JP2000314771A - Information system using gps - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an information system using a GPS(global positioning satellite) reduced in a computing amount for calculating position information in a terminal, and reduced in an electric power consumption, and control a user's position and security by radio LAN communication using a radio LAN communication network. SOLUTION: This information system is composed of a GPS antenna 1 for receiving a radio wave from a GPS satellite, a GPS receiver 2 for inputting outputs of the GPS antenna 1 to output information of positions, times and the like, plural information transmitting base stations 10 using GPSs comprising transmitting devices 3 for transmitting the information of the times, the positions and the like output from the GPS receiver 2, and plural information receiving terminals 20 for receiving the information of the positions, the times and the like transmitted by the information transmitting base stations 10. A radio LAN device 11 is preferably provided in the information transmitting base station 10.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a GPS-based information system in which the amount of calculation for calculating position information in a terminal is reduced and the power consumption is reduced, and a car navigation system based thereon.
The present invention relates to a GPS-based information system having a wireless LAN function used for wireless LAN communication, position management, security management, and the like.

[0002]

[Prior Art] Today, Japan enters the advanced information age,
The information communication field, such as information networks, mobile communication, and mobile phones, has developed rapidly and has become indispensable in our real life. In the GPS application field as well, due to the improvement of GPS function performance and the improvement of systematization technology with various services, position information is mainly used as a car navigation system, and is used for operation management of taxis, trains, buses, etc. Is also used, and the one-second pulse information is PH
It is used as a sensor for timing synchronization in wireless communication such as S and mobile phones, and application systems in the information communication field, such as manlocation systems and Mayday systems, such as position management and security management, are gradually spreading. is there.

A current position detection system such as a car navigation system has a built-in GPS receiver, receives a radio wave from a GPS satellite, decodes a navigation message, and converts the navigation message into information such as a measured pseudorange. The positioning calculation is performed based on the calculated position information. However, in the position calculation, the amount of calculation is large, the power consumption is large, and there are many cases where the position of the system is restricted in terms of the system configuration.

[0004] One second pulse information in GPS is:
It is used for timing synchronization in wireless communication such as PHS and mobile phones in GPS base stations, but has not yet been used in wireless LAN communication networks that may develop in the future.

SUMMARY OF THE INVENTION The present invention has been made in view of the above points, and an object of the present invention is to provide a GPS-based information system in which the amount of calculation for calculating position information in a terminal is reduced and the power consumption is reduced. Aim. In addition, wireless L
An object of the present invention is to provide a GPS-based information system capable of managing a user's location and security by wireless LAN communication in an AN communication network.

[0006]

In order to achieve the above object, a GPS information system according to claim 1 comprises a GPS antenna 1 for receiving radio waves from a GPS satellite, and a GPS antenna, as shown in FIG. 1, a plurality of GPS use information transmissions including a GPS receiver 2 that outputs information such as position and time, and a transmission device 3 that transmits information such as position and time output by the GPS receiver 2. A base station 10,
It is characterized by comprising a plurality of information receiving terminals 20 for receiving information such as the position and time transmitted by the GPS use information transmitting base station 10. The GPS according to claim 2
As shown in FIG. 2, the usage information system according to claim 1 includes an FM transmitting device 4 that outputs information such as a position and a time in an FM band to the GPS usage information transmitting base station 10. It is characterized by the following. Also,
The GPS usage information system according to the third aspect is the GPS usage information system according to the first aspect, in which the GPS usage information transmission base station 10 receives DGPS information transmitted from the FM base station as shown in FIG. And an FM signal device 5 for inputting the received DGPS information to the GPS receiver 2.

[0007] Further, the GPS usage information system according to the fourth aspect is the GPS usage information system according to the first aspect, as shown in FIG.
It is characterized by having a position averaging device 6 for averaging the position information output from the GPS receiver 2 of 0 and outputting the average position information to the transmitting device 3. Claim 5
The GPS usage information system described in claim 1 is a GPS usage information system according to claim 1.
In the PS use information system, as shown in FIG.
The transmitting device of the PS use information transmitting base station 10 is a one-second pulse synchronous transmitting device 7 that outputs information such as position and time in synchronization with a one-second pulse signal output from the GPS receiver 2. And According to a sixth aspect of the present invention, in the GPS utilization information system according to the fifth aspect, as shown in FIG. 6, a 1 second pulse signal averaging process is performed, and the 1 second pulse signal is averaged by 1 second. It is characterized by having a 1-second pulse signal averaging device 8 that outputs to the second-pulse synchronous transmission device 7.

The GPS information system according to a seventh aspect of the present invention is the GPS information system according to the fifth aspect, as shown in FIG. It is characterized by having. Further, the GPS utilization information system according to claim 8 is:
In the GPS use information system according to claim 1 or 4, as shown in FIG. 8, the information receiving terminal 20 calculates the position information from the strength of the transmission radio wave output from the GPS use information transmission base station 10. It is characterized by having. Further, the GPS usage information system according to claim 9 is:
In the GPS using information system according to claim 5 or 6, as shown in FIG. 9, the information receiving terminal 20 determines the arrival time of the transmission radio wave synchronized with the one-second pulse signal output from the GPS using information transmitting base station 10. It is characterized by having a 1-second pulse synchronous position detecting device 22 for detecting a position from a deviation.

[0009] Further, the GPS utilization information system according to claim 10 is the GPS utilization information system according to claim 8 or 9, as shown in FIG.
And an FM receiving device 24, and an information receiving terminal 20 that enables DGPS positioning. Claim 1
The GPS utilization information system according to claim 1, wherein
In the GPS using information system according to any of the above,
As shown in FIG. 11, the GPS use information transmitting base station 10 has a wireless LAN device 11. Also,
The GPS utilization information system according to the twelfth aspect is the first aspect of the invention.
In the GPS usage information system described in FIG. 1, as shown in FIG.
The N device 11 is a one-second pulse signal synchronous wireless LAN device 11 that transmits wireless LAN information in synchronization with a one-second pulse signal output from the GPS receiver 2.

The GPS utilization information system according to claim 13 is the GPS utilization information system according to claim 11 or 12, wherein the GPS utilization information transmitting base station 10 is connected to the information receiving terminal 20 as shown in FIG. It is characterized by having an abnormal signal receiving device 12 for receiving the transmitted abnormal signal. In the GPS usage information system according to the fourteenth aspect, in the GPS usage information system according to the eleventh or twelfth aspect, the GPS usage information transmitting base station 10 is transmitted from the information receiving terminal 20 as shown in FIG. It has a position information receiving device 13 that receives position information of the information receiving terminal 20. According to the invention of claim 15, the GP according to any one of claims 1 to 14 is provided.
In the S usage information system, as shown in FIG. 15, a map information device 26 having map information, and information such as a position and a time received by the information receiving terminal 20 and map information read from the map information device 26 are used as appropriate. A control device 2 having a map matching function for outputting a position on a map screen
7 and an output device 28 for outputting and displaying the position to constitute a car navigation system 25.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing the configuration of the first embodiment, and FIG. 16 is a block diagram showing an embodiment of the first embodiment. GPS
The usage information system includes a plurality of GPS usage information transmitting base stations 10 and a plurality of information receiving terminals 20. In this embodiment, a plurality of users carrying the information receiving terminal 20 are walking on a road, and a GPS-use information transmitting base station 10 is arranged on a telephone pole 14 along the road. GP
The S usage information transmitting base station 10 uses the GPS antenna 1
A radio wave from the S satellite is received, an output of the GPS antenna 1 is input to the GPS receiver 2, and position information, time information, and the like are output. Position information, time information, and the like output by the GPS receiver 2 are transmitted to the information receiving terminal 20 by the transmitting device 3.
The information receiving terminal 20 receives position information, time information, and the like transmitted from the GPS information transmitting base station 10. The information receiving terminal 20 can detect its own position based on the position information transmitted from the GPS information transmitting base station 10. As a result, the amount of calculation for calculating the position information in the information receiving terminal 20 is reduced, and the GPS with reduced power consumption is used.
A usage information system is provided.

FIG. 2 is a block diagram showing a configuration according to a second embodiment, and FIG. 16 is a block diagram showing an embodiment according to a second embodiment. This embodiment is characterized in that it has an FM transmitting device 4 that outputs information such as position and time in the FM band to the GPS use information transmitting base station 10. The GPS use information system includes a plurality of GPS use information transmission base stations 10 and a plurality of information reception terminals 20. The GPS use information transmitting base station 10 receives radio waves from GPS satellites with the GPS antenna 1, inputs the output of the GPS antenna 1 with the GPS receiver 2, and outputs position information, time information, and the like. Position information, time information, and the like output by the GPS receiver 2 are transmitted to the information receiving terminal 20 in the FM band by the FM transmitting device 4.
The information receiving terminal 20 receives position information, time information, and the like transmitted from the GPS information transmitting base station 10. The information receiving terminal 20 can detect its own position based on position information transmitted by FM from the GPS information transmitting base station 10. Accordingly, a GPS-based information system in which the amount of calculation for calculating position information in the information receiving terminal 20 is reduced and power consumption is reduced is provided.

FIG. 3 is a block diagram showing a configuration according to a third embodiment, and FIG. 17 is a block diagram showing an embodiment of the third embodiment. In this embodiment, the GPS usage information transmitting base station 10
And an FM signal device 5 for receiving DGPS information transmitted from the FM base station 15 and inputting the received DGPS information to the GPS receiver 2. The GPS use information system includes a plurality of GPS use information transmitting base stations 10.
And a plurality of information receiving terminals 20. GPS
The usage information transmitting base station 10 uses the GPS antenna 1
A radio wave from a satellite is received, and the output of the GPS antenna 1 and the DGPS information are input to the GPS receiver 2 to output position information, time information, and the like. Position information, time information, and the like output by the GPS receiver 2 are transmitted to the information receiving terminal 20 by the transmitting device 3. The information receiving terminal 20 receives position information, time information, and the like transmitted from the GPS information transmitting base station 10. The information receiving terminal 20 is a GPS use information transmitting base station 10
Your own position can be detected based on the position information transmitted from. Accordingly, a GPS-based information system in which the amount of calculation for calculating position information in the information receiving terminal 20 is reduced and power consumption is reduced is provided.

FIG. 4 is a block diagram showing a configuration according to a fourth embodiment, and FIG. 16 is a block diagram showing an embodiment of the fourth embodiment. This embodiment is characterized in that it has a position averaging device 6 that performs an averaging process on the position information output from the GPS receiver 2 of the GPS use information transmitting base station 10 and outputs the average position information to the transmitting device 3. And The GPS use information system includes a plurality of GPS use information transmission base stations 10 and a plurality of information reception terminals 20. The GPS use information transmitting base station 10 receives radio waves from GPS satellites with the GPS antenna 1, inputs the output of the GPS antenna 1 with the GPS receiver 2, and outputs position information, time information, and the like. The position averaging device 6 inputs position information, time information, and the like output from the GPS receiver 2 and performs averaging processing of the position information.
The output average position information, time information, and the like are transmitted by the transmitting device 3 to the information receiving terminal 20. The information receiving terminal 20 receives position information, time information, and the like transmitted from the GPS information transmitting base station 10. Information receiving terminal 20 is GP
The user's own position can be detected based on the position information transmitted from the S use information transmitting base station 10. Accordingly, a GPS-based information system in which the amount of calculation for calculating position information in the information receiving terminal 20 is reduced and power consumption is reduced is provided.

FIG. 5 is a block diagram showing a configuration according to a fifth embodiment, and FIG. 18 is a block diagram showing an embodiment according to a fifth embodiment. In this embodiment, the GPS usage information transmitting base station 10
Is characterized by having a one-second pulse synchronous transmission device 7 that outputs information such as position and time in synchronization with a one-second pulse signal output from the GPS receiver 2. The GPS usage information system includes a plurality of GPS usage information transmission base stations 10,
It comprises a plurality of information receiving terminals 20. The GPS use information transmitting base station 10 receives radio waves from GPS satellites with the GPS antenna 1, inputs the output of the GPS antenna 1 with the GPS receiver 2, and outputs position information, time information, and the like.
Position information and time information output from the GPS receiver 2 are represented by G
It is transmitted to the information receiving terminal 20 by the one-second pulse synchronous transmission device 7 in synchronization with the one-second pulse signal output from the PS receiver 2. The information receiving terminal 20 receives position information, time information, and the like transmitted from the GPS information transmitting base station 10. The information receiving terminal 20 is a GPS use information transmitting base station 10
Your own position can be detected based on the position information transmitted from. Accordingly, a GPS-based information system in which the amount of calculation for calculating position information in the information receiving terminal 20 is reduced and power consumption is reduced is provided.

FIG. 6 is a block diagram showing a configuration according to claim 6, and FIG. 18 is a block diagram showing one embodiment of claim 6. In this embodiment, the GPS usage information transmitting base station 10
Is a one-second pulse synchronous transmission device 7 that outputs information such as position and time in synchronization with a one-second pulse signal output from the GPS receiver 2, performs averaging processing of the one-second pulse signal, and It is characterized by having a one-second pulse signal averaging device 8 that outputs a second pulse signal to a one-second pulse synchronous transmission device 7. The GPS use information system includes a plurality of GPS use information transmission base stations 10 and a plurality of information reception terminals 20. The GPS use information transmitting base station 10 receives radio waves from GPS satellites with the GPS antenna 1, inputs the output of the GPS antenna 1 with the GPS receiver 2, and outputs position information, time information, and the like. The position information, time information, and the like output from the GPS receiver 2 are synchronized with the one-second pulse signal averaged by the one-second pulse signal averaging device 8 and transmitted to the information receiving terminal 20 by the one-second pulse synchronous transmission device 7. Sent.
The information receiving terminal 20 receives position information, time information, and the like transmitted from the GPS information transmitting base station 10. The information receiving terminal 20 can detect its own position based on the position information transmitted from the GPS information transmitting base station 10. As a result, the amount of calculation for calculating the position information in the information receiving terminal 20 is reduced, and the GPS with reduced power consumption is used.
A usage information system is provided.

FIG. 7 is a block diagram showing a configuration according to claim 7, and FIG. 18 is a block diagram showing one embodiment of claim 7. This embodiment is characterized in that it has a position information input device 9 that can input position information to the GPS receiver 2.
The GPS use information system includes a plurality of GPS use information transmission base stations 10 and a plurality of information reception terminals 20. The GPS use information transmitting base station 10 receives radio waves from GPS satellites with the GPS antenna 1, inputs position information in advance to the GPS receiver 2 with the position information input device 9,
The output of the GPS antenna 1 is input to the PS receiver 2 to output position information, time information, and the like. The time information output by the GPS receiver 2 is transmitted to the information receiving terminal 20 by the transmission device 3 together with the position information input by the position information input device 9. The information receiving terminal 20 receives position information, time information, and the like transmitted from the GPS information transmitting base station 10. The information receiving terminal 20 can detect its own position based on the position information transmitted from the GPS information transmitting base station 10. Accordingly, a GPS-based information system in which the amount of calculation for calculating position information in the information receiving terminal 20 is reduced and power consumption is reduced is provided.

FIG. 8 is a block diagram showing a configuration according to claim 8, and FIG. 19 is a block diagram showing one embodiment of claim 8. This embodiment is characterized in that the information receiving terminal 20 includes a calculating device 21 that calculates position information from the strength of a transmission radio wave output from the GPS-use information transmitting base station 10. The GPS use information system includes a plurality of GPS use information transmission base stations 10 and a plurality of information reception terminals 20. The GPS use information transmitting base station 10 receives radio waves from GPS satellites with the GPS antenna 1, inputs the output of the GPS antenna 1 with the GPS receiver 2, and outputs position information, time information, and the like. Position information, time information, and the like output by the GPS receiver 2 are transmitted to the information receiving terminal 20 by the transmitting device 3. The information receiving terminal 20 receives position information, time information, and the like transmitted from the GPS information transmitting base station 10. The information receiving terminal 20 is a GPS use information transmitting base station 10
Your own position can be detected based on the position information transmitted from. In particular, in this embodiment, the calculation device 21 can detect its own position more accurately based on the position information and the transmission signal level transmitted from the GPS use information transmitting base stations 10A and 10B. Accordingly, a GPS-based information system in which the amount of calculation for calculating position information in the information receiving terminal 20 is reduced and power consumption is reduced is provided.

FIG. 9 is a block diagram showing a configuration according to a ninth embodiment, and FIG. 19 is a block diagram showing an embodiment according to a ninth embodiment. In this embodiment, the information receiving terminal 20 is a one-second pulse synchronous type position detecting device 22 that performs position detection from a difference in arrival time of a transmission radio wave synchronized with a one-second pulse signal output from the GPS-based information transmitting base station 10. It is characterized by having. The GPS use information system includes a plurality of GPS use information transmission base stations 10 and a plurality of information reception terminals 20. The GPS use information transmitting base station 10 receives radio waves from GPS satellites with the GPS antenna 1, inputs the output of the GPS antenna 1 with the GPS receiver 2, and outputs position information, time information, and the like. Position information, time information, and the like output from the GPS receiver 2 are transmitted to the information receiving terminal 20 by the one-second pulse synchronous transmission device 7 in synchronization with the one-second pulse signal output from the GPS receiver 2. Information receiving terminal 20
Receives position information, time information, and the like transmitted by the GPS usage information transmitting base station 10. The information receiving terminal 20 can detect its own position based on the position information transmitted from the GPS information transmitting base station 10, and in particular, in the present embodiment,
The information receiving terminal 20 further shifts its own position by the one-second pulse synchronous type position detecting device 22 due to the difference in arrival time of the transmission radio wave synchronized with the one-second pulse signal transmitted from the GPS-based information transmitting base stations 10A and 10B. It can be detected with high accuracy. Accordingly, a GPS-based information system in which the amount of calculation for calculating position information in the information receiving terminal 20 is reduced and power consumption is reduced is provided.

FIG. 10 is a block diagram showing a configuration according to claim 10, and FIG. 20 is a block diagram showing an embodiment according to claim 10. In this embodiment, the information receiving terminal 20
It is a terminal having an antenna 23 and an FM receiver 24 and capable of performing DGPS positioning. The GPS use information system includes a plurality of GPS use information transmitting base stations 10.
And a plurality of information receiving terminals 20. GPS
The usage information transmitting base station 10 uses the GPS antenna 1
A radio wave from a satellite is received, an output of the GPS antenna 1 is input to the GPS receiver 2, and position information, time information, and the like are output. Position information, time information, and the like output by the GPS receiver 2 are transmitted to the information receiving terminal 20 by the transmitting device 3.
The information receiving terminal 20 receives position information, time information, and the like transmitted from the GPS information transmitting base station 10. The information receiving terminal 20 can detect its own position based on the position information transmitted from the GPS information transmitting base station 10, and furthermore, in this embodiment, the DG transmitted from the FM base station 15
The user's own position can be detected more accurately by the PS information. Accordingly, a GPS-based information system in which the amount of calculation for calculating position information in the information receiving terminal 20 is reduced and power consumption is reduced is provided.

FIG. 11 is a block diagram showing a configuration according to claim 11, and FIG. 21 is a block diagram showing one embodiment of claim 11. This embodiment is characterized in that the GPS use information transmitting base station 10 has a wireless LAN device 11. GPS
The usage information system includes a plurality of GPS usage information transmitting base stations 10 and a plurality of information receiving terminals 20. G
The PS use information transmitting base station 10 uses the GPS antenna 1
The radio wave from the PS satellite is received, and the GPS
The output of the antenna 1 is input, and position information, time information, and the like are output. Position information, time information, and the like output by the GPS receiver 2 are transmitted to the information receiving terminal 20 by the transmitting device 3. In addition, a wireless LAN device 11 is installed inside the GPS usage information transmitting base station 10 to enable communication between wireless LANs. The information receiving terminal 20 receives position information, time information, and the like transmitted from the GPS information transmitting base station 10.
The information receiving terminal 20 can detect its own position based on the position information transmitted from the GPS information transmitting base station 10. Accordingly, the use of GPS having a wireless LAN function capable of reducing the amount of calculation for calculating position information in the information receiving terminal 20, reducing power consumption, and performing wireless LAN communication in a wireless LAN communication network. An information system is provided.

FIG. 12 is a block diagram showing a configuration according to the twelfth aspect, and FIG. 22 is a block diagram showing an embodiment of the twelfth aspect. In this embodiment, the GPS use information transmitting base station 10 has a wireless LAN device 11, and this wireless LAN device 11 transmits wireless LAN information in synchronization with a one-second pulse signal output from the GPS receiver 2. The second pulse signal synchronous wireless LAN device 11 is characterized. The GPS usage information system includes a plurality of GPS usage information transmission base stations 1
0 and a plurality of information receiving terminals 20. GP
The S usage information transmitting base station 10 uses the GPS antenna 1
A radio wave from the S satellite is received, an output of the GPS antenna 1 is input to the GPS receiver 2, and position information, time information, and the like are output. Position information, time information, and the like output by the GPS receiver 2 are transmitted to the information receiving terminal 20 by the transmitting device 3.
In addition, the wireless LA
An N device 11 is installed to enable communication between wireless LANs. The wireless LAN device 11 transmits wireless LAN information in synchronization with a high-precision one-second pulse signal output from the GPS receiver 2. The information receiving terminal 20 receives position information, time information, and the like transmitted from the GPS information transmitting base station 10. The information receiving terminal 20 is a GPS use information transmitting base station 10
Your own position can be detected based on the position information transmitted from. Thus, the amount of calculation for calculating position information in the information receiving terminal 20 can be reduced, the power consumption can be reduced, and high-speed, large-capacity wireless LAN communication can be performed in a wireless LAN communication network. A GPS-based information system having a function is provided.

FIG. 13 is a block diagram showing a configuration according to a thirteenth embodiment, and FIG. 23 is a block diagram showing an embodiment according to a thirteenth embodiment. This embodiment is characterized in that the GPS-use information transmitting base station 10 includes an abnormal signal receiving device 12 that receives an abnormal signal transmitted from the information receiving terminal 20.
The GPS use information system includes a plurality of GPS use information transmission base stations 10 and a plurality of information reception terminals 20. The GPS use information transmitting base station 10 receives radio waves from GPS satellites with the GPS antenna 1, inputs the output of the GPS antenna 1 with the GPS receiver 2, and outputs position information, time information, and the like. Position information, time information, and the like output by the GPS receiver 2 are transmitted to the information receiving terminal 20 by the transmitting device 3. In addition, a wireless LAN device 11 is installed inside the GPS usage information transmitting base station 10 to enable communication between wireless LANs. The wireless LAN device 11 transmits wireless LAN information in synchronization with a high-precision one-second pulse signal output from the GPS receiver 2. The information receiving terminal 20 receives position information, time information, and the like transmitted from the GPS information transmitting base station 10. The information receiving terminal 20 can detect its own position based on the position information transmitted from the GPS information transmitting base station 10. When an abnormal situation such as an accident occurs on the user side, an abnormal signal transmitted from the information receiving terminal 20 is received by the abnormal signal receiving device 12 and the wireless LAN device 11
The information can be transmitted to the location management center 30, the police, the hospital, and the like to notify the abnormality. Thereby, the amount of calculation for calculating the position information in the information receiving terminal 20 is reduced, the power consumption is reduced, and the wireless L
A GP having a wireless LAN function that can perform high-speed, large-capacity wireless LAN communication in an AN communication network and can promptly contact a center when an abnormality occurs on the user side and take measures.
An S usage information system is provided.

FIG. 14 is a block diagram showing a configuration according to claim 14, and FIG. 24 is a block diagram showing an embodiment of claim 14. In this embodiment, the GPS-use information transmitting base station 10 transmits the information receiving terminal 2 transmitted from the information receiving terminal 20.
It is characterized by having a position information receiving device 13 for receiving position information of 0. The GPS use information system includes a plurality of GPS use information transmission base stations 10 and a plurality of information reception terminals 20. GPS usage information transmission base station 10
Receives a radio wave from a GPS satellite with a GPS antenna 1, inputs an output of the GPS antenna 1 with a GPS receiver 2, and outputs position information, time information, and the like. GPS receiver 2
Are transmitted from the transmitting device 3 to the information receiving terminal 20. In addition, a wireless LAN device 11 is installed inside the GPS usage information transmitting base station 10 to enable communication between wireless LANs. This wireless LA
The N device 11 transmits wireless LAN information in synchronization with a high-precision one-second pulse signal output from the GPS receiver 2. The information receiving terminal 20 receives position information, time information, and the like transmitted from the GPS information transmitting base station 10. Information receiving terminal 2
0 can detect its own position based on the position information transmitted from the GPS use information transmitting base station 10. GPS
In the use information transmitting base station 10, the position of the user transmitted from the information receiving terminal 20 is received by the position signal receiving device 12, the information is transmitted between the wireless LAN devices 11, and the position is notified to the location management center 30. can do.
Thereby, the amount of calculation for calculating the position information in the terminal is reduced, the power consumption is reduced, and the wireless LAN
There is provided a GPS use information system having a wireless LAN function capable of performing high-speed, large-capacity wireless LAN communication over a communication network, notifying a user of a location to a center, and performing location management.

FIG. 15 is a block diagram showing a configuration according to claim 15, and FIG. 25 is a block diagram showing an embodiment of claim 15. In this embodiment, a map information device 2 having map information
6, a control device 27 having a map matching function of outputting an appropriate position on a map screen from information such as the position and time received by the information receiving terminal 20 and map information read from the map information device 26, and outputting the position. A car navigation system 25 is constituted by an output device 28 for displaying. The GPS usage information system uses multiple G
PS use information transmitting base station 10 and a plurality of information receiving terminals 2
0. GPS usage information transmission base station 10
Receives a radio wave from a GPS satellite with a GPS antenna 1, inputs an output of the GPS antenna 1 with a GPS receiver 2, and outputs position information, time information, and the like. GPS receiver 2
Are transmitted from the transmitting device 3 to the information receiving terminal 20. The information receiving terminal 20 is G
The user's own position can be detected based on the position information transmitted from the PS use information transmitting base station 10. In the car navigation system 25, the GPS use information transmitting base station 1
The information receiving terminal 20 receives position information, time information, and the like transmitted from 0, performs map matching in the control device 27 from the map information in the map information device 26 and the received position information, and determines an appropriate position in the output device 28. Output on the map screen. This provides a car navigation system based on a GPS-based information system in which the amount of calculation for calculating position information is reduced and the power consumption is reduced.

[0026]

According to the first to tenth aspects of the present invention, it is possible to provide a GPS-based information system in which the amount of calculation for calculating position information in a terminal is reduced and the power consumption is reduced. According to the invention of claims 11 to 14, the amount of calculation for calculating the position information in the terminal is reduced, the power consumption is reduced, and the position of the user is determined by the wireless LAN communication in the wireless LAN communication network. A GPS-based information system having a wireless LAN function capable of performing management and security management can be provided. According to the invention of claim 15, it is possible to provide a car navigation system based on a GPS-based information system, in which the amount of calculation for calculating position information is reduced and the power consumption is reduced.

[Brief description of the drawings]

FIG. 1 is a configuration diagram showing a configuration according to claim 1;

FIG. 2 is a configuration diagram showing a configuration according to claim 2;

FIG. 3 is a configuration diagram showing a configuration according to claim 3;

FIG. 4 is a configuration diagram showing a configuration according to claim 4;

FIG. 5 is a configuration diagram showing a configuration according to claim 5;

FIG. 6 is a configuration diagram showing a configuration according to claim 6;

FIG. 7 is a configuration diagram showing a configuration according to claim 7;

FIG. 8 is a configuration diagram showing a configuration according to claim 8;

FIG. 9 is a configuration diagram showing a configuration according to claim 9;

FIG. 10 is a configuration diagram showing a configuration according to claim 10;

FIG. 11 is a configuration diagram showing a configuration according to claim 11;

FIG. 12 is a configuration diagram showing a configuration according to claim 12;

FIG. 13 is a configuration diagram showing a configuration according to claim 13;

FIG. 14 is a configuration diagram showing a configuration according to claim 14;

FIG. 15 is a configuration diagram showing a configuration according to claim 15;

FIG. 16 is a configuration diagram showing one embodiment based on the configuration of the first, second and fourth aspects.

FIG. 17 is a configuration diagram showing one embodiment based on the configuration described in claim 3;

FIG. 18 is a configuration diagram showing an embodiment based on the configuration of claims 5, 6, and 7.

FIG. 19 is a configuration diagram showing one embodiment based on the configuration according to claims 8 and 9;

FIG. 20 is a configuration diagram showing an embodiment based on the configuration described in claim 10;

FIG. 21 is a configuration diagram showing an embodiment based on the configuration described in claim 11;

FIG. 22 is a configuration diagram showing an embodiment based on the configuration described in claim 12;

FIG. 23 is a configuration diagram showing an embodiment based on the configuration described in claim 13.

FIG. 24 is a configuration diagram showing an embodiment based on the configuration of claim 14.

FIG. 25 is a configuration diagram showing an embodiment based on the configuration described in claim 15.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 GPS antenna 2 GPS receiver 3 Transmitting device 10 GPS utilization information transmission base station 20 Information receiving terminal

Continued on the front page F term (reference) 2F029 AA07 AB07 AC02 AC06 AD01 5H180 AA21 BB04 FF05 FF27 5J062 AA01 AA13 BB01 CC07 EE04 FF01 GG01 GG02 HH01 HH05

Claims (15)

[Claims] 1. GP for receiving radio waves from GPS satellites
A plurality of GPS usage information including an S antenna, a GPS receiver that inputs a GPS antenna output, and outputs information such as position and time, and a transmitting device that transmits information such as position and time output by the GPS receiver. A GPS utilization information system, comprising: a transmission base station; and a plurality of information receiving terminals that receive information such as a position and time transmitted by the GPS utilization information transmission base station. 2. The GPS use information system according to claim 1, further comprising an FM transmission device for outputting information such as a position and a time in an FM band to a GPS use information transmission base station. . 3. The GPS utilization information system according to claim 1, wherein the GPS utilization information transmission base station receives DGPS information transmitted from the FM base station, and receives the received DGP.
A GPS-based information system comprising an FM signal device for inputting S information to a GPS receiver. 4. A position for averaging position information output from a GPS receiver of a GPS use information transmitting base station and outputting the average position information to a transmitting device in the GPS use information system according to claim 1. A GPS-based information system comprising an averaging device. 5. The GPS utilization information system according to claim 1, wherein the transmission device of the GPS utilization information transmission base station transmits information such as position and time in synchronization with a one-second pulse signal output from the GPS receiver. An information system using GPS, which is a one-second pulse synchronous transmission device for outputting. 6. The one-second pulse signal averaging device according to claim 5, wherein the one-second pulse signal is averaged to output a one-second pulse signal to a one-second pulse synchronous transmission device. A GPS-based information system comprising a device. 7. The GPS use information system according to claim 5, further comprising a position information input device capable of inputting position information to a GPS receiver. 8. The GPS using information system according to claim 1, wherein the information receiving terminal has a calculating device for calculating position information from the strength of a transmission radio wave output from the GPS using information transmitting base station. GPS information system. 9. The GPS-based information system according to claim 5, wherein the information receiving terminal detects a position from a difference in arrival time of a transmission radio wave synchronized with a one-second pulse signal output from the GPS-based information transmitting base station. 1. A GPS-based information system, comprising: a one-second pulse synchronous type position detecting device for performing the following. 10. The GPS-use information system according to claim 8, further comprising an FM antenna, an FM reception device, and an information reception terminal capable of performing DGPS positioning. 11. The GPS use information system according to claim 1, wherein the GPS use information transmission base station has a wireless LAN device.
PS use information system. 12. The GPS utilization information system according to claim 11, wherein the radio communication system of the GPS utilization information transmission base station has a wireless LAN.
The GPS-based information system, wherein the AN device is a one-second pulse signal synchronous wireless LAN device that transmits wireless LAN information in synchronization with a one-second pulse signal output from a GPS receiver. 13. The GPS according to claim 11 or 12.
In the usage information system, the GPS usage information transmission base station includes an abnormal signal receiving device that receives an abnormal signal transmitted from the information receiving terminal. 14. The GPS according to claim 11 or 12.
In the usage information system, the GPS usage information transmission base station includes a position information receiving device that receives the position information of the information receiving terminal transmitted from the information receiving terminal. 15. The GPS information system according to claim 1, wherein a map information device having map information, information such as a position and a time received by said information receiving terminal and read from said map information device. A GPS-based information system, comprising: a control device having a map matching function for outputting an appropriate position on a map screen based on the obtained map information; and an output device for outputting and displaying the position.