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Tide-Inspired Path Planning Algorithm for Autonomous Vehicles

Heba Kurdi, Shaden Almuhalhel, Hebah ElGibreen, Hajar Qahmash, Bayan Albatati, Lubna Al-Salem, Ghada Almoaiqel

2021Remote Sensing14 citationsDOIOpen Access PDF

Abstract

With the extensive developments in autonomous vehicles (AV) and the increase of interest in artificial intelligence (AI), path planning is becoming a focal area of research. However, path planning is an NP-hard problem and its execution time and complexity are major concerns when searching for optimal solutions. Thus, the optimal trade-off between the shortest path and computing resources must be found. This paper introduces a path planning algorithm, tide path planning (TPP), which is inspired by the natural tide phenomenon. The idea of the gravitational attraction between the Earth and the Moon is adopted to avoid searching blocked routes and to find a shortest path. Benchmarking the performance of the proposed algorithm against rival path planning algorithms, such as A*, breadth-first search (BFS), Dijkstra, and genetic algorithms (GA), revealed that the proposed TPP algorithm succeeded in finding a shortest path while visiting the least number of cells and showed the fastest execution time under different settings of environment size and obstacle ratios.

Topics & Concepts

Shortest path problemMotion planningDijkstra's algorithmYen's algorithmPath (computing)Computer scienceAny-angle path planningObstacleAlgorithmK shortest path routingGenetic algorithmMathematical optimizationFast pathBenchmarkingPath lengthShortest Path Faster AlgorithmArtificial intelligenceGraphTheoretical computer scienceMathematicsMachine learningGeographyRobotBusinessArchaeologyComputer networkProgramming languageMarketingRobotic Path Planning AlgorithmsRobotics and Sensor-Based LocalizationAutonomous Vehicle Technology and Safety