JPH11144100A - Device and method for radio transmission and reception - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce power consumption of a radio transmitter/receiver, to prolong its service life, and to decrease its fault probability. SOLUTION: This device has a position information storage device 1 which stores position information on toll gates on a toll road, a receiver 2 for GPS which receives a signal from an artificial satellite for GPS, specifies a current position, and generates a current position signal, a toll gate distance detecting device 3 which compares the current position signal with position information of the position information storage device 1 to detect the toll gate closest to the vehicle and detects the distance between this toll gate and the vehicle to detect whether or not the detected distance is less than a specific distance, a transmitter receiver 4 for an ETC system, a power source 5, and a power supply control unit 6. The power supply control unit 6 supplies electric power to the transmitter receiver 4 for ETC when detecting the detected distance being less than the specific distance, and stops supplying the electric power to the transmitter receiver 4 when detecting the detected distance being larger than the specific distance.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio transmitting / receiving apparatus and method, and more particularly to a radio transmitting / receiving apparatus and method in an automatic toll road toll system having a global positioning system.

[0002]

2. Description of the Related Art Recently, one of intelligent transportation systems has been developed.
As a field, an automatic toll road system (Electronic Toll Collection: hereinafter abbreviated as ETC system) for automating toll collection on toll roads has been proposed. The realization of this ETC system is also planned in Japan as soon as possible. References (NEC Technical Report Vol.50 No.7 1997 P38-P43) include ET
An example of the C system is introduced. Separately, the Global Positioning System (Global Positioning System:
A car navigation system using GPS (hereinafter abbreviated as GPS) has already been put into practical use and has been widely used. In the near future, it is expected that these will be integrated as in-vehicle information terminal devices over time (see NEC Technical Report Vo
1, 50 No. 7 1997 P92-P116).

In a conventional ETC system, a signal from a tollgate roadside system must be received by an ETC system transceiver in order to automatically detect that a tollgate is approaching. The receiving operation must be performed regularly and frequently. This is because it is considered that it is inappropriate for an automatic toll system to operate the power supply of the transceiver for the ETC system by manually determining the approach of the tollgate by a human and manually operating the power supply of the transceiver for the ETC system. It is because the degree increases.

[0004]

However, in the conventional transceiver for the ETC system, the receiving operation must be performed constantly or intermittently and frequently except for a predetermined operation at the toll booth. , The life of the device is shortened, and the probability of failure increases.

It is an object of the present invention to provide a radio transmitting and receiving apparatus and method which have low power consumption, long apparatus life, and low failure probability.

[0006]

According to a first aspect of the present invention, there is provided a tollgate detecting means for detecting a tollgate on a toll road closest to a vehicle on a toll road, Distance detecting means for detecting the distance between the tollgate and the vehicle detected by the detecting means and detecting whether or not the detected distance is equal to or less than a predetermined distance; and Power supply means for supplying power to the transceiver for the toll road automatic toll system when detecting that the toll road automatic toll system is detected when the distance detection means detects that the detection distance is equal to or greater than a predetermined distance. And a power cutoff means for cutting off power supply to the system transceiver.

A second aspect of the present invention is a tollgate detecting means for detecting a tollgate on a toll road closest to a vehicle on a toll road, and the tollgate detected by the tollgate detecting means and the vehicle. Distance detecting means for detecting whether the detected distance is equal to or less than a predetermined distance, and an automatic toll road when the distance detecting means detects that the detected distance is equal to or less than a predetermined distance. Power supply means for supplying power to the system transceiver; charging operation end detection means for detecting that charging operation at the tollgate detected by the tollgate detection means has been completed; and charging operation end detection means. Power cutoff means for cutting off power supply to the transceiver for the toll road automatic toll system when detecting that charging operation at the tollgate is completed. .

[0008] A third aspect of the present invention is a position information storage device for storing position information of a tollgate on a toll road capable of using an automatic toll road toll system, and an artificial toll system for a global positioning system. A global positioning system receiver for receiving a signal from a satellite to determine a current position and generating a current position signal, and a current position signal and the position information storage device from the global positioning system receiver Comparing the location information with the toll road toll road closest to the vehicle on the toll road and detecting the distance between the toll gate and the vehicle to determine whether the detected distance is less than or equal to a predetermined distance. A tollgate distance detection device to be detected, a toll road automatic toll system transceiver, a power supply, and a power supply connected to the tollgate distance detection device, the toll road automatic toll system transceiver, and the power source The power supply control device, when the tollgate distance detection device detects that the detection distance is less than or equal to a predetermined distance, to supply power to the toll road automatic toll system transceiver, In addition, when the tollgate distance detecting device detects that the detected distance is equal to or longer than a predetermined distance, power supply to the transceiver for the toll road automatic toll system is cut off.

A fourth aspect of the present invention is a position information storage device for storing position information of a tollgate on a toll road which can use an automatic toll road system, and an artificial information storage device for a global positioning system. A global positioning system receiver for receiving a signal from a satellite to determine a current position and generating a current position signal, and a current position signal and the position information storage device from the global positioning system receiver Comparing the location information with the toll road toll road closest to the vehicle on the toll road and detecting the distance between the toll gate and the vehicle to determine whether the detected distance is less than or equal to a predetermined distance. A tollgate distance detecting device to be detected, a transceiver for a toll road automatic toll system, a power supply, and a charging operation end detecting that charging operation at the tollgate detected by the tollgate distance detecting device is completed. A power supply control device connected to the tollgate distance detection device, the toll road automatic toll system transceiver, the power supply, and the charging operation end detection device; Supplies power to the toll road automatic toll system transceiver when the tollgate distance detecting device detects that the detected distance is equal to or less than a predetermined distance, and the charging operation end detecting device detects The power supply to the transceiver for the toll road automatic toll system is cut off when it is detected that the charging operation in the above is completed.

According to a fifth aspect of the present invention, a tollgate detecting step for detecting a tollgate on a toll road closest to a vehicle on a toll road, and the tollgate and the vehicle detected by the tollgate detecting step are detected. And a distance detecting step of detecting whether or not the detected distance is equal to or less than a predetermined distance, and an automatic toll road when detecting that the detected distance is equal to or less than a predetermined distance in the distance detecting step. A power supply step for supplying power to the system transceiver; and a power supply shutoff for cutting off power supply to the toll road automatic toll system transceiver when the detected distance is detected to be greater than or equal to a predetermined distance in the distance detection step. And a step.

According to a sixth aspect of the present invention, there is provided a tollgate detecting step for detecting a tollgate on a toll road closest to a vehicle on a toll road, and the tollgate and the vehicle detected by the tollgate detecting step. And a distance detecting step of detecting whether or not the detected distance is equal to or less than a predetermined distance, and an automatic toll road when detecting that the detected distance is equal to or less than a predetermined distance in the distance detecting step. A power supply step of supplying power to the system transceiver; a charging operation end detecting step of detecting that charging operation at the tollgate detected by the tollgate detecting step is completed; and a charging operation end detecting step. When it is detected that the charging operation at the tollgate has been completed, power is supplied to the transceiver for the toll road automatic toll system. And having a power-off step of the cross-sectional.

[0012]

Next, embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 shows a wireless transmitting / receiving apparatus according to a first embodiment of the present invention. This wireless transmitting / receiving device includes a position information storage device 1, a GPS receiver 2, a tollgate distance detecting device 3, an ETC system transceiver 4,
It has a power supply 5 and a power supply control device 6. The position information storage device 1 and the GPS receiver 2 are connected to a tollgate distance detection device 3. Tollgate distance detector 3 and ETC
The system transceiver 4 and the power supply 5 are connected to a power supply control device 6. The wireless transmission / reception device is mounted on a vehicle.

The position information storage device 1 stores in advance position information of a tollgate on a toll road to which an automatic toll road toll system can be used. The GPS receiver 2
Receives a signal from a GPS artificial satellite, specifies the current position, and generates a current position signal. The tollgate distance detection device 3 compares the current position signal from the GPS receiver 2 with the position information in the position information storage device 1 to detect a tollgate on the toll road closest to the vehicle on the toll road. The distance between the tollgate and the vehicle is detected to determine whether the detected distance is less than or equal to a predetermined distance.

The power supply control device 6 automatically connects the power supply 5 to the ETC system transceiver 4 when the tollgate distance detection device 3 detects that the detection distance is equal to or less than the predetermined distance, and automatically supplies power. When the tollgate distance detecting device 3 detects that the detected distance is equal to or longer than a predetermined distance, the power supply 5 is separated from the ETC system transceiver 4 to automatically supply power to the ETC system transceiver 4. Shut off.

Next, a second embodiment of the present invention will be described with reference to FIG. FIG. 2 shows a wireless transmitting and receiving apparatus according to a second embodiment of the present invention. This wireless transmission / reception device is obtained by adding a charging operation end detection device 7 to the wireless transmission / reception device of FIG. That is, the wireless transmission / reception device of FIG. 2 includes a position information storage device 1, a GPS receiver 2, a tollgate distance detection device 3, an ETC system transceiver 4,
It has a power supply 5, a power supply control device 6, and a charging operation end detection device 7. The wireless transmission / reception device of FIG. 2 is also mounted on a vehicle.

The charging operation end detecting device 7 is connected to the transceiver 4 for the ETC system and the power supply control device 6. When the predetermined charging operation is completed, the ETC system transceiver 4 gives the charging operation end information indicating this to the charging operation end detecting device 7. The charging operation end detecting device 7 generates a power cutoff instruction signal when receiving the charging operation end information, and gives it to the power supply control device 6. In this case, the power supply control device 6 supplies power in the same manner as described above, and does not charge when the tollgate distance detecting device 3 detects that the detected distance is longer than a predetermined distance. When receiving a power cut-off instruction signal from the operation end detecting device 7, the power supply 5 is separated from the ETC system transceiver 4, and the power supply to the ETC system transceiver 4 is automatically cut off.

[0018]

According to the present invention, there is no need to receive a signal from a tollgate roadside system by an ETC transceiver as a means for automatically detecting that a tollgate is approaching.
Since the transceiver for the C system does not need to perform the receiving operation constantly or intermittently and frequently, the power consumption is reduced,
The device life can be prolonged and the failure probability can be reduced.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a wireless transmission / reception device according to a first embodiment of the present invention.

FIG. 2 is a block diagram illustrating a wireless transmission / reception device according to a second embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Location information storage device 2 GPS receiver 3 Tollgate distance detection device 4 ETC system transceiver 5 Power supply 6 Power supply control device 7 Charging operation end detection device

Claims (6)

[Claims] 1. A tollgate detecting means for detecting a tollgate on a toll road closest to a vehicle on a toll road, and detecting a distance between the tollgate and the vehicle detected by the tollgate detecting means to detect the tollgate. A distance detecting means for detecting whether or not the distance is equal to or less than a predetermined distance; and supplying power to the transceiver for the toll road automatic toll system when the distance detecting means detects that the detected distance is equal to or less than the predetermined distance. Power supply means, and power cutoff means for cutting off power supply to the toll road automatic toll system transceiver when the distance detection means detects that the detected distance is equal to or greater than a predetermined distance. Wireless transceiver. 2. A tollgate detecting means for detecting a tollgate on a toll road closest to a vehicle on a toll road, and detecting a distance between the tollgate and the vehicle detected by the tollgate detecting means to detect the tollgate. A distance detecting means for detecting whether or not the distance is equal to or less than a predetermined distance; and supplying power to the transceiver for the toll road automatic toll system when the distance detecting means detects that the detected distance is equal to or less than the predetermined distance. Power supply means, charging operation end detecting means for detecting that charging operation at the tollgate detected by the tollgate detecting means has ended, and the charging operation end detecting means has completed the charging operation at the tollgate. And a power cutoff means for cutting off the power supply to the transceiver for the toll road automatic toll system when detecting the fact. 3. A position information storage device that stores position information of a tollgate on a toll road that can use an automatic toll road system, and receives a signal from a satellite for a global positioning system, and A global positioning system receiver that specifies the position of and generates a current position signal, and compares the current position signal from the global positioning system receiver with the position information of the position information storage device. A tollgate distance detection device that detects a tollgate on a toll road closest to a vehicle on a toll road, detects a distance between the tollgate and the vehicle, and detects whether the detected distance is equal to or less than a predetermined distance. A toll road automatic toll system transceiver, a power supply, a power supply control device connected to the tollgate distance detecting device, the toll road automatic toll system transceiver and the power source, and The supply control device supplies power to the toll road automatic toll system transceiver when the tollgate distance detection device detects that the detection distance is equal to or less than a predetermined distance, and the tollgate distance detection device A wireless transmission / reception device, which shuts off power supply to the toll road automatic toll system transceiver when detecting that the detection distance is equal to or longer than a predetermined distance. 4. A position information storage device storing position information of a tollgate on a toll road capable of using an automatic toll road system, and receiving a signal from an artificial satellite for a global positioning system, and A global positioning system receiver that specifies the position of and generates a current position signal, and compares the current position signal from the global positioning system receiver with the position information of the position information storage device. A tollgate distance detection device that detects a tollgate on a toll road closest to a vehicle on a toll road, detects a distance between the tollgate and the vehicle, and detects whether the detected distance is equal to or less than a predetermined distance. A toll road automatic toll system transceiver, a power supply, a charging operation end detection device for detecting that charging operation at the tollgate detected by the tollgate distance detection device has been completed, and the tollgate distance A detecting device, a transceiver for the toll road automatic toll system, a power supply control device connected to the power supply and the charging operation end detecting device, wherein the power supply control device includes the tollgate distance detecting device. It supplies power to the transceiver for the toll road automatic toll system when it detects that the detection distance is less than or equal to a predetermined distance,
And a wireless transmission / reception device that shuts off power supply to the transceiver for the toll road automatic toll system when the charging operation end detection device detects that the charging operation at the tollgate has ended. 5. A tollgate detecting step of detecting a tollgate on a toll road closest to a vehicle on a toll road, and detecting a distance between the tollgate and the vehicle detected by the tollgate detecting step to detect the tollgate. A distance detecting step of detecting whether or not the distance is equal to or less than a predetermined distance; and supplying power to the transceiver for the toll road automatic toll system when detecting that the detected distance is equal to or less than the predetermined distance in the distance detecting step. A power supply step; and a power supply cutoff step of cutting off power supply to the transceiver for the toll road automatic toll system when the detected distance is detected to be equal to or longer than a predetermined distance in the distance detection step. Wireless transmission and reception method. 6. A tollgate detecting step of detecting a tollgate on a toll road closest to a vehicle on a toll road, and detecting a distance between the tollgate and the vehicle detected by the tollgate detecting step to detect the tollgate. A distance detecting step of detecting whether or not the distance is equal to or less than a predetermined distance; and supplying power to the transceiver for the toll road automatic toll system when detecting that the detected distance is equal to or less than the predetermined distance in the distance detecting step. A power supply step, a charging operation end detecting step for detecting that the charging operation at the tollgate detected by the tollgate detecting step has ended, and the charging operation at the tollgate has been completed in the charging operation end detecting step. Power-off step of shutting off power supply to the transceiver for the toll road automatic toll system when it is detected that A wireless transmission / reception method, comprising: