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Predictive navigation of an autonomous vehicle with nonholonomic and minimum turning radius constraints Augie Widyotriatmo
The Journal of Mechanical Science and Technology, vol. 23, no. 2, pp.381-388, 2009
Abstract : A key feature of an autonomous vehicle is the ability to re-plan its motion from a starting configuration (position and
orientation) to a goal configuration while avoiding obstacles. Moreover, it should react robustly to uncertainties
throughout its maneuvers. We present a predictive approach for autonomous navigation that incorporates the shortest
path, obstacle avoidance, and uncertainties in sensors and actuators. A car-like robot is considered as the autonomous
vehicle with nonholonomic and minimum turning radius constraints. The results (arcs and line segments) from a shortest-
path planner are used as a reference to find action sequence candidates. The vehicle¡¯s states and their corresponding
probability distributions are predicted to determine a future reward value for each action sequence candidate. Finally,
an optimal action policy is calculated by maximizing an objective function. Through simulations, the proposed method
demonstrates the capability of avoiding obstacles as well as of approaching a goal. The regenerated path will incorporate
uncertainty information.
Keyword :
Motion planning; Nonholonomic constraint; Obstacle avoidance; Uncertainties
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