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A LPV/H_∞ Global Chassis Controller for performances Improvement Involving Braking, Suspension and Steering Systems

机译：LPV /H_∞全局底盘控制器，用于涉及制动，悬架和转向系统的性能改进

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This paper is concerned with the design of a multivariable Global Chassis Controller (GCC), using LPV/H_∞ robust controllers for suspension, active steering and electro-mechanical braking actuators which aim at improving comfort and safety performance in critical driving situations. The proposed solution is to schedule the three control actions (braking, steering and suspension) according to the driving situation evaluated by a specific monitor. In emergency cases, the GCC provides a working hierarchical use of the 3 controllers, depending on the dangerousness of the driving situation. Simulations on a complex nonlinear full vehicle model, subject to critical driving situations, show the reliability and robustness of the solution.

机译：本文涉及使用用于悬架，主动转向和机电制动致动器的LPV / H_1鲁棒控制器的多变量全局底盘控制器（GCC）的设计，该悬挂式驾驶和机电制动致动器旨在提高关键驾驶情况下的舒适性和安全性能。所提出的解决方案是根据特定监视器评估的驾驶情况安排三个控制动作（制动，转向和悬架）。在紧急情况下，GCC根据驾驶情况的危险性提供了3个控制器的工作分层使用。在复杂的非线性全车型上模拟，受关键驾驶情况，显示解决方案的可靠性和鲁棒性。

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《IFAC Symposium on Robust Control Design》|2012年||共6页
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作者
S. Fergani; O. Sename; L. Dugard;
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原文格式 PDF
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中图分类 TP273-53;
关键词
Vehicle dynamics; Braking; Suspension; Steering; LPV; H_∞ control;

机译：车辆动力学;制动;悬挂;转向;LPV;H_∞控制;

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专利

1. Global Chassis Control System Using Suspension, Steering, and Braking Subsystems [J] . Vivas-Lopez Carlos A., Tudon-Martinez Juan C., Hernandez-Alcantara Diana, Mathematical Problems in Engineering . 2015,第pta25期

机译：使用悬架，转向和制动子系统的全球底盘控制系统
2. A Global Chassis Control System Involving Active Suspensions, Direct Yaw Control and Active Front Steering [J] . A. Chokor, R. Talj, M. Doumiati, IFAC PapersOnLine . 2019,第5期

机译：涉及主动悬架，直接偏航控制和主动前转向的全球底盘控制系统
3. Robust LPV-_∞ control for active suspensions with performance adaptation in view of global chassis control [J] . Vehicle System Dynamics . 2008,第10期

机译：鉴于全球底盘控制，具有主动性能的鲁棒LPV- _{∞控制具有性能自适应}
4. A LPV/H_∞ Global Chassis Controller for performances Improvement Involving Braking, Suspension and Steering Systems [C] . S. Fergani, O. Sename, L. Dugard IFAC Symposium on Robust Control Design . 2012

机译：LPV /H_∞全局底盘控制器，用于涉及制动，悬架和转向系统的性能改进
5. Decoupled design of robust controllers for nonlinear systems: As motivated by and applied to coordinated throttle and brake control for automated highways. [D] . Gerdes, Joseph Christian. 1996

机译：非线性系统鲁棒控制器的解耦设计：受自动高速公路的节气门和制动控制的协调并受其激励。
6. Improvements in Performance Analysis of Photovoltaic Systems: Array Power Monitoring in Pulse Width Modulation Charge Controllers [O] . Gabino Jiménez-Castillo, Francisco José Muñoz-Rodríguez, Catalina Rus-Casas, 2019

机译：光伏系统性能分析的改进：脉宽调制充电控制器中的阵列功率监控
7. A LPV/ℋ ∞ Global Chassis Controller for performances Improvement Involving Braking, Suspension and Steering Systems [O] . S. Fergani, O. Sename, L. Dugard 2012

机译：LpV / Hinf全球底盘控制器，用于涉及制动，悬架和转向系统的性能改进

A LPV/H_∞ Global Chassis Controller for performances Improvement Involving Braking, Suspension and Steering Systems

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