Seven-degree-of-freedom-based electric wheel sampled-data active shimmy control method considering unknown sensor measurement error

IF 2.7 4区计算机科学 Q2 AUTOMATION & CONTROL SYSTEMS Asian Journal of Control Pub Date : 2024-06-17 DOI:10.1002/asjc.3443

Qinghua Meng, Rong Liu, Zong-yao Sun, Haibin He

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Abstract

The active shimmy control methods for electric vehicle driven by in-wheel motors (EV-DIM) have been proposed in the recent years. However, these methods assume that data obtained from sensors are accurate, despite the fact that sensor measurements are prone to error. This unknown measurement error can make shimmy control difficult. Additionally, current shimmy models are low degree-of-freedom, which simplifies control but decreases accuracy. In this paper, we address these issues using a sampled-data output control method based on a higher seven-degree-of-freedom (7DOF) shimmy model which includes the steering system, suspension, and electric wheel. We first construct a 7DOF electric wheel shimmy model and use Lagrange's theorem to derive the electric wheel shimmy dynamic equations. We then obtain system state equations that account for unknown sensor measurement error based on the 7DOF shimmy model. A sampled-data observer and controller are designed to attenuate or eliminate the shimmy phenomenon via a domination gain. Finally, we conduct numerical simulations and experiments to verify the effectiveness of our proposed method.

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考虑未知传感器测量误差的基于七自由度电动轮采样数据的主动抖动控制方法

近年来，人们提出了轮内电机驱动电动汽车（EV-DIM）的主动抖动控制方法。然而，这些方法都假定从传感器获得的数据是准确的，尽管事实上传感器的测量容易产生误差。这种未知的测量误差会给甩尾控制带来困难。此外，目前的晃动模型自由度较低，这虽然简化了控制，但却降低了精度。在本文中，我们使用一种基于较高的七自由度（7DOF）抖动模型（包括转向系统、悬架和电动轮）的采样数据输出控制方法来解决这些问题。我们首先构建了一个 7DOF 电动轮抖动模型，并利用拉格朗日定理推导出电动轮抖动动态方程。然后，我们根据 7DOF shimmy 模型获得系统状态方程，该方程考虑了未知传感器测量误差。我们设计了一个采样数据观测器和控制器，通过支配增益来减弱或消除抖动现象。最后，我们进行了数值模拟和实验，以验证我们所提方法的有效性。

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来源期刊

Asian Journal of Control 工程技术-自动化与控制系统

CiteScore

4.80

自引率

25.00%

发文量

253

审稿时长

7.2 months

期刊介绍： The Asian Journal of Control, an Asian Control Association (ACA) and Chinese Automatic Control Society (CACS) affiliated journal, is the first international journal originating from the Asia Pacific region. The Asian Journal of Control publishes papers on original theoretical and practical research and developments in the areas of control, involving all facets of control theory and its application. Published six times a year, the Journal aims to be a key platform for control communities throughout the world. The Journal provides a forum where control researchers and practitioners can exchange knowledge and experiences on the latest advances in the control areas, and plays an educational role for students and experienced researchers in other disciplines interested in this continually growing field. The scope of the journal is extensive. Topics include: The theory and design of control systems and components, encompassing: Robust and distributed control using geometric, optimal, stochastic and nonlinear methods Game theory and state estimation Adaptive control, including neural networks, learning, parameter estimation and system fault detection Artificial intelligence, fuzzy and expert systems Hierarchical and man-machine systems All parts of systems engineering which consider the reliability of components and systems Emerging application areas, such as: Robotics Mechatronics Computers for computer-aided design, manufacturing, and control of various industrial processes Space vehicles and aircraft, ships, and traffic Biomedical systems National economies Power systems Agriculture Natural resources.

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