Collision avoidance system
First Claim
1. A collision avoidance system, comprising:
- a) a plurality of vehicle trigger sensors each associated with a roadway, each said vehicle trigger sensor capable of sensing at least one parameter of one or more vehicles;
b) a plurality of vehicle restrictors each associated with said roadway, each said restrictor comprising an elongate member disposed generally transverse to said roadway, each said restrictor capable of being actuated to raise or lower relative to said roadway surface to impede passage thereover of said vehicles; and
c) a controller programmed to determine the likelihood of a collision between any of said vehicles based on said vehicle parameters received from said trigger sensors, programmed to determine which of a selected one or more of said vehicles should be slowed or stopped to avoid said collision based on said vehicle parameters and based on local traffic laws, and programmed to determine at least one selected vehicle restrictor that is being approached by said selected vehicle, wherein said at least one selected vehicle restrictor is actuated by communication from said controller to impede the passage of said selected vehicle to avoid said collision.
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Abstract
The Collision Avoidance System prevents collisions between vehicles and vehicular collisions with pedestrians, trains, and stationary objects by monitoring, controlling, documenting, and reporting the speed and position of vehicles. The system guards against speeding violations, moving violations, and particular safety hazards by invoking a reduction of vehicle speed or by restricting vehicle movement to control its position. This is primarily accomplished with the activation of a controllable road perturbation. The system also monitors pedestrians, school bus loading/unloading, traffic density, trains, environmental conditions that may affect driving, and traffic control systems to determine the action to take for collision prevention. The capability to monitor various parameters that may indicate an impending collision or detect parameters that indicate that conditions are more favorable for a collision allows the system to monitor an entire traffic environment to anticipate and thus prevent those collisions. The system integrates and synchronizes with existing traffic control devices and systems to ensure that it reinforces the traffic laws and safety intent of the environment in which it is installed. Sensors detect the status of objects within the traffic environment including the location and speed of vehicles. A computer is used to determine if the vehicles are adhering to the traffic laws or other safety concerns. Alarms may accompany the system output to inform the operator what must be done to prevent a collision. Additional sensors and cameras document the identity of violating vehicles as well as any resulting collisions and report the information to predetermined authorities through a multiple-channel communications interface. Authorities can remotely alter system operations to compensate for changes in traffic or weather conditions that demands a change in driving behavior in order to maintain safe travel. The system also allows emergency vehicles to pass unimpeded through the traffic environment.
317 Citations
21 Claims
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1. A collision avoidance system, comprising:
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a) a plurality of vehicle trigger sensors each associated with a roadway, each said vehicle trigger sensor capable of sensing at least one parameter of one or more vehicles;
b) a plurality of vehicle restrictors each associated with said roadway, each said restrictor comprising an elongate member disposed generally transverse to said roadway, each said restrictor capable of being actuated to raise or lower relative to said roadway surface to impede passage thereover of said vehicles; and
c) a controller programmed to determine the likelihood of a collision between any of said vehicles based on said vehicle parameters received from said trigger sensors, programmed to determine which of a selected one or more of said vehicles should be slowed or stopped to avoid said collision based on said vehicle parameters and based on local traffic laws, and programmed to determine at least one selected vehicle restrictor that is being approached by said selected vehicle, wherein said at least one selected vehicle restrictor is actuated by communication from said controller to impede the passage of said selected vehicle to avoid said collision. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
a) a plurality of pedestrian trigger sensors each associated with said roadway, each said pedestrian trigger sensor capable of sensing at least one parameter of one or more pedestrians;
b) at least one alarm associated with said roadway to alert operators of said vehicles of an approaching pedestrian to avoid collision; and
c) said controller programmed to determine the likelihood of a collision between said pedestrian and any of said vehicles, and to select and activate said alarm and to select and activate said selected vehicle restrictor immediately in the path of said selected vehicle.
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12. The collision avoidance system of claim 11, wherein said pedestrian parameters comprise the presence, position, speed, or direction of the sensed pedestrian.
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13. The collision avoidance system of claim 11, wherein at least one alarm associated with said roadway alerts said pedestrians of an approaching vehicle to avoid collision.
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14. The collision avoidance system of claim 1, further comprising:
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a) a plurality of train trigger sensors each associated with said roadway, each said train trigger sensor capable of sensing at least one parameter of one or more trains;
b) a plurality of alarms associated with said roadway to alert operators of said vehicles of an approaching train to avoid collision; and
c) said controller programmed to determine the likelihood of a collision between said train and any of said vehicles, and to select and activate said alarm and to select and activate said selected vehicle restrictor immediately in the path of said selected vehicle.
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15. The collision avoidance system of claim 14, wherein said train parameters comprise the presence, position, speed, or direction of the sensed train.
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16. A method for collision avoidance, comprising:
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a) sensing parameters of a plurality of vehicles;
b) determining the likelihood of a collision involving any of said vehicles based on said vehicle parameters;
c) determining which of a selected one or more of said vehicles should be slowed or stopped to avoid said collision based on said vehicle parameters and local traffic laws;
d) determining at least one selected vehicle restrictor, of a plurality of vehicle restrictors in a roadway, that is being approached by said selected vehicle based on said vehicle parameters and said vehicle restrictor locations; and
e) actuating said selected vehicle restrictor to control the parameters of said selected vehicle to avoid said collision. - View Dependent Claims (17, 18, 19, 20, 21)
a) sensing parameters of at least one pedestrian;
b) determining the likelihood of a collision between said pedestrian and any of said vehicles; and
c) actuating at least one alarm to alert an operator of said vehicle of said approaching vehicle to avoid such a collision.
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19. The collision avoidance method of claim 18, wherein said pedestrian parameters comprise the presence, position, speed, or direction of the sensed pedestrian.
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20. The collision avoidance method of claim 16, further comprising:
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a) sensing parameters of at least one train;
b) determining the likelihood of a collision between said train and any of said vehicles;
c) actuating vehicle restrictors in a roadway to control the parameters of said vehicle to be slowed or stopped to avoid said collision; and
d) actuating at least one alarm to alert an operator of said vehicle of said approaching train to avoid such a collision.
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21. The collision avoidance method of claim 20, wherein said train parameters comprise the presence, position, speed, or direction of the sensed train.
Specification
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Current AssigneeBrett O. Hall
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Original AssigneeBrett O. Hall
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InventorsHall, Brett O.
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Primary Examiner(s)Zanelli, Michael J.
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Assistant Examiner(s)Gibson, Eric M
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Application NumberUS09/478,485Time in Patent Office474 DaysField of Search701/301, 701/117, 701/118, 701/119, 340/928, 340/933, 340/936, 404/15US Class Current701/301CPC Class CodesG08G 1/164 Centralised systems, e.g. e...
