS module.

JP-A-8-285933

  However, in order to give the GPS module the installation position of the radio base station, conventionally, when installing the radio base station or at the time of shipment from the factory, it has been necessary to write the position information of the base station in the nonvolatile memory.

  In the former case, there is a problem that it takes time to install the base station. In the latter case, it is necessary to determine the installation location of the base station in advance. In addition, if the location of the base station is moved beyond a predetermined distance (for example, 30 km), the GPS module malfunctions as it is, so that it is necessary to update the position information in the nonvolatile memory.

  Therefore, the object of the present invention is not to write the installation location information in the radio base station on which the assist GPS module is installed, and to prevent malfunction even when the installation location of the radio base station on which the assist GPS module is installed is changed. It is to provide a radio base station system, a radio base station, and a time acquisition method.

  In order to solve the above-described problems, a radio base station system according to the present invention includes a radio base station, a first server that transmits first position information indicating an installation position of the radio base station to the radio base station, and a satellite position. A radio comprising: a second server that transmits orbit information received from the coordinate system to the radio base station as assist data; and a third server that transmits first time information representing the current approximate time to the radio base station. In the communication system, the radio base station receives the orbit information from the satellite position coordinate system based on the assist data received from the second server, and receives the received orbit information and the first information received from the first server. The first time information received from the third server is used to generate second time information representing time more accurately than the first time information using the first position information and the first time information received from the third server.

  According to the present invention, it is not necessary to write the installation location information in the radio base station on which the assist GPS module is installed, and it is possible to prevent malfunction even when the installation location of the radio base station on which the assist GPS module is installed is changed. Can do.

It is a figure showing the structure of the radio base station system of embodiment of this invention. It is a figure showing the structure of the wireless base station of embodiment of this invention. 2 is a flowchart showing an overall operation procedure of the radio base station system of FIG. 1.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a diagram showing a configuration of a radio base station system according to an embodiment of the present invention.

  Referring to FIG. 1, this radio base station system includes a plurality of radio base stations 2_1 to 2_N operating in synchronization, an assist server 3, a data server 4, and an NTP (Network Time Protocol) server 5. .

  A plurality of radio base stations 2_1 to 2_N and the assist server 3, the data server 4, and the NTP server 5 are connected by a network 6.

  Each of the plurality of radio base stations 2_1 to 2_N receives navigation messages (orbit information) from a plurality of GPS satellites belonging to the GPS satellite group (32 GPS satellites) 1 by the GPS module.

  The data server 4 transmits the first position information indicating the installation positions of the radio base stations 2_1 to 2_N to the radio base stations 2_1 to 2_N. The first position information is information representing the installation position of the radio base station inquired about the installation position, or information representing the installation position of the radio base station adjacent to the radio base station inquired about the installation position.

The assist server 3 transmits the orbit information received from the GPS satellite to the radio base stations 2_1 to 2_N as assist data.
The NTP server 5 transmits first time information representing the current accurate time or approximate time to the radio base station. When the NTP server 5 specifies the time based on the orbit information from the GPS satellite, the time included in the first time information is an accurate time.

  On the other hand, when the NTP server 5 receives time from another NTP server through the network and generates the first time information from this time, the received time depends on the influence of the communication environment of the network (for example, Information transmission time, influence of delay, etc.). As a result, the time included in the first time information may include an error as compared with the case where the time is specified based on the orbit information from the GPS satellite, and may be different from the accurate time. . Therefore, the time included in the first time information in this case is the approximate time. Regardless of whether the time included in the first time information transmitted from the NTP server 5 is accurate or approximate, the time included in the first time information received by the radio base station is an approximate time. This is because the first time information is transmitted from the NTP server 5 to the radio base station through the network, and therefore is affected by the communication environment of the network (for example, the transmission time of information, the influence of delay, etc.).

(Configuration of radio base station)
FIG. 2 is a diagram showing the configuration of the radio base station according to the embodiment of the present invention.

  Referring to FIG. 2, the radio base station 2 includes a GPS antenna 8, an assist GPS module 10, a NIC (Network Interface Card) unit 12, an MS unit 14, a BS unit 16, and a radio antenna 18. Prepare.

  The assist GPS module 10 receives a navigation message (orbit information) through the GPS antenna 8. The navigation message includes the orbit information (ephemeris) of the GPS satellite that transmitted the navigation message and the orbit information (almanac) of all GPS satellites. The almanac includes rough position information of all GPS satellites. The ephemeris includes accurate position information of the GPS satellite that transmitted the ephemeris and time information that transmitted the GPS satellite.

  The GPS module 10 selects a GPS satellite in a visible position based on the almanac. The GPS module 10 receives the ephemeris of the selected satellite by increasing the ephemeris reception sensitivity of the selected satellite using the ephemeris of the GPS satellite included in the assist data received from the assist server 3. The GPS module 10 uses the ephemeris of four satellites received at its own station, the first position information received from the data server 4, and the first time information received from the NTP server 5, to A reference time signal TP (second time information) with higher accuracy than the information and position information (second position information) indicating the installation position of the own station are generated.

  The MS unit 14 performs a function as a terminal. When receiving a signal from another base station, the MS unit 14 outputs the ID of the base station included in the received signal to the NIC unit 12 as the ID of the adjacent base station.

  The BS unit 16 performs a function as a base station. The BS unit 16 outputs its own station ID to the NIC unit 12.

  The radio antenna 18 receives a radio signal and outputs it to the MS unit 14. The radio antenna 18 receives the radio signal from the BS unit 16 and transmits it to the terminal.

  The NIC unit 12 receives assist data from the assist server 3. The NIC unit 12 receives the first time information from the NTP server 5. The NIC unit 12 receives the first position information from the data server 4. Further, the NIC unit 12 transmits the ID of the local station to the data server 4 as the ID of the first device and the ID of the adjacent base station as the ID of the second device.

  The data server 4 includes a NIC unit 20, a location management unit 22, and an installation location information storage unit 24.

  The NIC unit 20 receives the ID of the first device and the ID of the second device from the radio base station 2. The NIC unit 20 transmits the first position information to the radio base station 2 that has transmitted the ID of the first device and the ID of the second device.

The installation location information storage unit 24 stores information representing the installation location for each radio base station.
If the information indicating the installation position of the first device is not registered in the installation location information storage unit 24 and the information indicating the installation position of the second device is registered, the position management unit 22 Information indicating the installation position of the second device is specified as the first position information. In this way, the position of the first device may not be registered because, for example, immediately after the first device is installed and operated as a base station, information indicating the installation position is still registered. This is because there is nothing.

  In addition, the use of the installation position of the second device instead of the installation position of the first device is not required because the position information of the first device used in the GPS module 10 is highly accurate. This is because the installation position of the base station adjacent to the station can be substituted.

  The position management unit 22 is configured such that when the information indicating the installation position of the first device and the information indicating the installation position of the second device are registered in the installation location information storage unit 24, the installation position of the first device. When the distance between the installation position of the second apparatus and the second apparatus is equal to or smaller than a predetermined value, information indicating the installation position of the first apparatus is specified as the first position information. However, the predetermined value is, for example, 30 km. This is because when the first device and the second device are close to each other, the first device (that is, the wireless base station that transmitted the ID of the first device and the ID of the second device) has an installation location. This is because the current actual position of the first device is not changed and the installation position of the first device stored in the installation location information storage unit 24 can be considered to match. For the second device (adjacent base station of the first device), it is assumed that the current actual position is registered in the installation location information storage unit 24. For the second device (adjacent base station of the first device), it is assumed that the installation location after the change is registered in the installation location information storage unit 24 even when the installation location is changed.

  The position management unit 22 is configured such that when the information indicating the installation position of the first device and the information indicating the installation position of the second device are registered in the installation location information storage unit 24, the installation position of the first device. When the distance between the installation position of the second apparatus exceeds a predetermined value, information indicating the installation position of the second apparatus is specified as the first position information. This is because when the first device and the second device are separated from each other while the first device and the second device are supposed to be close to each other, the first device (that is, the first device) The wireless base station that has transmitted the ID of the device and the ID of the second device) has been changed in location, and is stored in the current actual location and location information storage unit 24 of the first device. This is because it can be considered that the installation position of the device does not match.

  When the location management unit 22 receives the second location information from the radio base station 2 and the information indicating the installation location of the radio base station 2 is not registered in the installation location information storage unit 24, the location management unit 22 2 is registered as information representing the installation position, and when the information representing the installation position of the radio base station 2 is still registered in the installation location information storage unit 24, the received second position information Information indicating the installation position is updated.

(Overall operation)
FIG. 3 is a flowchart showing an overall operation procedure of the radio base station system of FIG.

  First, after the radio base station 2 is activated, the MS unit 14 acquires the ID of the adjacent radio base station from the signal transmitted by the adjacent radio base station (step S101).

  Next, the MS unit 14 outputs the acquired ID of the adjacent radio base station to the NIC unit 12. The BS unit 16 outputs the ID of the own station (own device) to the NIC unit 12. The NIC unit 12 transmits a location notification request including the ID of the local station as the ID of the first device and the ID of the adjacent base station as the ID of the second device to the data server 4 through the network (step S102).

  The NIC unit 12 of the wireless base station 2 inquires the NTP server 5 about the first time information through the network (step S103), and receives the first time information from the NTP server 5 through the network (step S104).

  The NIC unit 12 of the wireless base station 2 inquires the assist server 3 through the network for assist data (step S105), and receives the assist data from the assist server 3 through the network (step S106).

The NIC unit 20 of the data server 4 receives the position notification request.
The position management unit 22 reads information representing the installation position of the second device from the installation location information storage unit 24 (step S108).

  If there is no information indicating the installation position of the first device in the installation location information storage unit 24 (YES in step S109), the position management unit 22 displays the information indicating the installation position of the second device read in step S108. First position information is set (step S110).

  If the information indicating the installation position of the first device exists in the installation location information storage unit 24 (NO in step S109), the position management unit 22 reads the information indicating the installation position of the first device ( Step S111).

  When the distance between the installation position of the first device and the installation position of the second device exceeds 30 km (NO in step S112), the position management unit 22 reads the installation position of the second device read in step S108. Is set as the first position information (step S110). If the distance between the installation position of the first device and the installation position of the second device is within 30 km (YES in step S112), the position management unit 22 reads the installation position of the first device read in step S111. Is set as the first position information (step S113).

  The NIC unit 20 of the data server 4 transmits a position answer including the set first position information to the radio base station 2 (step S114).

  The NIC unit 12 of the radio base station 2 receives the position answer including the first position information (step S115).

  Next, the GPS module 10 selects a GPS satellite in a visible position based on the almanac. The GPS module 10 receives the ephemeris of the selected satellite by increasing the ephemeris reception sensitivity of the selected satellite using the ephemeris of the GPS satellite included in the assist data received from the assist server 3 (step S116). ).

  Next, the GPS module 10 uses the ephemeris of the four satellites received at its own station, the first position information received from the data server 4, and the first time information received from the NTP server 5. A reference time signal TP (second time information) with higher accuracy than the time information of 1 and position information (second position information) indicating the installation position of the own station are generated (step S117).

  The NIC unit 12 of the radio base station 2 transmits the second position information to the data server 4 (step S118).

  The radio base station 2 performs communication processing according to the timing of the reference time signal 1PPS (step S119).

The NIC unit 20 of the data server 4 receives the second position information (step S120).
The position management unit 22 of the data server 4 creates or updates information indicating the installation position of the radio base station 2 in the installation location information storage unit 24 based on the received second position information (step S121).

  As described above, according to the radio base station system of the present embodiment, there is no need to write the installation location information in the radio base station equipped with the assist GPS function, and the installation location of the radio base station equipped with the assist GPS function. Even if is changed, it does not malfunction.

(Modification)
The present invention is not limited to the above embodiment, and includes, for example, the following modifications.

(1) Location Management In the embodiment of the present invention, when the installation location information storage unit 24 stores information indicating the installation location of the first device and information indicating the installation location of the second device, data is stored. Although the server 4 determines which to transmit to the radio base station 2, the present invention is not limited to this.

  The data server 4 transmits both the information indicating the installation position of the first device and the information indicating the installation position of the second device to the radio base station 2, and determines which one to use on the radio base station 2 side. It is good as well.

  That is, in this case, when information indicating the installation position of the first device is registered in the installation location information storage unit 24, the position management unit 22 reads the information indicating the installation position of the first device. Then, the NIC unit 20 replies to the radio base station 2. If the information indicating the installation position of the second device is registered in the installation location information storage unit 24, the position management unit 22 reads the information indicating the second installation position, and the NIC unit 20 Reply to station 2.

  When the GPS module 10 of the radio base station 2 does not receive the information indicating the installation position of the first device and receives the information indicating the installation position of the second device, the GPS module 10 determines the installation position of the second device. Used as first position information to be represented. When the GPS module 10 receives the information indicating the installation position of the first device and the information indicating the installation position of the second device, the distance between the installation position of the first device and the installation position of the second device. If is less than or equal to a predetermined value, information representing the installation position of the first device is used as the first position information. When the GPS module 10 receives the information indicating the installation position of the first device and the information indicating the installation position of the second device, the distance between the installation position of the first device and the installation position of the second device. When the value exceeds a predetermined value, information representing the installation position of the second device is used as the first position information.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

  1 GPS satellite group, 2_1 to 2_N wireless base station, 3 assist server, 4 data server, 5 NTP server, 6 network, 8 GPS antenna, 10 GPS module, 12, 20 NIC unit, 14 MS unit, 16 BS unit, 18 Wireless antenna, 22 position management unit, 24 installation location information storage unit.

Claims (10)

A radio base station;
A first server that transmits first position information representing an installation position of the radio base station to the radio base station;
A second server for transmitting orbit information received from the satellite position coordinate system to the radio base station as assist data;
A wireless communication system comprising a third server that transmits first time information representing a current approximate time to a wireless base station,
The radio base station is
Based on the assist data received from the second server, orbit information from a satellite position coordinate system is received, the received orbit information, the first position information received from the first server, and the first 3. A radio base station system having a module that generates second time information representing time with higher accuracy than the first time information using the first time information received from the third server. The radio base station is
A communication unit that transmits the ID of the local station as the ID of the first device, and transmits the ID of the adjacent base station to the first server as the ID of the second device;
The first server is
A storage unit for storing information representing an installation position for each radio base station;
When the ID of the first device and the ID of the second device are received, the information indicating the installation position of the first device is not registered in the storage unit, and the installation position of the second device is determined. The radio base station system according to claim 1, further comprising: a position management unit that specifies information representing an installation position of the second device as the first position information when the representing information is registered. The radio base station is
A communication unit that transmits the ID of the local station as the ID of the first device, and transmits the ID of the adjacent base station to the first server as the ID of the second device;
The first server is
A storage unit for storing information representing an installation position for each radio base station;
When the ID of the first device and the ID of the second device are received, information indicating the installation position of the first device and information indicating the installation position of the second device are registered in the storage unit. When the distance between the installation position of the first device and the installation position of the second device is equal to or smaller than a predetermined value, information indicating the installation location of the first device is obtained. The radio base station system according to claim 1, further comprising a location management unit that is specified as location information. The radio base station is
A communication unit that transmits the ID of the local station as the ID of the first device, and transmits the ID of the adjacent base station to the first server as the ID of the second device;
The first server is
A storage unit for storing information representing an installation position for each radio base station;
When the ID of the first device and the ID of the second device are received, information indicating the installation position of the first device and information indicating the installation position of the second device are registered in the storage unit. When the distance between the installation position of the first device and the installation position of the second device exceeds a predetermined value, information indicating the installation position of the second device is obtained. The radio base station system according to claim 1, further comprising a location management unit that is specified as location information. The radio base station is
A communication unit that transmits the ID of the local station as the ID of the first device, and transmits the ID of the adjacent base station to the first server as the ID of the second device;
The first server is
A storage unit for storing information representing an installation position for each radio base station;
When information indicating the installation position of the first device is registered in the storage unit when the ID of the first device and the ID of the second device are received, the first installation position A communication unit that returns information representing the second installation position when information representing the installation position of the second device is registered in the storage unit.
The module of the radio base station is
When information indicating the installation position of the second device is received without receiving information indicating the installation position of the first device, the information is used as the first position information indicating the installation position of the second device. The radio base station system according to claim 1. The radio base station is
A communication unit that transmits the ID of the local station as the ID of the first device, and transmits the ID of the adjacent base station to the first server as the ID of the second device;
The first server is
A storage unit for storing information representing an installation position for each radio base station;
When information indicating the installation position of the first device is registered in the storage unit when the ID of the first device and the ID of the second device are received, the first installation position A communication unit that returns information representing the second installation position when information representing the installation position of the second device is registered in the storage unit.
The module of the radio base station is
When the information indicating the installation position of the first device and the information indicating the installation position of the second device are received, the distance between the installation position of the first device and the installation position of the second device is a predetermined value. The radio base station system according to claim 1, wherein information indicating an installation position of the first device is used as the first position information in the following cases. The radio base station is
A communication unit that transmits the ID of the local station as the ID of the first device, and transmits the ID of the adjacent base station to the first server as the ID of the second device;
The first server is
A storage unit for storing information representing an installation position for each radio base station;
When information indicating the installation position of the first device is registered in the storage unit when the ID of the first device and the ID of the second device are received, the first installation position A communication unit that returns information representing the second installation position when information representing the installation position of the second device is registered in the storage unit.
The module of the radio base station is
When the information indicating the installation position of the first device and the information indicating the installation position of the second device are received, the distance between the installation position of the first device and the installation position of the second device is a predetermined value. 2. The radio base station system according to claim 1, wherein information representing an installation position of the second device is used as the first position information when the second position is exceeded. The module of the radio base station generates second position information representing the installation position of the own station based on the orbit information received from the satellite position coordinate system,
The communication unit transmits the second position information to the first server,
The location management unit of the first server creates or updates information representing an installation location of the radio base station in the storage unit based on the received second location information. The radio base station system according to item. The first time information representing the current approximate time from the third server, the first position information representing the installation position of the radio base station received from the first server, the assist data received from the second server A communication unit that receives
Based on the assist data received from the second server, orbit information from a satellite position coordinate system is received, the received orbit information, the first position information received from the first server, and the first And a module that generates second time information representing time with higher accuracy than the first time information using the first time information received from the third server. A first server transmitting first position information representing an installation position of the radio base station to the radio base station;
A step in which the second server transmits orbit information received from the satellite position coordinate system to the radio base station as assist data;
A third server transmitting first time information representing the current approximate time to the radio base station;
The radio base station receives orbit information from a satellite position coordinate system based on the assist data received from the second server, and receives the orbit information received from the first server and the first information received from the first server. Using the position information and the first time information received from the third server to generate second time information representing a time with higher accuracy than the first time information. Time acquisition method.

Images