Robot vehicle guidance system including checkpoint realignment system
First Claim
1. In a guidance system for a robot vehicle, includingrelative motion sensor means for initially detecting the relative motion of said vehicle with respect to its environment along a pre-selected guidepath between a start position and a finish position and for generating signals representing learned behavior in the form of initial vehicle-guidepath relative motion information,memory means for storing said initial relative motion information,means for recalling said initial relative motion information and converting said information to vehicle guidance signals,propulsion means responsive to said guidance signals, to cause said vehicle to repeat the learned behavior embodied in said stored initial vehicle-guidepath relative motion information,the improvements in said guidance system which enable said robot to move from the start position to the finish position without reliance on a pre-selected guidepath therebetween and without compounding anomalous guidance errors induced by extraneous environmental effects, said improvements comprising, in combination with said guidance system:
- (a) means for initially identifying environmental checkpoints and locating each of these checkpoints in relation to at least certain other environmental checkpoints and for initially establishing the orientation of said vehicle with respect to said checkpoints;
(b) means for storing said initial vehicle-checkpoint orientation information;
(c) means for recalling said initial vehicle-checkpoint orientation information in later operations of the vehicle within said environment;
(d) means for sensing actual vehicle-checkpoint orientation during said later operations and for comparing said actual orientation information with said recalled orientation information and generating vehicle-checkpoint realignment signals; and
(e) propulsion means responsive to(i) said relative motion guidance signals for intermediate navigation of said vehicle between said checkpoints, and(ii) said vehicle-checkpoint realignment signals to realign said vehicle with respect to said checkpoints to said initial alignment, to guide said vehicle from said start position to said finish position.
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Accused Products
Abstract
Robot vehicle guidance systems of the type which employ relative motion sensors to establish learned movement behavior along a pre-selected guidepath are improved by combining such relative motion programmed devices with apparatus for initially identifying environmental checkpoints and initially establishing the orientation of the vehicle with respect to the checkpoints. The propulsion system for the robot is responsive to both the relative motion guidance signals (for intermediate navigation between the checkpoints) and to the vehicle-checkpoint alignment information (to realign the vehicle with respect to the checkpoints). The robot vehicle is guided from the start to the finish position without reliance on a pre-selected guidepath and without compounding anomalous guidance errors induced by extraneous environmental effects.
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Citations
1 Claim
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1. In a guidance system for a robot vehicle, including
relative motion sensor means for initially detecting the relative motion of said vehicle with respect to its environment along a pre-selected guidepath between a start position and a finish position and for generating signals representing learned behavior in the form of initial vehicle-guidepath relative motion information, memory means for storing said initial relative motion information, means for recalling said initial relative motion information and converting said information to vehicle guidance signals, propulsion means responsive to said guidance signals, to cause said vehicle to repeat the learned behavior embodied in said stored initial vehicle-guidepath relative motion information, the improvements in said guidance system which enable said robot to move from the start position to the finish position without reliance on a pre-selected guidepath therebetween and without compounding anomalous guidance errors induced by extraneous environmental effects, said improvements comprising, in combination with said guidance system: -
(a) means for initially identifying environmental checkpoints and locating each of these checkpoints in relation to at least certain other environmental checkpoints and for initially establishing the orientation of said vehicle with respect to said checkpoints; (b) means for storing said initial vehicle-checkpoint orientation information; (c) means for recalling said initial vehicle-checkpoint orientation information in later operations of the vehicle within said environment; (d) means for sensing actual vehicle-checkpoint orientation during said later operations and for comparing said actual orientation information with said recalled orientation information and generating vehicle-checkpoint realignment signals; and (e) propulsion means responsive to (i) said relative motion guidance signals for intermediate navigation of said vehicle between said checkpoints, and (ii) said vehicle-checkpoint realignment signals to realign said vehicle with respect to said checkpoints to said initial alignment, to guide said vehicle from said start position to said finish position.
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Specification