Adaptive Path Planning for Unmanned Planetary Rover with Dynamic Obstacle

2019 IEEE International Conference on Unmanned Systems (ICUS) Pub Date : 2019-10-01 DOI:10.1109/ICUS48101.2019.8996050
Zhang Wenyuan, Guo Jifeng, Bai Chengchao
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Abstract

More and more wheeled planetary probes have been applied to exploration missions in order to realize the exploration of extraterrestrial planets. In order to ensure the ability to perform tasks in complex environments, planetary vehicles need the ability of autonomous path planning and obstacle avoidance. In this paper, RRT* and dynamic window approach are combined to complete autonomous path planning and dynamic obstacle avoidance under the dynamic environment with some prior map information. The simulation and physical verification under ROS development platform and Jackal unmanned vehicle platform are realized. It provides ideas for path planning and obstacle avoidance of unmanned planetary vehicles in static and dynamic environments.
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具有动态障碍物的无人行星漫游车自适应路径规划
为了实现对地外行星的探测,越来越多的轮式行星探测器被应用于探测任务中。为了保证行星车辆在复杂环境下执行任务的能力,行星车辆需要具有自主路径规划和避障能力。本文将RRT*与动态窗口法相结合,利用一定的先验地图信息完成动态环境下的自主路径规划和动态避障。在ROS开发平台和Jackal无人驾驶平台下实现了仿真和物理验证。为行星无人车在静态和动态环境下的路径规划和避障提供了思路。
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2019 IEEE International Conference on Unmanned Systems (ICUS)
2019 IEEE International Conference on Unmanned Systems (ICUS)
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