FDA*: A Focused Single-Query Grid Based Path Planning Algorithm

Q4 Engineering

Journal of Automation, Mobile Robotics and Intelligent Systems Pub Date : 2022-05-21 DOI:10.14313/jamris/3-2021/17

Mouad Boumediene, Lamine Mehennaoui, Abderezzak Lachouri

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引用次数: 1

Abstract

Square grid representations of the state‐space are a commonly used tool in path planning. With applications in a variety of disciplines, including robotics, computational biology, game development, and beyond. However, in large scale and/or high dimensional environments the creation and manipulation of such structures become too expensive, especially in applications when an accurate representation is needed.In this paper, we present a method for reducing the cost of single‐query grid‐based path planning, by focusing the search to a smaller subset, that containsthe optimal solution. This subset is represented by a hyper‐rectangle, the location, and dimensions of which are calculated departing from an initial feasible path found by a fast search using the RRT* algorithm. We also present an implementation of this focused discretization method called FDA*, a resolution optimal algorithm, where the A* algorithm is employed in searching the resulting graph for an optimal solution. We also demonstrate through simulation results, that the FDA* algorithm uses less memory and has a shorter run‐time compared to classic A* and thus other graph based planning algorithms, and in the same time, the resulting path cost is less than that of regular RRT based algorithms.

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FDA*:一种聚焦单查询网格路径规划算法

状态空间的方形网格表示是路径规划中常用的工具。应用于各种学科，包括机器人，计算生物学，游戏开发等。然而，在大规模和/或高维环境中，这种结构的创建和操作变得过于昂贵，特别是在需要精确表示的应用程序中。在本文中，我们提出了一种方法，通过将搜索集中在包含最优解的较小子集上，来降低基于单查询网格的路径规划的成本。该子集由一个超矩形表示，其位置和尺寸是根据使用RRT*算法快速搜索找到的初始可行路径计算的。我们还提出了一种称为FDA*的集中离散化方法的实现，这是一种分辨率最优算法，其中a *算法用于搜索结果图以寻找最优解。我们还通过仿真结果证明，与经典的a *和其他基于图的规划算法相比，FDA*算法使用的内存更少，运行时间更短，同时，所得到的路径成本低于常规的基于RRT的算法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Automation, Mobile Robotics and Intelligent Systems Engineering-Control and Systems Engineering

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： Fundamentals of automation and robotics Applied automatics Mobile robots control Distributed systems Navigation Mechatronics systems in robotics Sensors and actuators Data transmission Biomechatronics Mobile computing