257 research outputs found
COLREGs-Informed RRT* for Collision Avoidance of Marine Crafts
The paper proposes novel sampling strategies to compute the optimal path
alteration of a surface vessel sailing in close quarters. Such strategy
directly encodes the rules for safe navigation at sea, by exploiting the
concept of minimal ship domain to determine the compliant region where the path
deviation is to be generated. The sampling strategy is integrated within the
optimal rapidly-exploring random tree algorithm, which minimizes the length of
the path deviation. Further, the feasibility of the path with respect to the
steering characteristics of own ship is verified by ensuring that the position
of the new waypoints respects the minimum turning radius of the vessel. The
proposed sampling strategy brings a significant performance improvement both in
terms of optimal cost, computational speed and convergence rate.Comment: Accepted for publication at ICRA'2
Line-of-Sight Path Following for Dubins Paths with Adaptive Sideslip Compensation of Drift Forces
This is the author’s final, accepted and refereed manuscript to the article.We present a nonlinear adaptive path-following controller that compensates for drift forces through vehicle sideslip. Vehicle sideslip arises during path following when the vehicle is subject to drift forces caused by ocean currents, wind and waves. The proposed algorithm is motivated by a lineof-sight (LOS) guidance principle used by ancient navigators, which is here extended to path following of Dubins paths. The unknown sideslip angle is treated as a constant parameter, which is estimated using an adaptation law. The equilibrium points of the cross-track and parameter estimation errors are proven to be uniformly semiglobally exponentially stable (USGES). This guarantees that the estimated sideslip angle converges to its true value exponentially. The adaptive control law is in fact an integral LOS controller for path following since the parameter adaptation law provides integral action. The proposed guidance law is intended for maneuvering in the horizontal-plane at given speeds and typical applications are marine craft, autonomous underwater vehicles (AUVs), unmanned aerial vehicles (UAVs) as well as other vehicles and craft where the goal is to follow a predefined parametrized curve without time constraints. Two vehicle cases studies are included to verify the theoretical results.http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6868251 "(c) 2014 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other users, including reprinting/ republishing this material for advertising or promotional purposes, creating new collective works for resale or redistribution to servers or lists, or reuse of any copyrighted components of this work in other works.
Smart Sensor Based Obstacle Detection for High-Speed Unmanned Surface Vehicle
This paper describes an obstacle detection system for a high-speed and agile unmanned surface vehicle (USV), running at speeds up to 30m/s. The aim is a real-time and high performance obstacle detection system using both radar and vision technologies to detect obstacles within a range of 175 m. A computer vision horizon detector enables a highly accurate attitude estimation despite large and sudden vehicle accelerations. This further facilitates the reduction of sea clutter by utilising a attitude based statistical measure. Full scale sea trials show a significant increase in obstacle tracking performance using sensor fusion of radar and computer vision
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