Reactive optimal motion planning to anywhere in the presence of moving obstacles

Panagiotis Rousseas, Charalampos P. Bechlioulis, Kostas Kyriakopoulos
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Abstract

In this paper, a novel optimal motion planning framework that enables navigating optimally from any initial, to any final position within confined workspaces with convex, moving obstacles is presented. Our method outputs a smooth velocity vector field, which is then employed as a reference controller in order to sub-optimally avoid moving obstacles. The proposed approach leverages and extends desirable properties of reactive methods in order to provide a provably convergent and safe solution. Our algorithm is evaluated with both static and moving obstacles in synthetic environments and is compared against a variety of existing methods. The efficacy and applicability of the proposed scheme is finally validated in a high-fidelity simulation environment.
在有移动障碍物的情况下,对任何地方进行反应式优化运动规划
本文介绍了一种新颖的最优运动规划框架,它能在有凸面移动障碍物的狭窄工作空间内,从任意初始位置最优地导航到任意最终位置。我们的方法会输出一个平滑的速度矢量场,然后将其用作参考控制器,以次优方式避开移动障碍物。所提出的方法利用并扩展了反应式方法的理想特性,从而提供了可证明的收敛性安全解决方案。我们利用合成环境中的静态和移动障碍物对算法进行了评估,并与多种现有方法进行了比较。最后在高保真模拟环境中验证了所提方案的有效性和适用性。
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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