基于谐波函数的基于传感器的机器人路径规划

ICAR '05. Proceedings., 12th International Conference on Advanced Robotics, 2005. Pub Date : 2005-07-18 DOI:10.1109/ICAR.2005.1507395

M. Kazemi, M. Mehrandezh, K. Gupta

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引用次数: 13

摘要

针对未知环境下的移动机器人导航问题，提出了一种新的基于传感器的机器人运动规划框架。所提出的规划方法的主要思想，受到我们最近在已知环境(基于模型的情况)中使用基于谐波函数的概率路线图(HFPRM)进行机器人导航的工作的启发(Kazemi等人，2004,2005)，是在基于传感器的概率路线图(PRM)的扫描规划阶段利用基于潜在流的流体动力学(FD)范式来识别和优先考虑关键区域，即狭窄的通道和难以导航的区域。PRM有效地捕捉自由空间的连通性，随着机器人感知物理工作空间而逐渐扩展。给出了安装超声测距仪的移动机器人的计算机仿真和实验结果

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Sensor-based robot path planning using harmonic function-based probabilistic roadmaps

We present a new sensor-based robot motion planning framework for mobile robot navigation in unknown environments. The main idea of the proposed planning approach, inspired by our recent works on using harmonic function-based probabilistic roadmaps (HFPRM) for robotic navigation in known environments (model-based cases) (Kazemi et al., 2004, 2005), is to utilize a fluid dynamic (FD) paradigm based on potential flows to identify and prioritize critical regions, i.e. narrow passages and hard-to-navigate regions, at the scan planning stage of a sensor-based probabilistic roadmap (PRM). The PRM, which efficiently captures the connectivity of the free space, is incrementally expanded as the robot senses the physical workspace. Computer simulations and experimental results obtained using a mobile robot equipped with ultrasonic range finders are presented

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ICAR '05. Proceedings., 12th International Conference on Advanced Robotics, 2005.

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