State observers for semi-active suspensions: Experimental results

2014 IEEE Conference on Control Applications (CCA) Pub Date : 2014-12-11 DOI:10.1109/CCA.2014.6981328

Diana Hernandez-Alcantara, J. Tudón-Martínez, L. Amezquita-Brooks, C. Vivas-Lopez, R. Morales-Menéndez

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引用次数: 5

Abstract

Semi-active suspension systems aim to improve the stability and comfort of vehicles. Several semi-active suspension control strategies require the vertical velocities; however, the instrumentation of the vehicle normally does not include sensors for these variables, typically only accelerometers are available. Direct integration to estimate the vertical-velocities fails to provide accurate velocity estimations. In particular, the dependency of the system on the road profile, which is an unknown signal, complicates the use of traditional observer schemes. In addition, the behavior of semi-active dampers is highly nonlinear. Two estimation strategies are proposed: an Unknown Input Observer (UIO) and a Robust H∞ Observer. During the design of the UIO the unknown road profile decoupling induces observability problems, which are overcome with an approximated observer. An experimental comparison between the estimation methods in common perturbation conditions is carried out. The experimental results, obtained with a 5:1 scale car equipped with ER dampers, show that it is possible to archive good estimation performance with the proposed schemes.

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半主动悬架状态观测器:实验结果

半主动悬架系统旨在提高车辆的稳定性和舒适性。一些半主动悬架控制策略需要垂直速度;然而，车辆的仪表通常不包括这些变量的传感器，通常只有加速度计可用。直接积分估计垂直速度不能提供准确的速度估计。特别是，系统对道路轮廓的依赖，这是一个未知的信号，使传统观测器方案的使用复杂化。此外，半主动阻尼器的行为是高度非线性的。提出了两种估计策略:未知输入观测器和鲁棒H∞观测器。在UIO的设计过程中，未知道路轮廓解耦引起了可观测性问题，该问题可以用近似观测器来克服。对常见摄动条件下的估计方法进行了实验比较。实验结果表明，采用该方法可以获得较好的估计性能。

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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2014 IEEE Conference on Control Applications (CCA)

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