Litcius/Paper detail

Path Planning in Localization Uncertaining Environment Based on Dijkstra Method

Can Wang, Chensheng Cheng, Dianyu Yang, Guang Pan, Feihu Zhang

2022Frontiers in Neurorobotics41 citationsDOIOpen Access PDF

Abstract

Path planning obtains the trajectory from one point to another with the robot's kinematics model and environment understanding. However, as the localization uncertainty through the odometry sensors is inevitably affected, the position of the moving path will deviate further and further compared to the original path, which leads to path drift in GPS denied environments. This article proposes a novel path planning algorithm based on Dijkstra to address such issues. By combining statistical characteristics of localization error caused by dead-reckoning, the replanned path with minimum cumulative error is generated with uniforming distribution in the searching space. The simulation verifies the effectiveness of the proposed algorithm. In a real scenario with measurement noise, the results of the proposed algorithm effectively reduce cumulative error compared to the results of the conventional planning algorithm.

Topics & Concepts

Computer scienceOdometryMotion planningDijkstra's algorithmPath (computing)Dead reckoningProbabilistic roadmapTrajectoryAlgorithmMobile robotGlobal Positioning SystemArtificial intelligenceRobotReal-time computingShortest path problemGraphTheoretical computer sciencePhysicsAstronomyProgramming languageTelecommunicationsRobotics and Sensor-Based LocalizationRobotic Path Planning AlgorithmsUnderwater Vehicles and Communication Systems