A Tire Stiffness Backstepping Observer Dedicated to All-Terrain Vehicle Rollover Prevention

Nicolas Bouton; Roland Lenain; Benoit Thuilot; Philippe Martinet

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A Tire Stiffness Backstepping Observer Dedicated to All-Terrain Vehicle Rollover Prevention

机译：专门用于全地形车防侧倾的轮胎刚度后推观测器

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摘要

Most active devices focused on vehicle stability concern on-road cars and cannot be applied satisfactorily in an off-road context, since the variability and the non-linearities of tire/ground contact are often neglected. In previous work, a rollover indicator devoted to light all-terrain vehicles accounting for these phenomena has been proposed. It is based on the prediction of the lateral load transfer. However, such an indicator requires the on-line knowledge of the tire cornering stiffness. Therefore, in this paper, an adapted backstepping observer, making use only of yaw rate measurement, is designed to estimate tire cornering stiffness and to account for its non-linearity. The capabilities of such an observer are demonstrated and discussed through both advanced simulations and actual experiments.

机译：由于汽车/地面接触的可变性和非线性常常被忽略，因此大多数专注于车辆稳定性的有源装置都涉及公路汽车，并且不能令人满意地应用于越野环境。在先前的工作中，已经提出了一种用于解决这些现象的专用于轻型全地形车的翻车指示器。它基于横向载荷传递的预测。但是，这样的指示器需要轮胎转弯刚度的在线知识。因此，在本文中，设计了一个仅使用偏航角速率测量的适应性后推观测器，以估计轮胎的转弯刚度并解决其非线性问题。通过高级模拟和实际实验，论证和讨论了这种观察者的能力。

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来源
《Advanced Robotics: The International Journal of the Robotics Society of Japan》 |2008年第12期|共19页
作者
Nicolas Bouton; Roland Lenain; Benoit Thuilot; Philippe Martinet;
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正文语种 eng
中图分类机器人技术;
关键词
Backstepping observer; Tire cornering stiffness; All-terrain vehicles; Rollover prevention;

机译：后退观察者;轮胎转弯刚度;全地形车;防倾翻;

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专利

1. A Tire Stiffness Backstepping Observer Dedicated to All-Terrain Vehicle Rollover Prevention [J] . Nicolas Bouton, Roland Lenain, Benoit Thuilot, Advanced Robotics: The International Journal of the Robotics Society of Japan . 2008,第12期

机译：专门用于全地形车防侧倾的轮胎刚度后推观测器
2. Integrated chassis control for vehicle rollover prevention with neural network time-to-rollover warning metrics: [J] . Bing Zhu, Qi Piao, Jian Zhao, Advances in Mechanical Engineering . 2016,第2期

机译：集成的底盘控制功能可通过神经网络滑倒时间警告指标来防止车辆滑倒：
3. Active roll control for rollover prevention of heavy articulated vehicles with multiple-rollover-index minimisation [J] . Hsun-Hsuan Huang, Dennis A. Guenther Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility . 2012,第3期

机译：主动侧倾控制可防止重型铰接车辆侧翻，并具有多个侧翻指数
4. A rollover indicator based on a tire stiffness backstepping observer: Application to an All-Terrain Vehicle [C] . Nicolas Bouton, Roland Lenain, Benoit Thuilot, IEEE/RSJ International Conference on Intelligent Robots and Systems . 2008

机译：基于轮胎刚度的翻转指示器逆影观测器：应用于全地形车辆的应用
5. Developing and Evaluating an Autonomous All-Terrain Vehicle for Experimental Rollover Simulations [D] . Chou, Hsiao-Yang. 2020

机译：用于实验综合模拟的自主地形车辆开发和评估
6. All-terrain vehicle injury in children: strategies for prevention [O] . M Aitken, C Graham, J Killingsworth, 2004

机译：儿童全地形车辆伤害：预防策略
7. On-line estimation of a stability metric including grip conditions and slope: Application to rollover prevention for all-terrain vehicles [O] . Richier, M., Lenain, R., Thuilot, Benoît, 2011

机译：在线评估包括抓地条件和坡度在内的稳定性指标：在全地形车防侧翻中的应用
8. Truck Rollover Characterization for Class-8 Tractor-Trailers Utilizing Standard Dual Tires and New-Generation Single Tires [R] . 2005

机译：使用标准双轮胎和新一代单轮胎的8级牵引车 - 拖车的卡车侧翻特性

A Tire Stiffness Backstepping Observer Dedicated to All-Terrain Vehicle Rollover Prevention

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