基于定性运动学和几何方法的大型铰接车辆垂直停放路径规划

I. Han
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引用次数: 1

摘要

大型铰接车辆由于其挂车铰接角度的不确定性和动态复杂性,不容易准确地建立可靠的运动计划。本文提出了基于驾驶专家经验规则构建的两种几何路径规划,使铰接车辆能够在反向路径上自动垂直停车。通过分析专业驾驶员停车的经验方法,将几种标准化的简单基本动作适当组合,构建路径规划,便于在实车中实施。此外,路径规划包含适当的互补运动,有效应对关节角度等带来的不确定性。本研究中开发的互补运动是基于对铰接式车辆行为的定性分析结果。所提出的铰接式车辆停放方法的有效性已通过使用比例模型自动车辆的数百次实验测试得到证明。
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Path Planning for Perpendicular Parking of Large Articulated Vehicles Based on Qualitative Kinematics and Geometric Methods
Since large articulated vehicles have uncertainties in trailer articulation angle as well as dynamic complexity, it is not easy to accurately establish a reliable motion plan. In this paper, two geometric path plans constructed based on the empirical rules of driving experts are presented so that articulated vehicles can automatically perform perpendicular parking on a reverse path. By analyzing the empirical parking methods of professional drivers, these path plans were constructed by appropriately combining several standardized simple basic motions to facilitate implementation in real vehicles. In addition, the path plans included appropriate complementary motions to effectively respond to uncertainties arising from articulation angles, etc. The complementary motions developed in this study are based on the results of qualitative analysis on the behavior of articulated vehicles. The usefulness of the proposed articulated vehicle parking method has been proven through hundreds of experimental tests using a scaled model automated vehicle.
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