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Global path planning for autonomous ship: A hybrid approach of Fast Marching Square and velocity obstacles methods

Pengfei Chen, Yamin Huang, Eleonora Papadimitriou, Junmin Mou, Pieter van Gelder

2020Ocean Engineering114 citationsDOIOpen Access PDF

Abstract

In this research, a hybrid approach for global path planning for Maritime Autonomous Surface Ship (MASS) is proposed, which generates the shortest path considering the collision risk and the proximity between path and obstacles. The collision risk concerning obstacles is obtained using Time-Varying Collision Risk (TCR) concept, taking into account the velocity constraint of the ship that can achieve during operation. The influence of proximity from obstacles is measured with the Fast Marching (FM) algorithm. A new cost function is proposed allowing to combine the influence of obstacle proximity and collision risk in the region. Finally, the Fast Marching Square algorithm is applied to generate the globally optimal path that can reach the pre-set destination. The contribution of this work is two-fold: 1) considering the velocity constraint of the own ship, together with its influences of collision risk into the global path planning stage of autonomous navigation. 2) measuring the collision risk induced by the obstacles from their comprehensive influences on the achievable velocity range using TCR concept, instead of numerical integration of risk measurement. The results of the case study indicate that the proposed approach can find an optimal path considering the collision risk and proximity from the obstacles.

Topics & Concepts

CollisionMotion planningObstaclePath (computing)Constraint (computer-aided design)Mathematical optimizationPath lengthComputer scienceCollision avoidanceSquare (algebra)Range (aeronautics)Set (abstract data type)Control theory (sociology)SimulationMathematicsEngineeringArtificial intelligenceAerospace engineeringGeometryGeographyComputer networkProgramming languageComputer securityControl (management)RobotArchaeologyMaritime Navigation and SafetyRobotic Path Planning AlgorithmsShip Hydrodynamics and Maneuverability
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