Litcius/Paper detail

A Homotopy Invariant Based on Convex Dissection Topology and a Distance Optimal Path Planning Algorithm

Jinyuan Liu, Minglei Fu, Andong Liu, Wen‐An Zhang, Bo Chen

2023IEEE Robotics and Automation Letters15 citationsDOI

Abstract

The concept of path homotopy has received widely attention in the field of path planning in recent years. In this letter, a homotopy invariant based on convex dissection for a two-dimensional bounded Euclidean space is developed, which can efficiently encode all homotopy path classes between any two points. Thereafter, the optimal path planning task consists of two steps: (i) search for the homotopy path class that may contain the optimal path, and (ii) obtain the shortest homotopy path in this class. Furthermore, an optimal path planning algorithm called CDT-RRT* (Rapidly-exploring Random Tree Star based on Convex Division Topology) is proposed. We designed an efficient sampling formula for CDT-RRT*, which gives it a tendency to actively explore unknown homotopy classes, and incorporated the principles of the Elastic Band algorithm to obtain the shortest path in each class. Through a series of experiments, it was determined that the performance of the proposed algorithm is comparable with state-of-the-art path planning algorithms. Hence, the application significance of the developed homotopy invariant in the field of path planning was verified.

Topics & Concepts

Any-angle path planningHomotopyMathematicsShortest path problemWidest path problemMotion planningYen's algorithmPath (computing)K shortest path routingTopology (electrical circuits)AlgorithmMathematical optimizationComputer scienceDiscrete mathematicsCombinatoricsGraphArtificial intelligencePure mathematicsDijkstra's algorithmRobotProgramming languageAutomated Road and Building ExtractionGroundwater and Watershed AnalysisRobotic Path Planning Algorithms
A Homotopy Invariant Based on Convex Dissection Topology and a Distance Optimal Path Planning Algorithm | Litcius