JP2000268288A - Moving vehicle position track control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a moving vehicle position track control system which can always grasp a position even when the vehicle moves a wide area. SOLUTION: A GPS unit 14, a beacon unit 13, a portable telephone unit 12, a satellite communication unit 11 and an on-vehicle control unit 19 are mounted on an on-vehicle terminal and a beacon access network, a portable telephone access network and a satellite communication access network are connected to a vehicle management center by way of a common information transfer network. It is discriminated with respect to each access network whether or not an access is possible from the vehicle. Two-way communication is performed between the vehicle and a beacon, between the vehicle and a portable telephone base station and between the vehicle and a satellite communication earth station, and position information and a vehicle ID are received and delivered. When the access network which communicates in accordance with movement of the vehicle is switched, the communication is performed between each access network and the information transformation network, and the information of the vehicle is received and delivered.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a position tracking control system for a moving vehicle, and is used for position management and position tracking of a vehicle moving over a relatively wide range such as a taxi, a public transportation system, a logistics transportation truck, and the like. You.

[0002]

2. Description of the Related Art Conventionally, a system as shown in FIG. 9 has been used to manage the position of a moving vehicle. That is, a plurality of GPS (Glob
al Positioning System) A GPS unit is mounted to receive radio waves from satellites and measure the position of the vehicle. The information on the vehicle position measured by the GPS unit is notified to the vehicle management center using the vehicle radio mounted on the vehicle.

[0003]

However, in the system as shown in FIG. 9, the vehicle position is detected by one-way communication that only receives radio waves from GPS satellites.
A relatively large positioning error may occur. In particular, when a vehicle travels in a tunnel or an area with many high-rise buildings, a large error occurs because radio waves from a predetermined number of GPS satellites cannot be received.

[0004] In addition, a vehicle radio provided in a taxi or the like has a relatively narrow communication area. Therefore, there is a problem that the vehicle cannot notify the vehicle management center of the position information detected when the vehicle moves out of the vehicle wireless communication area. SUMMARY OF THE INVENTION It is an object of the present invention to provide a mobile vehicle position tracking control system capable of always grasping the position even when the vehicle moves over a wide range.

[0005]

According to a first aspect of the present invention, there is provided a moving vehicle position tracking control system which receives a radio wave from a GPS satellite to detect a position and a GPS unit installed on a road or the like. Beacon unit capable of communication with a connected beacon access network, mobile phone unit capable of communication with a predetermined mobile phone access network, and satellite communication unit capable of communication with a predetermined satellite communication access network And an on-board control unit for controlling the GPS unit, beacon unit, mobile phone unit and satellite communication unit mounted on an on-board terminal device on the vehicle,
Access permission / inhibition identifying means for identifying whether or not each of the beacon access network, the mobile phone access network, and the satellite communication access network can access from the vehicle; and when the in-vehicle terminal device can communicate with the beacon access network, Performs bidirectional communication between the in-vehicle terminal device and the beacon access network, transfers the vehicle identification information unique to the vehicle from the in-vehicle terminal device to the beacon access network, and transmits the vehicle identification information from the beacon access network to the in-vehicle terminal device. Beacon communication control means for transferring at least a beacon number as position information, and performs bidirectional communication between the in-vehicle terminal device and the mobile phone access network when the in-vehicle terminal device can communicate with the mobile phone access network. A portable telephone for transferring at least the vehicle identification information from the in-vehicle terminal device to the cellular phone access network. Communication control means, when the in-vehicle terminal device can communicate with a satellite communication access network, bidirectional communication between the in-vehicle terminal device and the satellite communication access network is performed, and from the in-vehicle terminal device to the satellite communication access network; On the other hand, a satellite communication control means for transferring the vehicle identification information and the position information of the vehicle is provided in the on-vehicle control unit, and the beacon access network receives a predetermined vehicle identification information from the in-vehicle terminal device. Beacon access network control means for notifying vehicle identification information and vehicle position information to a predetermined vehicle management center via an information transfer network of the mobile phone access network, wherein the mobile phone access network receives vehicle identification information from the on-board terminal device. A mobile telephone access network control means for notifying the vehicle management center of vehicle identification information and vehicle position information via the information transfer network upon receipt; The communication access network is provided with satellite communication access network control means for notifying the vehicle management center of vehicle identification information and vehicle position information via the information transfer network upon receiving vehicle identification information from the on-vehicle terminal device, Upon detecting a change of an access network for communicating with the on-board terminal device in accordance with the movement of the vehicle, at least one of the beacon access network control unit, the mobile phone access network control unit, and the satellite communication access network control unit, and Network switching control means for communicating with an information transfer network to exchange vehicle identification information and position information of the vehicle is provided, and the vehicle management center grasps the position of the vehicle.

According to the first aspect, the on-board terminal device on the vehicle can communicate with any of a beacon access network, a mobile phone access network, and a satellite communication access network. Of course, communication is not possible if the vehicle moves out of the communicable zone of each access network, but beacon access network, mobile phone access network, satellite communication access network no matter where the vehicle moves. It is highly probable that a communication path with at least one of the three access networks is always secured.

[0007] Since the GPS unit receives a radio wave from a GPS satellite and detects the position, the on-board terminal device on the vehicle can know the current position of the vehicle. Also, when communication between the in-vehicle terminal device and the beacon access network is possible, the position can be known from the beacon number assigned to the beacon used for communication,
Even when radio waves from a predetermined number of GPS satellites cannot be received simultaneously, the position of the vehicle can be known.

Further, for example, when the accuracy of the position information obtained from the beacon number is higher than the position information obtained by the GPS unit, the position information of the former is corrected by correcting the position information of the former with the position information of the latter. Information is obtained. Beacon access network control means provided in the beacon access network,
The mobile phone access network control means provided in the mobile phone access network and the satellite communication access network control means provided in the satellite communication access network are connected to the vehicle management center via the information transfer network, respectively. The location of the vehicle can be tracked using at least one of a mobile phone access network and a satellite communication access network, and the location information can be provided to the vehicle management center.

Further, for example, when the communication availability state between each access network and the in-vehicle terminal device changes as the vehicle moves, the change is detected by the network switching control means. The network switching control means, upon detecting the change, performs communication between at least one of a beacon access network control means, a mobile phone access network control means and a satellite communication access network control means and the information transfer network, and Transfers identification information and position information.

For this reason, the information transfer network side can always grasp the access network that can be used for tracking for each vehicle. Further, when switching the access network used for tracking, the position information of the vehicle detected previously can be used, so that the vehicle can be efficiently tracked when switching the access network. For example, even when a vehicle moves across a range of a plurality of independent beacon access networks, the position information of the vehicle is transferred to the information transfer network from the beacon access network outside the communication range. The information transfer network can be controlled to track the vehicle using the next beacon access network.

As described above, the beacon access network, the mobile phone access network, and the satellite communication access network can be used as appropriate according to the communication state of the on-board terminal device, so that even if the vehicle moves over a wide range, it can always be used. The position can be grasped by the vehicle management center. According to a second aspect of the present invention, in the mobile vehicle position tracking control system according to the first aspect, when the in-vehicle terminal device can communicate with a beacon access network, position information input from the beacon access network and position information obtained from the GPS unit. And a position identification means for identifying a position based on both of them is provided in the in-vehicle terminal device.

[0012] As a mobile phone access network, PH
An access network of S (personal handy phone system) may be used. In the second aspect, when the on-vehicle terminal device can communicate with the beacon access network, the position identification means may include the position information input from the beacon access network and the G information.
The position is identified based on both the position information obtained from the PS unit.

Since the position of each beacon installed on the side of the road is fixed, the position information input from the beacon access network is more likely to be more accurate than the position information obtained by GPS positioning. Therefore, the position accuracy is improved by identifying the position based on both the position information input from the beacon access network and the position information obtained from the GPS unit.

According to a third aspect of the present invention, in the mobile vehicle position tracking control system according to the first aspect, when the on-vehicle terminal device can communicate with a mobile phone access network, the mobile phone communication control means can control the mobile phone from the on-vehicle terminal device. The location information obtained by the GPS unit is transferred to a telephone access network. In the third aspect, since the mobile phone communication control means transfers the position information obtained by the GPS unit, it is possible to know the current position of the vehicle being tracked on the mobile phone access network side.

According to a fourth aspect of the present invention, in the moving vehicle position tracking control system according to the third aspect, when the on-vehicle terminal device can communicate with a mobile phone access network, location information from the on-vehicle terminal device to the mobile phone access network is provided. In response to the transfer, a signal indicating confirmation of position information is transmitted from the mobile phone access network to the in-vehicle terminal device. According to the fourth aspect, a signal indicating reception confirmation of the position information is transferred from the mobile phone access network to the in-vehicle terminal device. For example, if the communication quality deteriorates, the position information transmitted by the in-vehicle terminal device may not reach the mobile phone access network. In such a case, since the signal indicating the reception confirmation of the position information is not returned, the in-vehicle terminal device can retransmit the position information to the mobile phone access network.

According to a fifth aspect of the present invention, in the moving vehicle position tracking control system according to the first aspect, when the on-vehicle terminal device can communicate with a satellite communication access network, position information from the on-vehicle terminal device to the satellite communication access network is provided. And transmitting a signal indicating confirmation of position information from the satellite communication access network to the in-vehicle terminal device in response to the transfer.

According to a fifth aspect of the present invention, a signal indicating reception confirmation of position information is transferred from the satellite communication access network to the on-board terminal device. For example, if the communication quality deteriorates, the position information transmitted from the on-board terminal device may not reach the satellite communication access network. In such a case, since the signal indicating the reception confirmation of the position information is not returned, the in-vehicle terminal device can retransmit the position information to the satellite communication access network.

[0018]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a moving vehicle position tracking control system according to the present invention will be described with reference to FIGS. This form corresponds to all claims. FIG. 1 is a block diagram showing the configuration of the vehicle-mounted terminal device of this embodiment. FIG. 2 is a block diagram showing an example of the arrangement of main components of the system of this embodiment. FIG. 3 is a block diagram showing a connection state of each access network of this embodiment. FIG. 4 is a flowchart showing the operation of the vehicle-mounted control unit.

FIG. 5 is a flowchart showing the operation of the beacon and the operation of the beacon access network control unit. FIG. 6 is a flowchart showing the operation of the mobile phone base station and the operation of the mobile phone access network control unit. FIG. 7 is a flowchart showing the operation of the satellite communication earth station and the operation of the satellite communication access network control unit. FIG. 8 is a flowchart showing the operation of the information transfer network control unit.

In this embodiment, the GPS unit, the beacon unit, the portable telephone unit, the satellite communication unit, the onboard control unit, the beacon access network control means, the portable telephone access network control means, the satellite communication access network control means, The information transfer network and the vehicle management center are respectively a GPS unit 14, a beacon system adapter 13, a mobile phone system adapter 12, a satellite communication system adapter 11, an onboard control unit 19, a beacon access network control unit 39, and a mobile phone access network control unit 48. , Satellite communication access network control unit 4
6, corresponding to the information transfer network 43 and the vehicle management center 30.

The access permission / non-permission identification means of the first aspect is embodied as steps S13, S18, and S21, and the beacon communication control means of the first aspect includes the steps S14, S1.
The portable telephone communication control means of the present invention is embodied as step S19, and the satellite communication control means of the present invention is embodied as step S22.
Further, the network switching control means according to claim 1 performs step S4.
7, S48, S66 to S69, S86 to S89, S96
~ S99. The position identification means of the present invention is embodied as steps S16 and S17.

In the moving vehicle position tracking control system of this embodiment, a vehicle 32 as shown in FIG. 1 is mounted on the vehicle 32 to be tracked. Referring to FIG. 1, this in-vehicle terminal device includes a satellite communication system adapter 11, a mobile phone system adapter 12, a beacon system adapter 13, a GPS unit 14,
It includes antennas 15 to 18, an in-vehicle control unit 19, a display processing unit 20, a map information holding unit 21, a display unit 22, and a beacon position information holding unit 23.

The satellite communication system adapter 11 includes an antenna 15
2 can be wirelessly communicated with the communication satellite 35 shown in FIG. Of course, communication may not be possible depending on the positions of the vehicle 32 and the communication satellite 35 and the conditions at that time. Since the communication satellite 35 is used as a relay device, the satellite communication system adapter 11 can communicate with the satellite communication earth station 33.

The mobile phone system adapter 12 includes an antenna 16
2 can be wirelessly communicated with the mobile phone base station 34 shown in FIG. Of course, communication may not be possible depending on the position of the vehicle 32 or conditions at that time. The beacon system adapter 13 can perform bidirectional wireless communication with the beacon 31 shown in FIG. The beacons 31 are installed at regular intervals beside major roads such as highways. When the vehicle 32 runs on a road on which the beacon 31 is installed, there is a high probability that any one of the beacons 31 and the beacon system adapter 13 can perform wireless communication.

The GPS unit 14 receives radio waves from a plurality of GPS satellites 36 as shown in FIG. 2 using the antenna 18, and obtains the current position of the vehicle 32 by a predetermined calculation process. In general, when radio waves from three or more GPS satellites 36 can be received simultaneously, the position can be calculated. Normally, the position information calculated by the GPS unit 14 is used as it is.

The display processing unit 20 displays a map near the current position and the current position based on the current position of the vehicle 32 detected by the GPS unit 14 and the like and the map information held in the map information holding unit 21. It is displayed on the section 22. The map information holding unit 21 holds map information in the form of, for example, a CD-ROM, and reads out map information as needed. The beacon position information holding unit 23 holds, for each of a large number of beacons 31, information indicating a relationship between a beacon number and its installation position. Therefore, when the beacon number of the beacon 31 existing near the vehicle 32 is known, the position of the beacon 31, that is, the current position of the vehicle 32 can be obtained by referring to the information of the beacon position information holding unit 23. it can.

The on-vehicle control unit 19 is a control device such as a microcomputer, and includes the satellite communication system adapter 11, the mobile phone system adapter 12, the beacon system adapter 13, the GPS unit 14, the display processing unit 20, and the beacon position shown in FIG. The information storage unit 23 is controlled. The details of the control will be described later. Vehicle 3 to be tracked shown in FIG.
2 is provided with the vehicle management center 30 shown in FIG. The vehicle management center 30 is connected to an information transfer network 43 for tracking the position of the vehicle 32. The vehicle radio 29 is not used for tracking.

The satellite communication earth station 33 shown in FIG. 2 is connected to the satellite communication access network 45 shown in FIG. The satellite communication access network 45 is connected to the information transfer network 43 via a satellite communication access network control unit 46 and an information transfer network control unit 44.

The mobile phone base station 34 shown in FIG. 2 is connected to the mobile phone access network 47 shown in FIG. The mobile phone access network 47 is connected to the information transfer network 43 via a mobile phone access network control unit 48 and an information transfer network control unit 44. A plurality of mobile phone base stations 34 arranged at different positions are connected to the mobile phone access network 47.

The beacons 31 (1), 31 (2),... In FIG. 2 are connected to the beacon access network 40 (1) in FIG.
The beacon access network 40 (1) is connected to the information transfer network 43 via the beacon access network control unit 39 (1) and the information transfer network control unit 44. Similarly, the beacon access network 40 (2) is connected to the information transfer network 43 via the beacon access network control unit 39 (2) and the information transfer network control unit 44, and the beacon access network 40 (3) It is connected to the information transfer network 43 via the network control unit 39 (3) and the information transfer network control unit 44. Each beacon 31 of the beacon access network 40 (1), 40 (2), 40 (3)
Form communicable zones on roads in mutually different ranges.

Therefore, when the in-vehicle terminal device shown in FIG. 1 can communicate with the satellite communication access network 45 shown in FIG. 3, the satellite communication access network 45, the satellite communication access network control unit 4
6. The position information of the vehicle 32 can be transferred to the vehicle management center 30 via the information transfer network control unit 44 and the information transfer network 43.
Similarly, the in-vehicle terminal device is connected to the mobile phone access network 47 of FIG.
When communication is possible, the position information of the vehicle 32 can be transferred to the vehicle management center 30 via the mobile phone access network 47, the mobile phone access network control unit 48, the information transfer network control unit 44, and the information transfer network 43.

When the in-vehicle terminal device can communicate with the beacon access network 40 shown in FIG. 3, the vehicle is connected via the beacon access network 40, the beacon access network control unit 39, the information transfer network control unit 44, and the information transfer network 43. The position information of the vehicle 32 can be transferred to the management center 30.

The onboard control unit 19 shown in FIG.
The following control is performed. Hereinafter, the operation of the vehicle-mounted control unit 19 will be described for each step shown in FIG. GP in FIG.
When the S unit 14 detects the current position of the vehicle 32 by the arithmetic processing, the process proceeds from step S11 to S12. In step S12, the latest (last detected) position information detected by the GPS unit 14 is stored in the vehicle-mounted control unit 19 as the current position.

In step S13, it is determined whether or not communication is possible between the beacon system adapter 13 and any one of the beacons 31. That is, if the signal transmitted by the beacon 31 as a radio wave can be received by the beacon system adapter 13 via the antenna 17, it is considered that communication is possible. If communication is possible, the process proceeds to step S14. In step S14, a unique vehicle ID (vehicle identification information) previously assigned to the on-vehicle control unit 19 is transmitted to the beacon 31 via the beacon system adapter 13 and the antenna 17. The vehicle ID is stored in the vehicle-mounted control unit 19 in advance.

In step S15, information contained in the signal transmitted from beacon 31 is received. This information includes the beacon number of the beacon 31. A unique value different from each other is assigned to each beacon 31 in advance as a beacon number. The beacon number of the specific beacon 31 actually communicating with the beacon system adapter 13 is received in step S15.

In step S16, the beacon position corresponding to the beacon number received in step S15 is obtained by referring to the information stored in the beacon position information storage unit 23 shown in FIG. In step S17, the in-vehicle control unit 1 uses the beacon position obtained in step S16 as the current position.
9 is stored. Since the position of each beacon 31 is predetermined, there is a high possibility that the position information obtained in step S16 has higher position accuracy than the position information obtained by the GPS unit 14. Therefore, in this example, even if the GPS unit 14 can detect the position, the position information obtained in step S16 is preferentially adopted.

It should be noted that based on both the position obtained in step S16 and the position obtained by the GPS unit 14,
An intermediate position between them may be adopted as the final current position. In step S18, the mobile phone system adapter 1
2 and whether or not communication is possible between any of the mobile phone base stations 34. That is, it checks the reception level of the radio wave received by the antenna 16 and the presence / absence of an empty channel to determine whether communication is possible.

If communication between the portable telephone system adapter 12 and the portable telephone base station 34 is possible, the process proceeds to step S19. In step S19, the current position information and the vehicle ID held by the on-vehicle control unit 19 are transmitted to the mobile phone base station 34 via the mobile phone adapter 12 and the antenna 16. If the confirmation notification from the mobile phone base station 34 has not been received within a predetermined time since the execution of step S19, or if an error occurrence notification has been received, the process returns from step S20 to S19. Therefore, when the transmitted position information and vehicle ID do not reach the mobile phone base station 34 correctly, retransmission is performed.

In step S21, it is determined whether or not communication is possible between the satellite communication system adapter 11 and the satellite communication earth station 33. That is, the reception level of the radio wave received by the antenna 15 and the presence or absence of an empty channel are checked to determine whether communication is possible. If communication is possible between the satellite communication system adapter 11 and the satellite communication earth station 33, the process proceeds to step S32. In step S32, the current position information and the vehicle ID held by the on-vehicle control unit 19 are transmitted to the satellite communication earth station 33 via the satellite communication system adapter 11 and the antenna 15.
Send to

When the confirmation notification from the satellite communication earth station 33 is not received within a predetermined time after the execution of the step S22, or when an error occurrence notification is received, the process returns from the step S23 to S22. Therefore, when the transmitted position information and vehicle ID do not reach the satellite communication earth station 33 correctly, retransmission is performed. Each beacon 31 connected to the beacon access network 40 operates as shown in FIG. The operation of the beacon 31 will be described below.

In step S31, it is determined whether or not the beacon 31 has received a signal from the beacon system adapter 13 at a reception level higher than a predetermined level, and it is determined whether or not communication is possible. If communication is possible, the process proceeds to step S32. In step S32, it is determined whether or not beacon 31 has received the vehicle ID. When the beacon 31 receives the vehicle ID from the beacon system adapter 13, the process proceeds to step S33. In step S33, the beacon 31 transmits the information of the beacon number assigned in advance to the beacon 31 on a radio wave. This information is received by the antenna 17 and the beacon system adapter 13.

In step S34, the beacon access network control unit 39 is notified of the vehicle ID transferred from the beacon system adapter 13 and the beacon number of the beacon 31 as a set of information. The beacon access network control unit 39
It operates as shown in FIG. The operation of the beacon access network control unit 39 will be described below.

In this example, an instruction to add or delete a tracked vehicle can be given to the beacon access network control unit 39 by an instruction from the vehicle management center 30. When the instruction about the tracked vehicle from the vehicle management center 30 is transferred to the beacon access network control unit 39, the process of the beacon access network control unit 39 proceeds from step S40 to S41. In step S41, the vehicle ID specified in the predetermined tracking vehicle table provided on the beacon access network control unit 39
Add or remove. The vehicle ID registered in the tracking vehicle table is managed as a tracking target.

In step S42, the beacon access network controller 39 receives information from each beacon 31 connected to the same beacon access network 40. Beacon 3
The information received from No. 1 includes the paired vehicle ID and beacon number. In step S43, the latest beacon number transferred from the beacon 31 in step S42, that is, information on the current position is stored in a memory on the beacon access network control unit 39, and the latest position information is held for each vehicle ID. However, in this example, position information is not held for vehicle IDs that are not registered in the tracking vehicle table.

When the information transfer network controller 44 requests the beacon access network controller 39 for tracking information, the process of the beacon access network controller 39 proceeds from step S44 to S45. In step S45, the vehicle ID and the current position of each tracked vehicle registered in the tracked vehicle table are notified to the information transfer network control unit 44. In this example, since the beacon access network control unit 39 holds information indicating the correspondence between each beacon number and its installation position in advance, the beacon access network control unit 39
Is converted into the position information of the installation position of the beacon 31, and the converted position information is notified to the information transfer network control unit 44.

If any beacon 31 detects a new vehicle ID which has not been detected by any of the beacons 31 among the vehicles to be tracked registered in the tracked vehicle table, the process proceeds from step S46. Proceed to S47. In step S47, the newly detected vehicle ID and its position information are transferred to the information transfer network control unit 44, and the fact that tracking is enabled is notified.

If a vehicle detected by any one of the beacons 31 cannot be detected for a predetermined time or more among the vehicles to be tracked registered in the tracking vehicle table, the vehicle is regarded as untrackable. . When processing the untrackable vehicle, the process proceeds from step S48 to S49. In step S49, for the vehicle that cannot be tracked, the vehicle ID and the position information of the vehicle that was last detected are transferred to the information transfer network control unit 44, and the fact that the vehicle is no longer traceable is notified.

Each mobile telephone base station 34 connected to the mobile telephone access network 47 operates as shown in FIG.
The operation of the mobile phone base station 34 will be described below. In step S51, it is determined whether or not the mobile phone base station 34 has received a signal from the mobile phone system adapter 12 at a reception level higher than a predetermined level, and it is checked whether or not communication is possible. If communication is possible, the process proceeds to step S52. Step S5
In 2, the mobile phone base station 34 identifies whether or not it has received the vehicle ID and the position information.

When the portable telephone base station 34 receives the vehicle ID and the position information from the portable telephone adapter 12, the process proceeds to step S53. In step S53, a confirmation notification indicating that the position information has been correctly received is transmitted from the mobile phone base station 34 via radio waves. This confirmation notice is sent to the antenna 16
And received by the mobile phone system adapter 12. Step S
At 54, the mobile phone access network control unit 48 is notified of the vehicle ID and the position information of the vehicle transferred from the mobile phone system adapter 12 of each vehicle as a set of information.

The mobile telephone access network control unit 48 operates as shown in FIG. The operation of the mobile phone access network control unit 48 will be described below. In this example, an instruction from the vehicle management center 30 can be given to the mobile phone access network control unit 48 to add or delete a tracked vehicle. When the instruction about the tracked vehicle from the vehicle management center 30 is transferred to the mobile phone access network control unit 48, the process of the mobile phone access network control unit 48 proceeds from step S60 to S61. In step S61, the vehicle ID specified in the predetermined tracking vehicle table provided on the mobile phone access network control unit 48 is added or deleted. The vehicle ID registered in the tracking vehicle table is managed as a tracking target.

In step S62, information from each mobile phone base station 34 connected to the same mobile phone access network 47 as the mobile phone access network control unit 48 is received. The information received from the mobile phone base station 34 includes a paired vehicle ID and position information. In step S63, the latest position information transferred from the mobile phone base station 34 in step S62 is stored in a memory on the mobile phone access network control unit 48, and the latest position information is held for each vehicle ID. However, in this example, position information is not held for vehicle IDs that are not registered in the tracking vehicle table.

When the information transfer network controller 44 requests the mobile phone access network controller 48 for tracking information, the process of the mobile phone access network controller 48 proceeds from step S64 to S65. In step S65, the vehicle ID and the current position of each tracked vehicle registered in the tracked vehicle table are notified to the information transfer network control unit 44. Of the vehicles to be tracked registered in the tracking vehicle table,
If a vehicle ID of a vehicle that could not be detected by any of the mobile phone base stations 34 is newly detected, the vehicle is regarded as traceable. When this new vehicle ID is detected,
The process proceeds from step S66 to S67.

In step S67, the vehicle ID of the new vehicle
And the position information thereof to the information transfer network control unit 44, and notifies that the vehicle of the vehicle ID can be tracked. If a vehicle detected by any of the mobile phone base stations 34 cannot be detected for a predetermined time or more among the vehicles to be tracked registered in the tracking vehicle table, the vehicle cannot be tracked. Consider When processing the untrackable vehicle, the process proceeds from step S68 to step S68.
Go to 69.

In step S69, for the vehicle that cannot be tracked, the vehicle ID and the last detected position information of the vehicle are transferred to the information transfer network control unit 44, and a notification that the vehicle is no longer traceable is provided. Each satellite communication earth station 33 connected to the satellite communication access network 45 operates as shown in FIG. The operation of the satellite earth station 33 will be described below.

In step S71, it is determined whether or not the satellite communication earth station 33 can receive a signal transmitted by the satellite communication system adapter 11 of the on-board terminal device through the communication satellite 35 at a reception level higher than a predetermined level. Check if it is possible. If communication is possible, the process proceeds to step S72. In step S72, it is determined whether the satellite communication earth station 33 has received the vehicle ID and the position information.

When the satellite communication earth station 33 receives the vehicle ID and the position information from the satellite communication system adapter 11 via the communication satellite 35, the process proceeds to step S73. In step S73, a confirmation notification indicating that the position information has been correctly received is transmitted from the mobile phone base station 34 via radio waves. This confirmation notification is received by the antenna 15 and the satellite communication system adapter 11 via the communication satellite 35.

In step S74, the vehicle ID and the position information of the vehicle transferred from the satellite communication system adapter 11 of each vehicle are notified to the satellite communication access network control unit 46 as a set of information. Satellite communication access network controller 46
Operates as shown in FIG. The operation of the satellite communication access network control unit 46 will be described below.

In this example, an instruction from the vehicle management center 30 can be given to the satellite communication access network control unit 46 to add or delete a tracked vehicle. When the instruction from the vehicle management center 30 regarding the tracked vehicle is transferred to the satellite communication access network control unit 46, the processing of the satellite communication access network control unit 46 proceeds from step S80 to S81. In step S81, the vehicle ID specified in the predetermined tracking vehicle table provided on the satellite communication access network control unit 46
Add or remove. The vehicle ID registered in the tracking vehicle table is managed as a tracking target.

In step S82, information from each satellite communication earth station 33 connected to the same satellite communication access network 45 as the satellite communication access network control unit 46 is received. The information received from the satellite communication earth station 33 includes a paired vehicle ID and position information. In step S83, the latest position information transferred from the satellite communication earth station 33 in step S82 is stored in the memory on the satellite communication access network control unit 46, and the latest position information is held for each vehicle ID. However, in this example, position information is not held for vehicle IDs that are not registered in the tracking vehicle table.

When there is a request for tracking information from the information transfer network control unit 44 to the satellite communication access network control unit 46, the processing of the satellite communication access network control unit 46 proceeds from step S84 to S85. In step S85, the vehicle ID and the current position of each tracked vehicle registered in the tracked vehicle table are notified to the information transfer network control unit 44. Of the vehicles to be tracked registered in the tracking vehicle table,
If a vehicle ID of a vehicle that could not be detected by any of the satellite communication earth stations 33 is newly detected, the vehicle is regarded as traceable. When this new vehicle ID is detected,
The process proceeds from step S86 to S87.

In step S87, the vehicle ID of the new vehicle
And the position information thereof to the information transfer network control unit 44, and notifies that the vehicle of the vehicle ID can be tracked. If a vehicle that can be detected by any of the satellite communication earth stations 33 cannot be detected for a predetermined time or more among the vehicles to be tracked registered in the tracking vehicle table, the vehicle cannot be tracked. Consider When processing the untrackable vehicle, the process proceeds from step S88 to step S88.
Go to 89.

In step S89, for the vehicle that cannot be tracked, the vehicle ID and the last detected position information of the vehicle are transferred to the information transfer network control unit 44, and a notification that the vehicle cannot be tracked is given. Information transfer network controller 4
4 operates as shown in FIG. Information transfer network controller 44
Will be described below.

In this example, an instruction from the vehicle management center 30 can be given to the information transfer network control unit 44 to add or delete a tracked vehicle. When the instruction from the vehicle management center 30 regarding the tracked vehicle is transferred to the information transfer network control unit 44, the process of the information transfer network control unit 44 proceeds to step S
The process proceeds from S90 to S91. In step S91, a vehicle ID specified in a predetermined tracking vehicle table provided on the information transfer network control unit 44 is added or deleted. The vehicle ID registered in the tracking vehicle table is managed as a tracking target.

If a tracked vehicle is added or deleted in step S91, the beacon access network control unit 39, the mobile phone access network control unit 48, and the satellite communication access network control unit 46 are respectively tracked in step S92. An instruction to add or delete a vehicle is given. In step S93, information transferred from the beacon access network control unit 39 is received, and in step S94, the mobile phone access network control unit 48 is received.
, And the information transferred from the satellite communication access network control unit 46 is received in step S95.

When any of the beacon access network control unit 39, the mobile telephone access network control unit 48, and the satellite communication access network control unit 46 detects an untrackable vehicle, the process proceeds from step S96 to S97. In step S97, the vehicle ID of the vehicle detected as a non-trackable vehicle and the position of the vehicle detected last are notified to an access network other than the access network in which tracking is disabled. For example, in the case of the configuration shown in FIG. 3, the beacon access network control unit 39 (1)
Detects a vehicle that cannot be tracked, the information transfer network control unit 44 controls the beacon access network control units 39 (2) and 39 (3), the mobile phone access network control unit 48, and the satellite communication access network control unit 4.
6 is notified of the vehicle ID and the position of the vehicle.

The beacon access network control unit 39
(1), 39 (2), 39 (3), mobile phone access network controller 4
8. If any one of the satellite communication access network control units 46 can now track a vehicle that could not be tracked, the process of the information transfer network control unit 44 proceeds from step S98 to S99. In step S99, the vehicle ID of the vehicle detected as a new vehicle and the position of the vehicle are notified to another access network. For example, when the beacon access network control unit 39 detects a new vehicle, the information transfer network control unit 44 notifies the mobile phone access network control unit 48 and the satellite communication access network control unit 46 of the vehicle ID and position of the vehicle. Notify.

In step S100, for each vehicle to be tracked, which access network is currently available for tracking the position is stored in the internal memory. In step S101, information on each vehicle to be tracked is requested from each access network available for tracking. That is, the information transfer network control unit 44 requests at least one of the mobile phone access network control unit 48 and the satellite communication access network control unit 46 to transfer the vehicle information.

In step S102, for each vehicle to be tracked, the vehicle ID and the current position information corresponding thereto are transferred from the information transfer network control unit 44 to the vehicle management center 30. Therefore, the information transfer network control unit 44 can use the beacon access network control unit 39, the mobile phone access network control unit 48, and the satellite communication access network control unit 46 as needed to track the position of each vehicle.

For example, when a vehicle moves from within the range of the beacon access network control unit 39 (1) to within the range of the beacon access network control unit 39 (2), the information of the vehicle is transmitted to the beacon access network control unit 39 (2). Since the control unit 39 (1) notifies the information transfer network control unit 44 as a vehicle that cannot be tracked, the information transfer network control unit 44 transmits the beacon access network control unit 39 (2).
Can be used to control tracking.

The beacon access network control unit 39 (2)
Is detected as a new vehicle and the information is notified to the information transfer network control unit 44, so that the information transfer network control unit 44 can recognize that the tracking can be continued. Further, the beacon access network control unit 39 (2) of the movement destination is notified of the position where the vehicle that could not be tracked was last detected, so that it is possible to predict the beacon 31 that may possibly detect the vehicle to some extent. .

Further, even if the vehicle cannot be tracked by using any of the beacon access network control units 39,
If the vehicle is located at a position where communication is possible between the in-vehicle terminal device and the mobile phone base station 34 or the satellite communication earth station 33, the tracking can be continued. That is, even if the vehicle is out of the communicable range with the beacon 31, the position of the vehicle can be detected by the GPS unit 14 mounted on the in-vehicle terminal device.
Is transferred to the information transfer network control unit 44 via the mobile phone access network 47 and the mobile phone access network control unit 48,
Alternatively, the satellite communication access network 45,
The position information is transferred to the information transfer network control unit 44 via the satellite communication access network control unit 46, so that the vehicle management center 3
0 can be notified.

Further, for example, when the vehicle position is tracked by using the mobile telephone access network 47, even if the vehicle moves to a position where it cannot communicate with the mobile telephone base station 34, the communication satellite 35 is used. When a vehicle is located at a position where communication with the satellite communication earth station 33 is possible, the access network to be used is changed from the mobile phone access network 47 to the satellite communication access network 4.
By switching to 5, tracking of the vehicle position can be continued. Also in this case, the mobile phone access network control unit 4
8 and the information transfer network control unit 44, and between the satellite communication access network control unit 46 and the information transfer network control unit 44 to exchange the vehicle ID and the position information, thereby enabling efficient tracking. Can be continued.

Note that a PHS access network may be used instead of the mobile phone access network 47 used in this embodiment.
In that case, the mobile phone adapter 12 of the in-vehicle terminal device is used.
In addition, a communication function with the PHS terminal is required.

[0074]

As described above, according to the present invention, a plurality of beacon access networks, cellular phone access networks, and satellite communication access networks can be used as needed, so that the vehicle to be tracked moves over a wide range. Even if
It is possible to track its position continuously.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a configuration of an in-vehicle terminal device according to an embodiment.

FIG. 2 is a block diagram illustrating an arrangement example of main components of the system according to the embodiment;

FIG. 3 is a block diagram illustrating a connection state of each access network according to the embodiment;

FIG. 4 is a flowchart showing the operation of the vehicle-mounted control unit.

FIG. 5 is a flowchart showing the operation of the beacon and the operation of the beacon access network control unit.

FIG. 6 is a flowchart showing the operation of the mobile phone base station and the operation of the mobile phone access network control unit.

FIG. 7 is a flowchart showing the operation of the satellite communication earth station and the operation of the satellite communication access network control unit.

FIG. 8 is a flowchart showing an operation of an information transfer network control unit.

FIG. 9 is a block diagram showing a configuration of a conventional system.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 11 Satellite communication system adapter 12 Mobile telephone system adapter 13 Beacon system adapter 14 GPS unit 15, 16, 17, 18 Antenna 19 In-vehicle control unit 20 Display processing unit 21 Map information storage unit 22 Display unit 23 Beacon position information storage unit 29 Vehicle wireless Reference Signs List 30 vehicle management center 31 beacon 32 vehicle 33 satellite communication earth station 34 mobile phone base station 35 communication satellite 36 GPS satellite 39 beacon access network control unit 40 beacon access network 43 information transfer network 44 information transfer network control unit 45 satellite communication access network 46 Satellite communication access network controller 47 Mobile phone access network 48 Mobile phone access network controller

Continued on the front page (72) Inventor Mayumi Yanagiya 3-19-2 Nishi-Shinjuku, Shinjuku-ku, Tokyo F-term in Nippon Telegraph and Telephone Corporation (reference) 5H180 AA06 AA07 AA14 AA15 BB04 BB05 BB13 EE07 FF05 FF07 FF13 FF22 FF27 5J062 AA08 BB01 CC07 HH07 5K067 AA34 BB04 BB27 BB36 DD20 DD27 DD51 EE02 EE07 EE10 JJ52 JJ54 JJ56 JJ66

Claims (5)

[Claims] 1. A beacon unit capable of receiving a radio wave from a GPS satellite to detect a position and communicating with a beacon access network to which the GPS unit is connected via a beacon installed on a road or the like. A mobile phone unit capable of communicating with a predetermined mobile phone access network; a satellite communication unit capable of communicating with a predetermined satellite communication access network; and the GPS unit, beacon unit, mobile phone unit and satellite communication unit On-vehicle control unit for controlling a vehicle, mounted on an on-vehicle terminal device on the vehicle, and identifying whether or not each of the beacon access network, the mobile phone access network, and the satellite communication access network can be accessed from the vehicle. Means, and when the in-vehicle terminal device can communicate with the beacon access network, Two-way communication with the vehicle network, the vehicle-specific information unique to the vehicle is transferred from the vehicle-mounted terminal device to the beacon access network, and at least a beacon number is transmitted from the beacon access network to the vehicle-mounted terminal device. Beacon communication control means for transferring as the position information, and, when the in-vehicle terminal device can communicate with a mobile phone access network, performing bidirectional communication between the in-vehicle terminal device and the mobile phone access network, A mobile phone communication control means for transferring at least the vehicle identification information to the mobile phone access network; and, when the on-board terminal device can communicate with the satellite communication access network, the on-board terminal device and the satellite communication access network. The vehicle identification information and the position information of the vehicle are exchanged from the in-vehicle terminal device to the satellite communication access network. Satellite communication control means for transmitting the vehicle identification information and the vehicle position information via a predetermined information transfer network upon receiving the vehicle identification information from the in-vehicle terminal device in the beacon access network. And a beacon access network control means for notifying a predetermined vehicle management center that the vehicle identification information and the vehicle identification information are received via the information transfer network when the vehicle identification information is received from the in-vehicle terminal device. Mobile phone access network control means for notifying the vehicle management center of location information is provided. The satellite communication access network receives vehicle identification information from the in-vehicle terminal device and receives vehicle identification information via the information transfer network. Satellite communication access network control means for notifying the vehicle management center of the position information of the vehicle and the vehicle management center; When the switching of the access network for communication between the communication networks is detected, communication is performed between at least one of the beacon access network control means, the mobile phone access network control means, and the satellite communication access network control means and the information transfer network. A moving vehicle position tracking control system, comprising: network switching control means for transferring vehicle identification information and position information of a vehicle, wherein the vehicle management center grasps the position of the vehicle. 2. The mobile vehicle position tracking control system according to claim 1, wherein when the on-board terminal device can communicate with a beacon access network, position information input from the beacon access network and position information obtained from the GPS unit. And a position identification means for identifying a position based on both of them is provided in the in-vehicle terminal device. 3. The mobile vehicle position tracking control system according to claim 1, wherein said mobile telephone communication control means transmits said mobile telephone communication control means to said mobile telephone access network when said on-vehicle terminal device can communicate with a mobile telephone access network. Against the GP
A moving vehicle position tracking control system, wherein the position information obtained by the S unit is transferred. 4. The mobile vehicle position tracking control system according to claim 3, wherein when the in-vehicle terminal device can communicate with a mobile phone access network, the transfer of the location information from the in-vehicle terminal device to the mobile phone access network is performed. A mobile vehicle position tracking control system, wherein a signal indicating confirmation of position information is transmitted from the mobile telephone access network to the in-vehicle terminal device in response. 5. The mobile vehicle position tracking control system according to claim 1, wherein when the on-board terminal device can communicate with a satellite communication access network, the transfer of the position information from the on-board terminal device to the satellite communication access network is performed. A mobile vehicle position tracking control system, wherein a signal indicating confirmation of position information is transmitted from the satellite communication access network to the on-vehicle terminal device in response.