Toll collection system and its communication method
First Claim
1. A toll collection system communication method which charges a car passing through a communication area in a tollgate without a stop, by radio communication between a roadside antenna in the tollgate and a vehicle-mounted antenna in the car, the method comprising the steps of:
- detecting a car passing through a detection area including a communication area and a given area just before the communication area;
calculating, when a car is present in the communication area, a plurality of electromagnetic wave beam paths of direct and reflected waves which connect the roadside antenna and the vehicle-mounted antenna;
selecting a radiation direction of the wave beam paths whose communication sensitivity is the highest among the wave beam paths as radiation direction 1;
defining the radiation direction of the wave beam paths other than the beam paths in the radiation direction 1 to cars outside the communication area as radiation direction 2; and
controlling a directional pattern of the roadside antenna so that the intensity of the beam in the radiation direction 1 is over a first intensity, and that of the beam in the radiation direction 2 is below a second intensity of an intensity which disables communication.
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Accused Products
Abstract
An electronic toll collection system (ETCS) for use in a tollgate for charging a car without the need for the car to stop, in which communication failures or errors due to reflected waves from a structure or a passing car are prevented. A roadside communication antenna which communicates with a vehicle-mounted communication antenna for charging, and a car sensor which detects a car (cars) in an area wider than a designed communication area are installed at the tollgate. As an electromagnetic wave path judgment section obtains data on the profile and position of a car which has entered the tollgate, from a car data detector, it calculates electromagnetic wave paths of direct and reflected waves which connect the roadside communication antenna 21 and the vehicle-mounted antenna in each of the cars, and calculates the receiving electric field strength for each of the paths. The direction of the path which has the highest field strength among the paths to the car in the communication area is selected as radiation direction and the direction of the other paths as radiation direction; then the directional pattern which makes the radiant intensity in radiation direction the maximum and that in radiation direction null is determined to control the radiation direction of the antenna unit through a directivity controller.
31 Citations
14 Claims
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1. A toll collection system communication method which charges a car passing through a communication area in a tollgate without a stop, by radio communication between a roadside antenna in the tollgate and a vehicle-mounted antenna in the car, the method comprising the steps of:
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detecting a car passing through a detection area including a communication area and a given area just before the communication area;
calculating, when a car is present in the communication area, a plurality of electromagnetic wave beam paths of direct and reflected waves which connect the roadside antenna and the vehicle-mounted antenna;
selecting a radiation direction of the wave beam paths whose communication sensitivity is the highest among the wave beam paths as radiation direction 1;
defining the radiation direction of the wave beam paths other than the beam paths in the radiation direction 1 to cars outside the communication area as radiation direction 2; and
controlling a directional pattern of the roadside antenna so that the intensity of the beam in the radiation direction 1 is over a first intensity, and that of the beam in the radiation direction 2 is below a second intensity of an intensity which disables communication. - View Dependent Claims (2, 3, 4, 5)
calculating, when two or more cars are detected in the detection area, a plurality of wave beam paths of direct and indirect waves for the respective cars; and
selecting all wave beam paths other than the wave beam paths to the cars outside the communication area as ones for the radiation direction 2.
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3. The toll collection system communication method according to claim 1, further comprising:
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obtaining data regarding a car profile of the detected car in the detection area; and
calculating the wave beam paths by reference to car reflecting surface data for the car profile concerned and reflecting syrface data for the tollgate.
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4. The toll collection system communication method according to claim 1, wherein the process of calculating the wave beam paths begins when a car enters the communication area.
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5. The collection system communication method according to claim 1, wherein if no radio communication with a car which enters the communication area is established, the car is considered as not having a proper vehicle-mounted antenna.
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6. A toll collection system comprising:
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a car sensor for detection of a car in a given area including a designed communication area at a tollgate; and
roadside communication antenna equipment having a roadside antenna and a directional pattern controller for changing its directional pattern, wherein charging is performed by radio communication between the roadside antenna and a vehicle-mounted antenna in an entering car without a stop, the system further comprising;
an electromagnetic wave path judgement section;
for calculating wave beam paths between the roadside antenna and the vehicle-mounted antenna according to data regarding a structure of the tollgate, a car profile and car position detected by the car sensor, and for selecting a radiation direction of the wave beam paths whose communication sensitivity is the highest among the wave beam paths as a radiation direction 1, and selecting all wave beam paths other than the wave beam paths to cars outside the communication area as the wave beam paths in a radiation direction 2 of disabled communication. - View Dependent Claims (7, 8, 9, 10, 11, 12, 13)
the car sensor is provided with a TV camera and images taken by the camera are processed to determine the profile of the car. -
8. The toll collection system according to claim 6, further comprising:
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a storage for storing gate reflecting surface data based on the structure of the tollgate and different types of car reflecting surface data for different vehicle profiles, wherein the electromagnetic path judgment sections obtains, from the storage, the gate reflecting surface data and the car reflecting surface data corresponding to the detected car profile, to calculate both a path of a direct wave between the roadside antenna and the vehicle-mounted antenna and a plurality of wave beam paths of reflected waves.
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9. The toll collection system according to claim 6, comprising:
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a storage for storing pre-calculated wave beam paths concerning a plurality car profiles, wherein the electromagnetic wave beam path judgment ssection obtains, from the storage, precalculated wave beam paths appropriate to the profiles.
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10. The toll collection system according to claim 6, wherein
the electromagnetic wave path judgement section: -
calculates the radiant intensities of the plurality of wave beam paths selects a radiation direction of the wave beam paths which has the highest radiant intensity as radiation direction 1, and determines a directional pattern which enables communication in the radiation direction 1 only.
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11. The toll collection system according to claim 10, further comprising:
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a storage for storing pre-calculated directional patterns as a plurality of combinations of variations of the radiation directions 1 and 2, wherein the electromagnetic wave path judgment section obtains a directional pattern appropriate to the selected radiation directions 1 and 2 from the storage.
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12. The toll collection system according to claim 6, wherein
the roadside antenna is an array antenna having a plurality of antenna elements, and the directional pattern is changed by controlling the amplitude and phase of power fed to the array elements. -
13. The toll collection system according to claim 6, wherein:
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the roadside antenna is an antenna unit which has a plurality of selectable pencil beam antennas arranged so as to emit beams in different directions, and the directional pattern is changed by selecting the pencil beam antenna whose radiation direction is nearest to the radiation direction of the prioritized wave beam path.
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14. A toll collection system communication method which charges a car passing through a communication area in a tollgate, by radio communication between a roadside antenna in the tollgate and a vehicle-mounted antenna in the car, the method comprising the steps of:
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detecting a car passing through a detection area including the communication area and a given area just before the communication area;
calculating, when a car is present in the communication area, a plurality of electromagnetic wave beam paths of direct and reflected waves which connect the roadside antenna and the vehicle-mounted antenna;
calculating, when two or more cars in the detection area are detected, a plurality of the wave beam paths for the respective cars;
selecting a radiation direction of the wave beam paths whose communication sensitivity is the highest among the wave beam paths as radiation direction 1; and
selecting the radiation of all wave beam paths other than the wave beam paths to the cars outside the communication area as a radiation direction 2 of disabled communication.
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Specification