聚类室内运动规划的自适应反向传播算法

K. Vennela, Balaji B, M. Chinnaiah, K. Srinivasarao
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引用次数: 0

摘要

基于网格的导航是无人地面车辆(UGV)最简单的导航方法,特别是在室内。网格地图的形成、网格单元的占用、自定位和在导出路径中避开障碍物是导航的主要考虑因素。本研究提出了一种基于自适应反向传播树算法的移动机器人目标点导航新策略。对于像自动驾驶汽车的充电站这样的受限停车点,这项工作提供了到达该点的最小解决方案。路径探索从停止点开始,而不是从机器人所在的起点开始。由于该反向传播策略的有效性,在实时场景中实现了该策略。仿真和实验结果为机器人推进到固定停车点或充电点等应用提供了空间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Adaptive Backpropagation Algorithm for Clustered Indoor Motion Planning
Grid based navigation is the simplest navigation methodology for unmanned ground vehicles (UGV) particularly for indoors. The grid map formation, grid cell occupancy, self-localization and avoiding obstacles in derived path are major considerations in navigation. This research work elaborate a new strategy of mobile robot navigation to goal point using an Adaptive Backpropagation tree based algorithm. For a confined stopping point like a charging station for an autonomous vehicles, this work provide minimal solution to reach that point. The path exploration begin from the stop point rather than the start point where robot is located. This backpropagation strategy implemented in real time scenario for its effectiveness. The simulation and experimental results gives the scope for robotic applications such as advance to stationary parking point or charging point.
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