This paper presents methods for dramatically improving the performance of sampling-based kinodynamic planners. The key component is the first-known complete, exact steering method that produces a time-optimal trajectory between any states for a vector of synchronized double integrators. This method is applied in three ways: 1) to generate RRT edges that quickly solve the two-point boundary-value problems, 2) to produce a (quasi)metric for more accurate Voronoi bias in RRTs, and 3) to iteratively time-optimize a given collision-free trajectory. Experiments are performed for state spaces with up to 2000 dimensions, resulting in improved computed trajectories and orders of magnitude computation time improvements over using ordinary metrics and constant controls.
翻译:本文介绍了大幅改进基于取样的动脉动力规划者性能的方法。关键组成部分是第一种已知的完整、精确的指导方法,该方法在任何州之间为同步双重集成器矢量生成一个最短的时间轨迹。该方法以三种方式应用:1)生成RRT边缘,迅速解决两点边界值问题;2)生成一个(准)度量,以更准确地测量RRT的Voronoi偏差;3)迭接地优化特定无碰撞轨迹。对有2000维度的州空间进行了实验,从而改进了计算轨迹和数量级的计算,从而改进了使用普通计量和恒定控制的时间改进。</s>
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