JP2006250809A - Time of day error information providing system, terminal device, control method of terminal device, control program of terminal device, and record medium which recorded the control program of terminal device and in which computer reading is possible - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a time of day error information providing system and the like, reducing the load of allotting locations for arranging the device for measuring the time of day error and informing and economical load, constituting a flexible system in communication base stations, and providing time of day error information for correcting the time error of a plurality of base stations. <P>SOLUTION: The terminal device 40 has a transmission time of day error information producing means and the like for showing the error of the transmission time on the basis of reception time information and estimated reception time information. At least one of a transmission time error information transmission means for transmitting transmission time information to the communication base stations 15A, etc. or the central base station 60 and a plurality of communication base stations 15A. etc. has a communication base station side transmission time error information containing means for containing the transmission time error information. The central memory device 60 has a central memory device side transmission time error information containing means for containing the transmission time error information. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a time error information providing system for providing time error information of a communication base station, a terminal device, a control method for the terminal device, a control program for the terminal device, and a computer-readable recording medium recording the control program for the terminal device. Is.

Conventionally, for example, a positioning system that measures the position of a mobile station based on signals from a plurality of base stations in a so-called digital mobile communication system of a CDMA (Code Division Multiple Access) system has been proposed (for example, Patent Document 1). ).
In such a positioning system, if the time error between the time of each base station and the reference time is known, for example, the time required for the measurement signal to reach the mobile station from each base station (hereinafter referred to as the time) , Referred to as propagation time), and positioning can be performed using the propagation time.
JP-A-7-181242

  However, in order to measure the time error of each base station, for example, if one time error measuring device is required for one base station, the time error of each base station existing many in the country There is a problem that it is necessary to arrange a device for measurement, and there is a large burden and economical burden of securing a place for measuring and notifying time errors.

  Therefore, the present invention reduces the burden of securing a place where a device for measuring and notifying the time error and the economical burden are reduced, and enables a flexible system configuration in a communication base station, while allowing a plurality of communication Time error information providing system capable of providing time error information for correcting time error of base station, terminal device, control method of terminal device, control program of terminal device, computer reading recorded control program of terminal device An object is to provide a possible recording medium.

  According to the first aspect of the present invention, the object is to communicate with a terminal device that receives a satellite signal that is a signal from a positioning satellite, a plurality of communication base stations that can communicate with the terminal device, and the communication base station. A non-synchronized time error information providing system between communication base stations having a central storage device, wherein the terminal device stores distance information indicating distance to the communication base station capable of communication; Satellite time synchronization means for maintaining synchronization with the time of the positioning satellite based on the satellite signals from the plurality of positioning satellites, and transmission times from the plurality of communication base stations simultaneously or sequentially From the transmission radio wave receiving means for receiving the transmission radio wave carrying the transmission information, the reception time information generating means for generating reception time information indicating the reception time of the transmission radio wave, and the distance information storage means, the communication base station Based on the communication base station distance acquisition means for acquiring the distance, the transmission time included in the transmission information, and the distance to the communication base station, the estimated reception time information indicating the estimated reception time of the transmission radio wave is generated. Estimated reception time information generating means, transmission time error information generating means for generating transmission time error information indicating an error in the transmission time based on the reception time information and the estimated reception time information, and the transmission time error Transmission time error information transmitting means for transmitting information to the communication base station or the central base station, and at least one of the plurality of communication base stations stores the transmission time error information A communication base station side transmission time error information storage means, wherein the central storage device has a central storage device side transmission time error information storage means for storing the transmission time error information; Is achieved by the communication between base stations asynchronous time difference information providing system that.

According to the configuration of the first invention, the communication base station can generate the transmission information including the transmission time by the transmission information generating means, and the transmission information transmitting means can place the transmission information. The transmission radio wave can be transmitted to the terminal device. Since the transmission information is carried on the transmission radio wave, the time when the transmission information reaches the terminal device is equal to the time when the transmission radio wave reaches the terminal device.
On the other hand, the terminal device can maintain synchronization with the time of the positioning satellite by the satellite time synchronization means. The time of the positioning satellite is set as a reference time in the time error information providing system. The time error means a difference from the time of the positioning satellite.
Then, the reception time information generating means can generate reception time information indicating the reception time of the transmission radio wave. Since the terminal device can maintain a state synchronized with the time of the positioning satellite, the reception time is the time of the positioning satellite.

In addition, the terminal device may receive the estimated reception time indicating the estimated reception time of the transmission radio wave based on the transmission time included in the transmission information and the distance from the communication base station by the estimated reception time information generation unit. Time information can be generated. If the distance to the communication base station is known, the propagation speed of the transmission radio wave is equal to the speed of light, so the time required for the transmission radio wave to reach the terminal device from the communication base station is accurately calculated. can do.
Further, the terminal device can generate transmission time error information indicating an error in the transmission time based on the reception time information and the estimated reception time information by the transmission time error information generation unit.
As described above, the terminal device is accurate because the reception time can be the time of the positioning satellite. In addition, the time required for a signal to reach the terminal device from the communication base station can be accurately calculated. Therefore, the difference between the time indicated in the reception time information and the time indicated in the estimated reception time information is an error in the transmission time.

  Here, since the terminal apparatus receives the transmission information from the plurality of communication base stations simultaneously or sequentially by the transmission radio wave receiving means, the above configuration is used for the plurality of communication base stations. The transmission time error information can be generated.

As described above, at least one of the plurality of communication base stations has communication base station side transmission time error information storage means for storing the transmission time error information. Therefore, among the plurality of communication base stations, there may be the communication base station that does not include the communication base station side transmission time error information storage means.
In this regard, since the terminal apparatus has the transmission time error information transmission means, the transmission time error information of the communication base station having the communication base station side transmission time error information storage means is transmitted to the communication base station. The transmission time error information of the communication base station that does not have the communication base station side transmission time error information storage means can be transmitted to the central storage device. That is, whether or not the communication base station has the communication base station side transmission time error information storage means, the communication base station transmits the transmission time error information of the communication base station. Since any one of the central storage devices can be stored, a flexible system configuration in the communication base station is possible.

And, for example, an external device may use the transmission time error information to correct transmission times carried on communication radio waves from the plurality of communication base stations and perform positioning based on the communication radio waves. it can.
This reduces the burden of securing the location where the device for measuring and notifying the time error and the economic burden are reduced, and enables a flexible system configuration in the communication base station, while the time error of multiple communication base stations. Information for correcting the error can be provided.

  According to the second invention, the object is a terminal device that receives a satellite signal that is a signal from a positioning satellite, and stores distance information that indicates distances to a plurality of communicable base stations. Based on the satellite signals from a plurality of positioning satellites, storage means, satellite time synchronization means for maintaining synchronization with the time of the positioning satellites, and a plurality of the communication base stations, simultaneously or sequentially, From transmission radio wave reception means for receiving transmission radio waves carrying transmission information including transmission time, reception time information generation means for generating reception time information indicating reception time of the transmission radio waves, and distance information storage means, Estimated reception indicating the estimated reception time of the transmission radio wave based on the communication base station distance acquisition means for acquiring the distance to the communication base station, the transmission time included in the transmission information, and the distance to the communication base station Estimated reception time information generating means for generating time information, transmission time error information generating means for generating transmission time error information indicating an error in the transmission time based on the reception time information and the estimated reception time information, Communication base station side transmission time error information storage means presence determination means for determining whether the communication base station has a communication base station side transmission time error information storage means for storing the transmission time error information; and Based on the determination result of the communication base station side transmission time error information storage means presence / absence determination means, the transmission time error information is transmitted to the communication base station or a central storage device capable of communicating with the plurality of communication base stations. And a transmission time error information transmission means for accomplishing this.

  According to the configuration of the second invention, similarly to the configuration of the first invention, the burden of securing the place where the device for measuring and notifying the time error and the economical burden are placed can be reduced. Information for correcting time errors of a plurality of communication base stations can be provided while enabling a flexible system configuration.

  According to a third aspect of the present invention, there is provided a terminal device for receiving a satellite signal that is a signal from a positioning satellite, wherein the current position indicates a current position based on the satellite signals from a plurality of the positioning satellites. A plurality of communicable communications; a current position information generating means for generating information; and a satellite time synchronizing means for maintaining synchronization with the time of the positioning satellite based on the satellite signals from the plurality of positioning satellites. From a base station, simultaneously or sequentially, a transmission radio wave receiving means for receiving a transmission radio wave carrying transmission information including a transmission time and the position of the communication base station, and reception time information indicating the reception time of the transmission radio wave are generated. Receiving time information generating means; distance information generating means for generating distance information indicating a distance between the terminal device and the communication base station based on the current position and the position of the communication base station; and Estimated reception time information generating means for generating estimated reception time information indicating an estimated reception time of the transmission information based on the transmission time and a distance from the communication base station, the reception time information and the estimated reception Transmission time error information generating means for generating transmission time error information indicating an error in the transmission time based on the time information, and a communication base station side transmission time error in which the communication base station stores the transmission time error information. Based on the determination results of the communication base station side transmission time error information storage means presence / absence determination means for determining whether or not the information storage means has, and the communication base station side transmission time error information storage means presence / absence determination means, Transmission time error information transmitting means for transmitting transmission time error information to the communication base station or a central storage device capable of communicating with the plurality of communication base stations. It is achieved by the terminal device.

According to the structure of 3rd invention, the said terminal device can produce | generate the distance information which shows the distance with the said communication base station by the said distance information generation means.
For this reason, for example, the terminal device can generate the transmission time error information for a plurality of the communication base stations at the point P1 by moving from the point P1 to the point P2, and a plurality of points at the point P2. The transmission time error information for the communication base station can also be generated.
That is, even if there is only one terminal device, it is possible to generate the transmission time error information for more communication base stations by moving.
As a result, it is possible to further reduce the burden and economical burden of securing a place where the device for measuring and notifying the time error is provided, and to enable a flexible system configuration of the communication base station, Information for correcting the error can be provided.

  According to a fourth aspect of the invention, in the configuration of the second aspect or the third aspect of the invention, the transmission radio wave on which a plurality of the transmission time error information and the transmission information based on the transmission time error information are placed. A time error change rate information generating means for generating time error change rate information indicating a change rate of the error of the transmission time based on the reception time information, and the communication base station transmits the transmission time error change rate information. A communication base station side transmission time error change rate information storage means for determining whether or not the communication base station side transmission time error change rate information storage means is stored; Transmission time error change rate information for transmitting the transmission time information to the communication base station or a central storage device capable of communicating with the plurality of communication base stations based on the determination result of the rate information storage means presence / absence determination means Sending A terminal device, characterized in that it comprises a means.

According to the configuration of the fourth invention, the terminal device can generate the time error change rate information by the time error change rate information generating means. Then, the time error change rate information transmitting means can transmit the time error change rate information to the communication base station or the central storage device.
And an external apparatus can correct | amend the error of the time of the said communication base station by using the said time error change rate information, even when it is a case where the said transmission time error information cannot be received.

  According to the fifth aspect, the object is to receive distance information storage means for storing distance information indicating distances to a plurality of communicable communication base stations and satellite signals that are signals from a plurality of positioning satellites. And a satellite time synchronization means for maintaining synchronization with the time of the positioning satellite, the terminal device having the transmission information including the transmission time from the plurality of communication base stations simultaneously or sequentially A transmission radio wave reception step of receiving radio waves, a reception time information generation step in which the terminal device generates reception time information indicating a reception time of the transmission radio waves, and the terminal device from the distance information storage means to the communication A communication base station distance acquisition step of acquiring a distance from the base station; and the terminal device receiving the estimated transmission radio wave based on the transmission time included in the transmission information and the distance from the communication base station. An estimated reception time information generating step for generating estimated reception time information indicating a time, and transmission time error information indicating an error in the transmission time based on the reception time information and the estimated reception time information. A transmission time error information generating step for generating, and a communication base station side transmission time for determining whether or not the communication base station has a communication base station side transmission time error information storage means for storing the transmission time error information Error information storage means presence / absence determination step, and the terminal device determines the transmission time information based on the determination result in the communication base station side transmission time error information storage means presence / absence determination step. A transmission time error information transmission step for transmitting to a central storage device capable of communicating with a communication base station. It is achieved.

  According to the configuration of the fifth invention, similarly to the configuration of the second invention, the burden of securing the place where the device for measuring and notifying the time error and the financial burden are reduced can be reduced. Information for correcting time errors of a plurality of communication base stations can be provided while enabling a flexible system configuration.

  According to the sixth aspect of the present invention, there is provided a distance information storage means for storing distance information indicating distances to a plurality of communicable base stations in a computer and a satellite signal which is a signal from a plurality of positioning satellites. And a satellite time synchronization means for maintaining the synchronization with the time of the positioning satellite, the terminal device having the transmission information including the transmission time from the plurality of communication base stations simultaneously or sequentially A transmission radio wave reception step of receiving the transmitted radio wave, a reception time information generation step in which the terminal device generates reception time information indicating a reception time of the transmission radio wave, and the terminal device from the distance information storage means A communication base station distance acquisition step of acquiring a distance from the communication base station, and the terminal device based on the transmission time included in the transmission information and the distance from the communication base station. An estimated reception time information generating step for generating estimated reception time information indicating an estimated reception time of radio waves, and a transmission in which the terminal device indicates an error in the transmission time based on the reception time information and the estimated reception time information. A transmission time error information generating step for generating time error information, and a communication base for determining whether or not the communication base station has a communication base station side transmission time error information storage means for storing the transmission time error information Based on the determination result in the station side transmission time error information storage means presence / absence determination step and the terminal device in the communication base station side transmission time error information storage means presence / absence determination step, the transmission time information is transmitted to the communication base station, or A transmission time error information transmission step for transmitting to a central storage device capable of communicating with a plurality of the communication base stations. It is achieved by location of the control program.

  According to the seventh aspect of the present invention, there is provided a distance information storage means for storing distance information indicating distances to a plurality of communicable base stations, a satellite signal which is a signal from a plurality of positioning satellites. And a satellite time synchronization means for maintaining the synchronization with the time of the positioning satellite, the terminal device having the transmission information including the transmission time from the plurality of communication base stations simultaneously or sequentially A transmission radio wave reception step of receiving the transmitted radio wave, a reception time information generation step in which the terminal device generates reception time information indicating a reception time of the transmission radio wave, and the terminal device from the distance information storage means A communication base station distance acquisition step of acquiring a distance from the communication base station, and the terminal device based on the transmission time included in the transmission information and the distance from the communication base station. An estimated reception time information generating step for generating estimated reception time information indicating an estimated reception time of radio waves, and a transmission in which the terminal device indicates an error in the transmission time based on the reception time information and the estimated reception time information. A transmission time error information generating step for generating time error information, and a communication base for determining whether or not the communication base station has a communication base station side transmission time error information storage means for storing the transmission time error information Based on the determination result in the station side transmission time error information storage means presence / absence determination step and the terminal device in the communication base station side transmission time error information storage means presence / absence determination step, the transmission time information is transmitted to the communication base station, or A transmission time error information transmission step for transmitting to a central storage device capable of communicating with a plurality of the communication base stations. It is accomplished by a computer-readable recording medium a control program of the location.

Preferred embodiments of the present invention will be described below in detail with reference to the accompanying drawings.
The embodiment described below is a preferred specific example of the present invention, and thus various technically preferable limitations are given. However, the scope of the present invention is particularly limited in the following description. Unless otherwise stated, the present invention is not limited to these embodiments.

(First embodiment)
FIG. 1 is a schematic diagram showing a time error information providing system 10 and the like according to the first embodiment of this invention.
As shown in FIG. 1, the time error information providing system 10 includes a GPS base station 40. The GPS base station 40 receives, for example, signals S1, S2, S3, and S4 that are satellite signals from positioning satellites such as GPS satellites 12a, 12b, 12c, and 12d by the GPS antenna 54A. The GPS base station 40 is an example of a terminal device.
The GPS base station 40 has a communication antenna 52A, and can communicate with a plurality of communication base stations 15A described later.

The time error information providing system 10 also includes communication base stations 15A, 15B and 15C. The communication base station 15A has a communication antenna 30A and can communicate with the GPS base station 40 located in the communication area A of the communication base station 15A. The communication base station 15B has a communication antenna 30B, and can communicate with the GPS base station 40 located in the communication area B of the communication base station 15B. Further, the communication base station 15C has a communication antenna 30C and can communicate with the GPS base station 40 located in the communication area C of the communication base station 15C.
That is, the GPS base station 40 is located in the overlapping range of the communication areas A, B, and C. The communication base station 15A or the like is an example of a communication base station, for example, a communication base station of a mobile phone.
The time is not synchronized between the communication base stations 15A and the like. That is, the time error information providing system 10 is a communication base station time asynchronous system in which the time is not synchronized between the communication base stations 15A and the like.
At least one of the communication base stations 15A and the like has a base station side time information database 153. For example, as shown in FIG. 1, the communication base station 15A has a base station side time information database 153, but the communication base stations 15B and 15C do not have a base station side time information database 153.

  The time error information providing system 10 also includes a central radio base station 60 that can communicate with the communication base station 15A and the like. The central radio base station 60 has a central time information database 352. The central radio base station 60 is an example of a central storage device.

Unlike the present embodiment, the number of GPS satellites 12a and the like is not limited to four, but may be, for example, five or more.
Further, the communication base station 15A and the like need only be plural, unlike the present embodiment, may be two, or four or more.

(Main hardware configuration of communication base station 15A)
FIG. 2 is a schematic diagram showing a main hardware configuration of the communication base station 15A.
Note that the main hardware configuration of the communication base stations 15B and 15C is the same as that of the communication base station 15A, and a description thereof will be omitted.

As shown in FIG. 2, the communication base station 15 </ b> A has a computer, and the computer has a bus 20.
A CPU (Central Processing Unit) 22, a storage device 24, and the like are connected to the bus 20. The storage device 24 is, for example, a RAM (Random Access Memory), a ROM (Read Only Memory), or the like.

An external storage device 26 is connected to the bus 20. The external storage device 26 is, for example, an HD (Hard Disk).
The bus 20 includes an input device 28 for inputting various information, a communication device 30, a display device 32 for displaying various information, and a communication base station clock 34 for measuring the time of the communication base station 15A. It is connected.

(Main hardware configuration of the GPS base station 40)
FIG. 3 is a schematic diagram showing a main hardware configuration of the GPS base station 40.
As shown in FIG. 3, the GPS base station 40 has a computer, and the computer has a bus 42.
A CPU 44, a storage device 46, an external storage device 48, an input device 50, and the like are connected to the bus 42.
In addition, a communication device 52, a GPS device 54, a display device 56, and a GPS base station clock 58 that measures the time of the GPS base station 40 are connected to the bus 20. As will be described later, the GPS base station clock 58 is synchronized with the time of the GPS satellites 12a and the like (see FIG. 1) (hereinafter referred to as GPS time). This GPS time is a reference time in the time error information providing system 10. The difference from this GPS time is called a time error.

(Main hardware configuration of the central radio base station 60)
FIG. 4 is a schematic diagram showing the main hardware configuration of the central radio base station 60.
As shown in FIG. 4, the central radio base station 60 has a computer, and the computer has a bus 62.
A CPU 64, a storage device 66, an external storage device 68, an input device 70, a communication device 72, and a display device 74 are connected to the bus 62.

(Main software configuration of communication base station 15A)
FIG. 5 is a schematic diagram showing a main software configuration of the communication base station 15A.
As shown in FIG. 5, the communication base station 15A includes a communication base station control unit 100 for controlling each unit, a communication unit 102 corresponding to the communication device 30 in FIG. 2, and a time measuring unit corresponding to the communication base station clock 34 in FIG. 104, a communication base station first storage unit 110 for storing various programs, and a communication base station second storage unit 150 for storing various information.

The timer unit 104 measures the time of the communication base station 15A. That is, the time measuring unit 104 is an example of a base station time measuring unit.
The communication base station 15 </ b> A stores a transmission information generation program 112 in the communication base station first storage unit 110. The transmission information generation program 112 is a program for generating the transmission information 152 including the transmission time tBS that the communication base station control unit 100 transmits to the GPS base station 40 (see FIG. 1) by the time measuring unit 104. The transmission time tBS is an example of transmission time, and the transmission information 152 is an example of transmission information.

As shown in FIG. 5, the transmission information 152 includes an identification number for identifying the communication base station 15A from the other communication base station 15B and the like together with the transmission time tBS.
The communication base station control unit 100 stores the generated transmission information 152 in the communication base station second storage unit 150.

As illustrated in FIG. 5, the communication base station 15 </ b> A stores a transmission information transmission program 114 in the communication base station first storage unit 110. The transmission information transmission program 114 is a program for the communication base station control unit 100 to transmit the transmission information 152 to the GPS base station 40 by the communication unit 102 on the transmission radio wave.
The communication base station control unit 100 can transmit the transmission information 152 to the GPS base station 40 by the transmission information transmission program 114.
The communication base station 15 </ b> A can receive time error information 262 and time error change rate information 266 (see FIG. 7), which will be described later, generated by the GPS base station 40 by the communication unit 102. The communication base station control unit 100 uses the received time error information 262 as the time error information 154, the time error change rate information 266 as the time error change rate information 156, and the base station side time information in the communication base station second storage unit 150. Store in the database 153. This base station side time information database 153 is an example of a communication base station side transmission time error information storage means.

(Main software configurations of communication base stations 15B and 15C)
FIG. 6 is a schematic diagram showing a main software configuration of the communication base stations 15B and 15C.
Unlike the main software configuration of the communication base station 15A, the main software configuration of the communication base stations 15B and 15C does not have the base station side time information database 153 (see FIG. 5).

(Main software configuration of the GPS base station 40)
FIG. 7 is a schematic diagram showing a main software configuration of the GPS base station 40.
7, the GPS base station 40 includes a control unit 200 that controls each unit, a communication unit 202 that corresponds to the communication device 52 in FIG. 3, a GPS unit 204 that corresponds to the GPS device 54 in FIG. 3, and a GPS in FIG. A GPS timing unit 206 corresponding to the base station clock 58 is included.
The GPS base station 40 also includes a first storage unit 210 that stores various programs and a second storage unit 250 that stores various types of information.

  As shown in FIG. 7, the GPS base station 40 stores communication base station distance information 252 in the second storage unit 250. The communication base station distance information 252 is information indicating distances L1, L2, and L3 with the communication base stations 15A, 15B, and 15C with which the GPS base station 40 can communicate. That is, the communication base station distance information 252 is an example of distance information, and the second storage unit 250 is an example of a distance information storage unit.

As shown in FIG. 7, the GPS base station 40 stores a GPS time synchronization program 216 in the first storage unit 210. The GPS time synchronization program 216 is a program for the control unit 200 to maintain synchronization with GPS time based on signals S1 and the like from a plurality of GPS satellites 12a and the like (see FIG. 1). That is, the GPS time synchronization program 216 and the control unit 200 are examples of satellite time synchronization means.
Specifically, based on the GPS time synchronization program 216, the control unit 200 receives signals S1 and the like from four or more GPS satellites 12a and the like by the GPS unit 204, and measures the position of the GPS base station 40. The time error of the time measuring unit 206 is calculated. Then, the control unit 200 corrects the time of the GPS timing unit 206 based on the calculated time error of the GPS timing unit 206. That is, the control unit 200 synchronizes the time of the GPS timekeeping unit 206 with the GPS time based on the time error of the GPS timekeeping unit 206.

  The control unit 200 continuously synchronizes with the GPS time of the GPS timer unit 206 based on the GPS time synchronization program 216, and the time of the GPS timer unit 206 maintains a state synchronized with the GPS time. .

The GPS base station 40 can receive transmission radio waves carrying the transmission information 152 (see FIGS. 5 and 6) simultaneously or sequentially from the plurality of communication base stations 15 </ b> A and the like by the communication unit 202. That is, the communication unit 202 is an example of a transmission radio wave receiving unit. Since transmission information 152 is carried on a transmission radio wave, reception of transmission information 152 and reception of transmission radio wave are used synonymously.
The control unit 200 stores the transmission information 152 received by the communication unit 202 in the second storage unit 250 as reception information 254.

  As shown in FIG. 7, the GPS base station 40 stores a reception GPS time information generation program 218 in the first storage unit 210. The reception GPS time information generation program 218 is a program for the control unit 200 to generate reception GPS time information 256 indicating the reception time of the transmission information 152 by the GPS timing unit 206. Reception GPS time information 256 is an example of reception time information, and reception GPS time information generation program 218, control unit 200, and GPS timing unit 206 are examples of reception time information generation means.

Specifically, based on the reception GPS time information generation program 218, the control unit 200 generates reception GPS time information 256 indicating reception GPS time toa1, which is the reception time of the transmission information 152, by the GPS timing unit 206.
As described above, since the GPS timer 206 is synchronized with the GPS time, the reception GPS time toa1 is the GPS time.

As shown in FIG. 7, the GPS base station 40 stores a specific base station distance information acquisition program 220 in the first storage unit 210. The specific base station distance information acquisition program 220 is a program for the control unit 200 to acquire the distance L from the second storage unit 250. That is, the specific base station distance information acquisition program 220 and the control unit 200 are examples of communication base station distance acquisition means.
Specifically, based on the specific base station distance information acquisition program 220, the control unit 200 acquires, for example, the distance L1 from the communication base station 15A corresponding to the identification number included in the reception information 254, and the specific base station distance The information 258 is stored in the second storage unit 250.

As shown in FIG. 7, the GPS base station 40 stores an estimated reception time information generation program 222 in the first storage unit 210. The estimated reception time information generation program 222 is configured so that the control unit 200 uses the transmission time tBS included in the reception information 254 and the distance L to calculate the estimated reception time that is a calculation reception time of the transmission information 152 (see FIG. 5). This is a program for generating estimated reception time information 260 indicating etoa. The estimated reception time etoa is an example of the estimated reception time, and the estimated reception time information 260 is an example of the estimated reception time information. The estimated reception time information generation program 222 and the control unit 200 are examples of estimated reception time information generation means.
A transmission radio wave carrying transmission information 152 from each communication base station 15A or the like propagates at the speed of light. Therefore, the control unit 200, for example, based on the estimated reception time information generation program 222, for example, the propagation speed of the transmission radio wave carrying the distance L1 with the base station 15A and the transmission information 152 (light speed: 300,000 kilometers per second (km / s)) ), The propagation time td for the transmission information 152 to reach the GPS base station 40 from the communication base station 15A can be calculated.
Then, the control unit 200 calculates the estimated reception time etoa based on the known time tBS when the transmission information 152 is transmitted from the communication base station 15A and the propagation time td. That is, there is a relationship of etoa = tBS + td.
The control unit 200 stores the generated estimated reception time information 260 in the second storage unit 250.
As described above, etoa = tBS + td. Among these, the propagation time td is an accurate value derived from the distance L1 and the speed of light. However, since the transmission time tBS is not synchronized with the GPS time, it may include a time error. For this reason, the time error between the estimated reception time etoa and the GPS time is a time error of the transmission time tBS.

As shown in FIG. 7, the GPS base station 40 stores a time error information generation program 224 in the first storage unit 210. The time error information generation program 224 is a program for the control unit 200 to generate time error information 262 indicating the time error tl1 of the transmission time tBS based on the reception GPS time information 256 and the estimated reception time information 260. That is, the time error information generation program 224 and the control unit 200 are examples of transmission time error information generation means.
As described above, the reception GPS time toa1 indicated in the reception GPS time information 256 does not include a time error from the GPS time. On the other hand, the estimated reception time etoa indicated in the estimated reception time information 260 includes a time error with respect to the GPS time because it includes a time error of the transmission time tBS.
Therefore, the control unit 200 calculates the time error tl1 of the transmission time tBS by, for example, calculating the difference between the estimated reception time etoa and the reception GPS time toa1 based on the time error information generation program 224.
The control unit 200 stores the generated time error information 262 in the terminal second storage unit 250.

  As shown in FIG. 5, the GPS base station 40 stores base station information 268 in the second storage unit 250. The base station information 268 is information indicating whether each communication base station 15A or the like has a base station side time information database 153 (see FIG. 5). In this embodiment, since only the communication base station 15A has the base station side time information database 153, the base station information 268 has the communication base station 15A has the base station side time information database 153, and the communication base station 15B. And 15C indicate that the base station side time information database 153 is not provided.

As shown in FIG. 5, the GPS base station 40 stores a base station database presence / absence determination program 226 in the first storage 210. The base station database presence / absence determination program 226 is a program for the control unit 200 to determine whether or not the connected communication base station 15A has the base station side time information database 153 (see FIG. 5). That is, the base station database presence / absence determination program 226 and the control unit 200 are examples of communication base station side transmission time error information storage means presence / absence determination means.
Specifically, the control unit 200 refers to the base station information 268, and each communication base station 15A or the like that has received the transmission information 152 (see FIGS. 4 and 5) receives the base station side time information database 153 (see FIG. 5). See).

As shown in FIG. 7, the GPS base station 40 stores a time error information transmission program 228 in the first storage unit 210. The time error information transmission program 228 is a program for the control unit 200 to transmit the time error information 262 to the communication base station 15A or the like or the central radio base station 60 by the communication unit 202. That is, the time error information transmission program 228, the control unit 200, and the communication unit 202 are an example of a transmission time error information transmission unit.
Thereby, the GPS base station 40 transmits the time error information 262 to the communication base station 15A or the like when the communication base station 15A or the like has the base station side time information database 153. If the station-side time information database 153 is not provided, it can be transmitted to the central radio base station 60.
In the present embodiment, the GPS base station 40 transmits the time error information 262 of the communication base station 15A to the communication base station 15A. Then, the GPS base station 40 transmits the time error information 262 of the communication base stations 15B and 15C to the central radio base station 60.

With the above-described configuration, each communication base station 15A and the like can transmit transmission information 152 (see FIG. 5) including the transmission time tBS to the GPS base station 40.
On the other hand, the GPS base station 40 is synchronized with the GPS time, and can generate reception GPS time information 256 (see FIG. 7) indicating the reception time of the transmission information 152. The reception GPS time toa1 indicated in the reception GPS time information 256 does not include an error from the GPS time.

The GPS base station 40 can generate estimated reception time information 260.
Further, the GPS base station 40 can generate the time error information 262 based on the reception GPS time information 256 and the estimated reception time information 260. As described above, the time error information 262 indicates the time error of the transmission time tBS.

Further, the GPS base station 40 can store the time error information 262 in the terminal second storage unit 250 and transmit it to the communication base station 15A or the like or the central radio base station 60.
Further, since the GPS base station 40 receives the transmission information 152 simultaneously or sequentially from the plurality of communication base stations 15A and the like, the time error information 262 for the plurality of communication base stations 15A and the like is generated by the above-described configuration. can do.
For this reason, even if there is one GPS base station 40, time error information 262 for a plurality of communication base stations 15A and the like can be generated.

The GPS base station 40 can transmit the time error information 262 of the communication base station 15A to the communication base station 15A, and can transmit the time error information 262 of the communication base stations 15B and 15C to the central radio base station 60.
For this reason, an external positioning terminal (not shown) receives the time error information 154 from the communication base station 15A or the like, and transmits transmission time information (not shown) that is put on communication radio waves from the three or more communication base stations 15A or the like. ) Can be corrected with the time error information 154 to obtain an accurate transmission time. Since the communication base station 15A has the base station side time information database 153, it can immediately transmit the time error information 154 (see FIG. 5) in response to a request from the positioning terminal. The stations 15B and 15C acquire the time error information 354 (see FIG. 8) from the central radio base station 60 and then transmit the time error information 354 to the positioning terminal.

The positioning terminal then determines the distance between the positioning terminal and each communication base station 15A (hereinafter referred to as a pseudo distance) from the reception time of communication radio waves from the plurality of communication base stations 15A and the corrected transmission time. Can be generated. Then, the positioning terminal can measure the position of the positioning terminal based on the pseudo distance and the coordinates indicating the position of each communication base station 15A or the like.
As described above, according to the time error information providing system 10, it is possible to reduce a burden of securing a place where a device for measuring and notifying a time error and an economical burden are reduced, and flexible in the communication base station 15A and the like. It is possible to provide information for correcting the time error of the communication base station 15A that is asynchronous between a plurality of communication base stations, while enabling a simple system configuration.

  Further, as shown in FIG. 7, the GPS base station 40 stores a time error change rate information generation program 230 in the first storage unit 210. The time error change rate information generation program 230 allows the control unit 200 to transmit a transmission time based on a plurality of time error information 262 and the reception GPS time information 256 of the transmission information 152 based on the time error information 262 and the like. This is a program for generating time error change rate information 266 indicating the change rate of the time error of tBS. That is, the time error change rate information generation program 230 and the control unit 200 are examples of time error change rate information generation means.

Based on the time error change rate information generation program 230, the control unit 200 generates the second time error information 264 at a time interval from the reception GPS time toa1 corresponding to the time error information 262. For example, the time error tl1 indicated in the time error information 262 and its reception GPS time toa1 and the time error tl2 indicated in the second time error information 264 and its reception GPS time toa2 (not shown) A time error change rate tc which is a change rate of the time error is calculated.
The control unit 200 stores the generated time error change rate information 266 in the second storage unit 250.
That is, the second storage unit 250 is also an example of a time error change rate information storage unit.

  As shown in FIG. 7, the GPS base station 40 stores a time error change rate information transmission program 232 in the first storage unit 210. The time error change rate information transmission program 232 is a program for the control unit 200 to transmit the time error change rate information 266 to the communication base station 15A or the like or the central radio base station 60 by the communication unit 202. The time error change rate information transmission program 230, the control unit 200, and the communication unit 202 are an example of a transmission time error change rate information transmission unit.

Specifically, based on the determination result of the above-mentioned base station database presence / absence determination program 226, the control unit 200 determines the communication base station 15A of the communication base station 15A having the base station side time information database 153. The time error change rate information 266 is transmitted. On the other hand, the control unit 200 transmits the time error change rate information 266 of the communication base stations 15B and 15C that do not have the base station side time information database 153 to the central radio base station 60. The above-described base station database presence / absence determination program 226 and control unit 200 are also examples of communication base station side transmission time error change rate information storage means presence / absence determination means.
Thereby, the GPS base station 40 can transmit the time error change rate information 266 to the communication base station 15A or the central radio base station 60.

With the above configuration, the GPS base station 40 can generate the time error change rate information 266 and can transmit the time error change rate information 266.
For example, an external positioning terminal (not shown) receives the time error change rate information 156 (see FIG. 5) of the communication base station 15A from the communication base station 15A and knows the change rate of the time error of the communication base station 15A. be able to. Further, the positioning terminal (not shown) receives the time error change rate information 356 (see FIG. 8) of the communication base stations 15B and 15C stored in the central radio base station 60 from the communication base stations 15B and 15C, respectively. Thus, the rate of change of the time error of the communication base stations 15B and 15C can be known. The rate of change of the time error shown in the time error change rate information 156 (or 356) is that of the communication base station clock 34 (see FIG. 2). The reference frequency is generated, for example, reflecting a change in frequency (hereinafter referred to as drift) due to a temperature change of a crystal oscillator (not shown). It is known that this drift does not change abruptly as a characteristic of crystal, and once generated time error change rate information 156 (or 356) is valid for a certain period.
Therefore, the positioning terminal can continue the time correction based on the rate of change of the time error.
That is, the communication base station 15A, which receives the time error change rate information 266 (see FIG. 7) from the GPS base station 40 and stores it as the time error change rate information 156 (see FIG. 5), Even in a period when the time error information 154 of the station 15A is not received, the time error change rate information 156 for continuing the correction of the time error of the communication base station 15A can be provided. Further, the communication base stations 15B and 15C can acquire the time error change rate information 356 of the communication base stations 15B and 15C from the central radio base station 60, respectively, and provide the time error change rate information 356 to the positioning terminal. it can.

(Main software configuration of central radio base station 60)
FIG. 8 is a schematic diagram showing a main software configuration of the central radio base station 60.
As shown in FIG. 8, the central radio base station 60 includes a central radio base station control unit 300 that controls each unit, a communication unit 302 corresponding to the communication device 72 in FIG. 4, and a central radio base station first memory that stores various programs. Unit 310 and central radio base station second storage unit 350 for storing various types of information.
As shown in FIG. 8, the central radio base station 60 has a central time information database 352 in the central radio base station second storage unit 350, and the time error information 262 received from the GPS base station 40 (FIG. 8). 7) is stored as time error information 354, and time error change rate information 266 (see FIG. 7) is stored as time error change rate information 356.

The above is the configuration of the time error information providing system 10 according to the present embodiment. Hereinafter, an example of the operation will be described mainly with reference to FIGS. 9, 10, and 11.
FIG. 9, FIG. 10 and FIG. 11 are schematic flowcharts showing an operation example of the time error information providing system 10 according to the present embodiment.

  As shown in FIG. 1, the GPS base station 40 can communicate with the communication base stations 15A, 15B, and 15C, but first receives the transmission information 152 (see FIG. 5) from the communication base station 15A. The following description will be made on the assumption that the transmission information 152 is received sequentially such that the transmission information 152 is received from the communication base station 15B and then the transmission information 152 is received from the communication base station 15C.

  First, the GPS base station 40 receives transmission information 152 (see FIG. 5) from the communication base station 15A (step ST1 in FIG. 9). This step ST1 is an example of a transmission radio wave reception step.

  Subsequently, the GPS base station 40 generates reception GPS time information 256 (see FIG. 7) indicating the reception GPS time toa1 (step ST2). This step ST2 is an example of a reception time information generation step.

  Subsequently, the GPS base station 40 acquires a distance L1 (see FIG. 7) from the communication base station 15A from the second storage unit 250 (step ST3). This step ST3 is an example of a communication base station distance acquisition step.

  Subsequently, the GPS base station 40 generates estimated reception time information 260 (see FIG. 7) indicating the estimated reception time etoa of the transmission information 152 (step ST4). This step ST4 is an example of an estimated reception time information generation step.

  Subsequently, the GPS base station 40 obtains a difference between the reception GPS time toa1 and the estimated reception time etoa, and generates time error information 262 (see FIG. 7) indicating the time error tl1 of the transmission time tBS (step ST5). This step ST5 is an example of a transmission time error information generation step. The GPS base station 40 stores the generated time error information 262 in the second storage unit 250.

Subsequently, the GPS base station 40 determines whether or not the communication base station 15A has the base station side time information database 153 (see FIG. 5) (step ST6). This step ST6 is an example of a communication base station side transmission time error information storage means presence / absence determination step.
The GPS base station 40 determines that the communication base station 15A has the base station side time information database 153 (see FIG. 5), and transmits the time error information 262 to the communication base station 15A (step ST7). This step ST7 is an example of a transmission time error information transmission step.
Unlike the present embodiment, when the communication base station 15A does not have the base station side time information database 153, in step ST6 described above, the GPS base station 40 determines that the communication base station 15A has the base station side time information. The GPS base station 40 determines that it does not have the information database 153, and transmits the time error information 262 to the central radio base station 60 (step ST7A). This step ST7A is also an example of a transmission time error information transmission step.

  Subsequently, the GPS base station 40 determines whether or not the above-described steps ST1 to ST5 are repeated twice (step ST8). If the GPS base station 40 determines in step ST8 that the above-described steps ST1 to ST5 are not repeated twice, the process returns to step ST1.

  On the other hand, in this step ST8, if the GPS base station 40 determines that the above-described steps ST1 to ST5 are repeated twice, the process proceeds to step ST9. When the above-described steps ST1 to ST5 are repeated twice, time error information 262 and second time error information 264 (see FIG. 7) are generated.

In step ST9, the GPS base station 40 generates time error change rate information 266 indicating the time error change rate tc.
The GPS base station 40 stores the generated time error change rate information 266 in the second storage unit 250.

Subsequently, the GPS base station 40 determines whether or not the communication base station 15A has the base station side time information database 153 (see FIG. 5) (step ST10).
The GPS base station 40 determines that the communication base station 15A has the base station side time information database 153 (see FIG. 5), and transmits time error change rate information 266 to the communication base station 15A (step ST11). .
Unlike the present embodiment, when the communication base station 15A does not have the base station side time information database 153, the GPS base station 40 determines that the communication base station 15A has the base station side time in step ST10 described above. The GPS base station 40 determines that it does not have the information database 153, and transmits the time error change rate information 266 to the central radio base station 60 (step ST11A).

Subsequently, the GPS base station 40 sequentially performs the same processing (see FIGS. 10 and 11) as the processing for the communication base station 15A described above for the communication base station 15B and the communication base station 15C.
Unlike the present embodiment, the GPS base station 40 performs processing (see FIG. 10) for the communication base station 15B and communication base station 15C in parallel with the processing (see FIG. 9) of the communication base station 15A. You may make it perform the process (refer FIG. 11).

As described above, the GPS base station 40 generates the time error information 262 and the time error change rate information 266 of the communication base station 15A and the like, and stores them in the second storage unit 250. The GPS base station 40 can provide the time error information 262 and the time error change rate information 266 of the communication base station 15A or the like to the communication base station 15A or the central radio base station 60.
For example, a positioning terminal (not shown) can receive the time error change rate information 156 (or 356) from the communication base station 15A or the like.
As described above, the GPS base station 40 reduces the burden of securing the place where the device for measuring and notifying the time error and the economic burden are reduced, and has a flexible system configuration in the communication base station 15A and the like. While being possible, it is possible to provide information for correcting the time error of the plurality of communication base stations 15A and the like.

(Second Embodiment)
Next, a second embodiment will be described.
The configuration of the time error information providing system 10A (see FIG. 1) according to the second embodiment is the same as that of the time error information providing system 10 according to the first embodiment, and therefore common parts are the same. The description will be omitted, and the description will be focused on the differences.

Unlike the time error information providing system 10 of the first embodiment, the time error information providing system 10A includes a mobile station 40A instead of the GPS base station 40.
The mobile station 40A is, for example, a mobile phone, a PHS (Personal Handy-phone System), a PDA (Personal Digital Assistance _), or the like, but is not limited thereto.

FIG. 12 is a schematic diagram showing transmission information 152A transmitted from the communication base station 15A and the like.
As shown in FIG. 12, the transmission information 152A includes communication base station coordinates Q indicating the position of each communication base station 15A and the like in addition to the identification number of each communication base station 15A and the like and the transmission time tBS. The communication base station coordinate Q is an example of a communication base station position.

FIG. 13 is a schematic diagram showing a main software configuration of the mobile station 40A.
As illustrated in FIG. 13, the mobile station 40A stores transmission information 152A received from the communication base station 15A or the like as reception information 254A in the second storage unit 250.

  As illustrated in FIG. 13, the mobile station 40 </ b> A stores a positioning program 234 in the first storage unit 210. The positioning program 234 is a program for the control unit 200 to generate current position information 270 indicating the current position P1 based on signals S1 and the like from a plurality of GPS satellites 12a and the like. The current position information 270 is an example of current position information. The positioning program 234 and the control unit 200 are examples of current position information generating means.

As illustrated in FIG. 13, the mobile station 40 </ b> A stores a specific base station distance information generation program 236 in the first storage unit 210. The specific base station distance information generation program 236 allows the control unit 200 to, for example, connect the mobile station 40A and the communication base based on the current position P1 indicated in the current position information 270 and the communication base station coordinates Q included in the reception information 254A. This is information for calculating the distance L13 to the station 15C and generating specific base station distance information 258A indicating the distance L13. That is, the specific base station distance information generation program 236 and the control unit 200 are examples of distance information generation means.
As shown in FIG. 13, the mobile station 40A includes a time error information generation program 224, a time error change rate information generation program 230, and the like.

For this reason, the mobile station 40A moves from the point P1 of the current position to the point P2 (not shown), so that the time error information 262 and the time error change rate information about the plurality of communication base stations 15A and the like at the point P1. 266 can be generated, and time error information 262 for a plurality of communication base stations at the point P2 can also be generated.
That is, even if there is one mobile station 40A, it is possible to generate time error information 262 and time error change rate information 266 for more communication base stations by moving.
As a result, it is possible to provide information for correcting the time error of a plurality of communication base stations while further reducing the burden of securing the location where the device for positioning and notification of the time error is arranged and the economic burden. it can.

The above is the configuration of the time error information providing system 10 </ b> A according to the present embodiment. Hereinafter, an example of the operation will be described with reference to FIGS. 14, 15, and 16.
14, 15 and 16 are schematic flowcharts showing an operation example of the time error information providing system 10A according to the present embodiment.

  As shown in FIG. 1, the mobile station 40A can communicate with the communication base stations 15A, 15B, and 15C, but first receives the transmission information 152A (see FIG. 12) from the communication base station 15C, and then performs communication. The following description will be made on the assumption that the transmission information 152A is received sequentially, such as the transmission information 152A is received from the base station 15A and then the transmission information 152A is received from the communication base station 15B.

  First, the mobile station 40A receives transmission information 152A (see FIG. 12) from the communication base station 15C (step ST101 in FIG. 14).

Subsequently, the mobile station 40A generates reception GPS time information 256 (see FIG. 13) indicating the reception GPS time toa1 (step ST102).
Subsequently, the mobile station 40A measures the current position P1 (step ST103).
Subsequently, the mobile station 40A calculates a distance L13 between the current position P1 indicated in the current position information 270 and the communication base station coordinates Q indicated in the reception information 254A (step ST104).

Subsequently, the mobile station 40A generates estimated reception time information 260 (see FIG. 13) indicating the estimated reception time etoa of the transmission information (step ST105).
Subsequently, the mobile station 40A obtains a difference between the reception GPS time toa1 and the estimated reception time etoa, and generates time error information 262 (see FIG. 13) indicating the time error tl1 of the transmission time tBS (step ST106). The mobile station 40A stores the generated time error information 262 in the second storage unit 250.

Subsequently, the mobile station 40A determines whether or not the communication base station 15C has the base station side time information database 153 (step ST107). This step ST107 is an example of a communication base station side transmission time error information storage unit presence / absence determination step.
The GPS base station 40 determines that the communication base station 15C does not have the base station side time information database 153, and transmits time error information 262 to the central radio base station 60 (step ST108). This step ST108 is an example of a transmission time error information transmission step.
Unlike the present embodiment, when communication base station 15C has base station side time information database 153, in step ST107 described above, mobile station 40A has communication base station 15C connected to base station side time information database. 153 and transmit time error information 262 to the communication base station 15C (step ST108A). This step ST108A is also an example of a transmission time error information transmission step.

Subsequently, the mobile station 40A determines whether or not the above-described steps ST101 to ST106 are repeated twice (step ST109). If the mobile station 40A determines in step ST109 that the above-described steps ST101 to ST106 are not repeated twice, the process returns to step ST101.
On the other hand, when the mobile station 40A determines in step ST109 that the above-described steps ST101 to ST106 are repeated twice, the process proceeds to step ST110. When steps ST101 to ST106 described above are repeated twice, time error information 262 and second time error information 264 (see FIG. 13) are generated.

In step ST110, the mobile station 40A generates time error change rate information 266 indicating the time error change rate tc.
The mobile station 40A stores the generated time error change rate information 266 in the second storage unit 250.

Subsequently, the mobile station 40A determines whether or not the communication base station 15C has the base station side time information database 153 (step ST111).
Mobile station 40A determines that communication base station 15C does not have base station side time information database 153, and mobile station 40A transmits time error change rate information 266 to central radio base station 60 (step ST112A). ).
Unlike the present embodiment, when the communication base station 15C has the base station side time information database 153, in step ST111 described above, the mobile station 40A determines that the communication base station 15C is the base station side time information database. 153 and transmit time error change rate information 266 to communication base station 15C (step ST112).

Subsequently, the GPS base station 40 sequentially performs the same processing as the processing for the communication base station 15C described above for the communication base station 15A and the communication base station 15B (see FIGS. 15 and 16).
Unlike the present embodiment, the GPS base station 40 performs processing (see FIG. 15) for the communication base station 15A and communication base station 15B in parallel with the processing (see FIG. 14) of the communication base station 15C. The process (see FIG. 16) may be performed.

As described above, the mobile station 40A continuously generates the time error information 262 and the time error change rate information 266 for the communication base station 15A and the like at the point P1 of the current position, and transmits them to the communication base station 15A and the like. be able to.
Further, the mobile station 40A moves time error information 262 and time error change rate information 266 for a plurality of communication base stations at the point P2 by moving from the point P1 of the current position to another point P2 (not shown). Can be generated and transmitted to their communication base station or central radio base station 60.
For example, an external positioning terminal (not shown) communicates with a plurality of communication base stations 15A and the like at the point P1, and a plurality of time error information 154 (or 354) such as the plurality of communication base stations 15A and the like at the point P1. The current position can be measured based on the communication radio wave of the communication base station 15A and the coordinates indicating the positions of the plurality of communication base stations 15A. Similarly, the positioning terminal can measure the current position at the point P2.

  Unlike the present embodiment, the GPS base station 40A or the like does not transmit the time error information 262 and the time error change rate information 266 to the communication base station 15A or the central radio base station 60, but the time error information 262 and the time The error change rate information 266 may be stored. Then, the positioning terminal (not shown) may receive the time error information 262 and the time error change rate information 266 directly from the GPS base station 40.

(About programs and computer-readable recording media)
A transmission radio wave reception step, a reception time information generation step, a base station distance information acquisition step, a transmission time error information generation step, a communication base station side transmission time error information storage means presence / absence determination step in the above operation example, The terminal device control program for executing the transmission time error information transmission step and the like.
Moreover, it can also be set as the computer-readable recording medium etc. which recorded the control program etc. of such a terminal device.

  A program storage medium used for installing the control program of the terminal device in the computer and making it executable by the computer is, for example, a flexible disk such as a floppy (registered trademark), a CD-ROM (Compact Disc Read Only). Semiconductor memory in which programs are temporarily or permanently stored as well as package media such as Memory, CD-R (Compact Disc-Recordable), CD-RW (Compact Disc-Rewritable), DVD (Digital Versatile Disc), etc. It can be realized with a magnetic disk or a magneto-optical disk.

  The present invention is not limited to the embodiments described above. Furthermore, the above-described embodiments may be combined with each other.

It is the schematic which shows the time error information provision system of embodiment of this invention. It is the schematic which shows the main hardware constitutions of a communication base station. It is the schematic which shows the main hardware constitutions of a GPS base station. It is the schematic which shows the main hardware constitutions of a central radio base station. It is the schematic which shows the main software structures of a communication base station. It is the schematic which shows the main software structures of a communication base station. It is the schematic which shows the main software structures of a GPS base station. It is the schematic which shows the main software structures of a central radio base station. It is a schematic flowchart which shows the operation example of a time error information provision system. It is a schematic flowchart which shows the operation example of a time error information provision system. It is a schematic flowchart which shows the operation example of a time error information provision system. It is the schematic which shows the transmission information transmitted from a communication base station. It is the schematic which shows the main software structures of a mobile station. It is a schematic flowchart which shows the operation example of a time error information provision system. It is a schematic flowchart which shows the operation example of a time error information provision system. It is a schematic flowchart which shows the operation example of a time error information provision system.

Explanation of symbols

  10, 10A ... time error information providing system, 12a, 12b, 12c, 12d ... GPS satellite, 15A, 15B, 15C ... communication base station, 40 ... GPS base station, 40A ... mobile phone Station, 112 ... Transmission information generation program, 114 ... Transmission information transmission program, 216 ... GPS time synchronization program, 218 ... Reception GPS time information generation program, 220 ... Specific base station distance information generation Program: 222 ... Estimated reception time information generation program, 224 ... Time error information generation program, 226 ... Base station database presence / absence determination program, 228 ... Time error information transmission program, 230 ... Time error Change rate information generation program, 232 ... Time error change rate information transmission program, 234 ... Positioning program Beam, 236 ... specific base station distance information generating program

Claims (7)

A terminal device for receiving a satellite signal which is a signal from a positioning satellite;
A plurality of communication base stations capable of communicating with the terminal device;
A central storage capable of communicating with the communication base station;
An asynchronous time error information providing system between communication base stations,
The terminal device
Distance information storage means for storing distance information indicating a distance to the communication base station capable of communication;
Satellite time synchronization means for maintaining synchronization with the time of the positioning satellite based on the satellite signals from a plurality of the positioning satellites;
Transmission radio wave receiving means for receiving transmission radio waves on which transmission information including transmission time is placed simultaneously or sequentially from the plurality of communication base stations,
Reception time information generating means for generating reception time information indicating a reception time of the transmission radio wave;
From the distance information storage means, a communication base station distance acquisition means for acquiring a distance from the communication base station,
Estimated reception time information generating means for generating estimated reception time information indicating an estimated reception time of the transmission radio wave based on the transmission time included in the transmission information and a distance from the communication base station;
Transmission time error information generating means for generating transmission time error information indicating an error in the transmission time based on the reception time information and the estimated reception time information;
Transmission time error information transmitting means for transmitting the transmission time error information to the communication base station or the central base station;
Have
At least one of the plurality of communication base stations has a communication base station side transmission time error information storage means for storing the transmission time error information,
The system for providing asynchronous time error information between communication base stations, wherein the central storage device has a central storage device side transmission time error information storage means for storing the transmission time error information. A terminal device that receives a satellite signal that is a signal from a positioning satellite,
Distance information storage means for storing distance information indicating the distance to a plurality of communication base stations capable of communication;
Satellite time synchronization means for maintaining synchronization with the time of the positioning satellite based on the satellite signals from a plurality of the positioning satellites;
Transmission radio wave receiving means for receiving transmission radio waves on which transmission information including transmission time is placed simultaneously or sequentially from the plurality of communication base stations,
Reception time information generating means for generating reception time information indicating a reception time of the transmission radio wave;
From the distance information storage means, a communication base station distance acquisition means for acquiring a distance from the communication base station,
Estimated reception time information generating means for generating estimated reception time information indicating an estimated reception time of the transmission radio wave based on the transmission time included in the transmission information and a distance from the communication base station;
Transmission time error information generating means for generating transmission time error information indicating an error in the transmission time based on the reception time information and the estimated reception time information;
Communication base station side transmission time error information storage means presence / absence judging means for judging whether or not the communication base station has a communication base station side transmission time error information storage means for storing the transmission time error information;
Based on the determination result of the communication base station side transmission time error information storage means presence / absence determination means, the transmission time error information is transmitted to the communication base station or a central storage device capable of communicating with the plurality of communication base stations. A transmission time error information transmitting means for transmitting;
The terminal device characterized by having. A terminal device that receives a satellite signal that is a signal from a positioning satellite,
Current position information generating means for generating current position information indicating a current position based on the satellite signals from a plurality of the positioning satellites;
Satellite time synchronization means for maintaining synchronization with the time of the positioning satellite based on the satellite signals from a plurality of the positioning satellites;
From a plurality of communicable communication base stations, simultaneously or sequentially, transmission radio wave receiving means for receiving transmission radio waves carrying transmission information including the transmission time and the position of the communication base station,
Reception time information generating means for generating reception time information indicating a reception time of the transmission radio wave;
Distance information generating means for generating distance information indicating a distance between the terminal device and the communication base station based on the current position and the position of the communication base station;
Estimated reception time information generating means for generating estimated reception time information indicating an estimated reception time of the transmission information based on the transmission time included in the transmission information and a distance from the communication base station;
Transmission time error information generating means for generating transmission time error information indicating an error in the transmission time based on the reception time information and the estimated reception time information;
Communication base station side transmission time error information storage means presence / absence judging means for judging whether or not the communication base station has a communication base station side transmission time error information storage means for storing the transmission time error information;
Based on the determination result of the communication base station side transmission time error information storage means presence / absence determination means, the transmission time error information is transmitted to the communication base station or a central storage device capable of communicating with the plurality of communication base stations. A transmission time error information transmitting means for transmitting;
The terminal device characterized by having. Based on the plurality of transmission time error information and the reception time information of the transmission radio wave carrying the transmission information that is the basis of the transmission time error information, a time error change indicating a change rate of the transmission time error Time error change rate information generating means for generating rate information;
Communication base station side transmission time error change rate information storage means for determining whether or not the communication base station has a communication base station side transmission time error change rate information storage means for storing the transmission time error change rate information Presence / absence judging means,
Based on the determination result of the communication base station side transmission time error change rate information storage means presence / absence determination means, the transmission time information is transmitted to the communication base station or a central storage device capable of communicating with the plurality of communication base stations. Transmission time error change rate information transmitting means for transmitting,
The terminal device according to claim 2, wherein the terminal device includes: Distance information storage means for storing distance information indicating distances to a plurality of communicable communication base stations, and satellite signals as signals from a plurality of positioning satellites are received, and synchronization with the time of the positioning satellites is maintained. A transmitting radio wave receiving step for receiving, from a plurality of communication base stations, a transmitting radio wave on which transmission information including transmission time is simultaneously or sequentially received from a plurality of communication base stations;
A reception time information generating step in which the terminal device generates reception time information indicating a reception time of the transmission radio wave;
A communication base station distance acquisition step in which the terminal device acquires a distance from the communication base station from the distance information storage unit;
An estimated reception time information generating step for generating estimated reception time information indicating an estimated reception time of the transmission radio wave based on the transmission time included in the transmission information and a distance from the communication base station; ,
A transmission time error information generating step in which the terminal device generates transmission time error information indicating an error in the transmission time based on the reception time information and the estimated reception time information;
Determining whether the communication base station has a communication base station side transmission time error information storage means for storing the transmission time error information;
A central storage in which the terminal device can communicate the transmission time information with the communication base station or a plurality of the communication base stations based on the determination result in the communication base station side transmission time error information storage means presence / absence determination step. A transmission time error information transmission step to be transmitted to the device;
A control method for a terminal device, comprising: On the computer,
Distance information storage means for storing distance information indicating distances to a plurality of communicable communication base stations, and satellite signals as signals from a plurality of positioning satellites are received, and synchronization with the time of the positioning satellites is maintained. A transmitting radio wave receiving step for receiving, from a plurality of communication base stations, a transmitting radio wave on which transmission information including transmission time is simultaneously or sequentially received from a plurality of communication base stations;
A reception time information generating step in which the terminal device generates reception time information indicating a reception time of the transmission radio wave;
A communication base station distance acquisition step in which the terminal device acquires a distance from the communication base station from the distance information storage unit;
An estimated reception time information generating step for generating estimated reception time information indicating an estimated reception time of the transmission radio wave based on the transmission time included in the transmission information and a distance from the communication base station; ,
A transmission time error information generating step in which the terminal device generates transmission time error information indicating an error in the transmission time based on the reception time information and the estimated reception time information;
Determining whether the communication base station has a communication base station side transmission time error information storage means for storing the transmission time error information;
A central storage in which the terminal device can communicate the transmission time information with the communication base station or a plurality of the communication base stations based on the determination result in the communication base station side transmission time error information storage means presence / absence determination step. A transmission time error information transmission step to be transmitted to the device;
A control program for a terminal device, characterized in that On the computer,
Distance information storage means for storing distance information indicating distances to a plurality of communicable communication base stations, and satellite signals as signals from a plurality of positioning satellites are received, and synchronization with the time of the positioning satellites is maintained. A transmitting radio wave receiving step for receiving, from a plurality of communication base stations, a transmitting radio wave on which transmission information including transmission time is simultaneously or sequentially received from a plurality of communication base stations;
A reception time information generating step in which the terminal device generates reception time information indicating a reception time of the transmission radio wave;
A communication base station distance acquisition step in which the terminal device acquires a distance from the communication base station from the distance information storage unit;
An estimated reception time information generating step for generating estimated reception time information indicating an estimated reception time of the transmission radio wave based on the transmission time included in the transmission information and a distance from the communication base station; ,
A transmission time error information generating step in which the terminal device generates transmission time error information indicating an error in the transmission time based on the reception time information and the estimated reception time information;
Determining whether the communication base station has a communication base station side transmission time error information storage means for storing the transmission time error information;
A central storage in which the terminal device can communicate the transmission time information with the communication base station or a plurality of the communication base stations based on the determination result in the communication base station side transmission time error information storage means presence / absence determination step. A transmission time error information transmission step to be transmitted to the device;
A computer-readable recording medium on which a control program for a terminal device is recorded.

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