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A Hierarchical Motion Planning Method for Mobile Manipulator

Hanlin Chen, Xizhe Zang, Yubin Liu, Xuehe Zhang, Jie Zhao

2023Sensors11 citationsDOIOpen Access PDF

Abstract

This paper focuses on motion planning for mobile manipulators, which includes planning for both the mobile base and the manipulator. A hierarchical motion planner is proposed that allows the manipulator to change its configuration autonomously in real time as needed. The planner has two levels: global planning for the mobile base in two dimensions and local planning for both the mobile base and the manipulator in three dimensions. The planner first generates a path for the mobile base using an optimized A* algorithm. As the mobile base moves along the path with the manipulator configuration unchanged, potential collisions between the manipulator and the environment are checked using the environment data obtained from the on-board sensors. If the current manipulator configuration is in a potential collision, a new manipulator configuration is searched. A sampling-based heuristic algorithm is used to effectively find a collision-free configuration for the manipulator. The experimental results in simulation environments proved that our heuristic sampling-based algorithm outperforms the conservative random sampling-based method in terms of computation time, percentage of successful attempts, and the quality of the generated configuration. Compared with traditional methods, our motion planning method could deal with 3D obstacles, avoid large memory requirements, and does not require a long time to generate a global plan.

Topics & Concepts

Motion planningMobile manipulatorHeuristicPath (computing)Computer scienceBase (topology)ComputationMobile robotMotion (physics)SimulationReal-time computingRobotAlgorithmArtificial intelligenceMathematicsProgramming languageMathematical analysisRobotic Path Planning AlgorithmsRobotics and Sensor-Based LocalizationModular Robots and Swarm Intelligence
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