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An Efficient and Adaptable Path Planning Algorithm for Automated Fiber Placement Based on Meshing and Multi Guidelines

Hong Xiao, Wei Han, Wenbin Tang, Yugang Duan

2020Materials14 citationsDOIOpen Access PDF

Abstract

Path planning algorithms for automated fiber placement are used to determine the directions of the fiber paths and the start and end positions on the mold surfaces. The quality of the fiber paths determines largely the efficiency and quality of the automated fiber placement process. The presented work investigated an efficient path planning algorithm based on surface meshing. In addition, an update method of the datum direction vector via a guide-line update strategy was proposed to make the path planning algorithm applicable for complex surfaces. Finally, accuracy analysis was performed on the proposed algorithm and it can be adopted as the reference for the triangulation parameter selection for the path planning algorithm.

Topics & Concepts

Motion planningGeodetic datumComputer sciencePath (computing)AlgorithmFiberTriangulationProcess (computing)Any-angle path planningArtificial intelligenceMathematicsMaterials scienceRobotComposite materialOperating systemCartographyGeographyProgramming languageGeometryAdvanced Numerical Analysis TechniquesRobotic Path Planning AlgorithmsComputational Geometry and Mesh Generation
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