Robust ride comfort control of vehicles without measurements of tire deflection

Katsuhiro Okumura; Masahiro Oya; Hideki Wada

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Robust ride comfort control of vehicles without measurements of tire deflection

机译：在不测量轮胎挠度的情况下，对车辆进行稳定的行驶舒适性控制

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摘要

In this article, a robust ride comfort control scheme for vehicles is proposed in which measurements of the tire deflections are not required. The controller has the property that we can specify a location where the ride comfort will be best. To achieve this end, an estimator for the tire deflections and the road disturbances is proposed. Next, a combined ideal vehicle is designed. In the ideal vehicle, the location where ride comfort will be best can be moved by setting only one design parameter. Finally, a robust tracking controller is developed so that a real vehicle tracks the motion of the combined ideal vehicle.

机译：在本文中，提出了一种鲁棒的车辆行驶舒适性控制方案，其中不需要测量轮胎挠度。控制器具有我们可以指定最佳乘坐舒适性的位置的属性。为了达到这个目的，提出了一种用于轮胎挠度和道路干扰的估计器。接下来，设计组合的理想车辆。在理想的车辆中，只需设置一个设计参数即可移动最佳乘坐舒适性的位置。最终，开发了鲁棒的跟踪控制器，以使实际车辆可以跟踪组合的理想车辆的运动。

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来源
《Artificial life and robotics》 |2010年第2期|p.133-137|共5页
作者
Katsuhiro Okumura; Masahiro Oya; Hideki Wada;
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作者单位

Department of Fukuoka Industrial Technology Center, 3-6-1 Norimatsu, Yahatanishi-ku, Kitakyushu, Fukuoka 807-0831, Japan;

Department of Mechanical and Control Engineering, Kyushu Institute of Technology, Fukuoka, Japan;

Shin-Nippon Nondestructive Inspection Co., Kitakyushu, Fukuoka, Japan;

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正文语种 eng
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关键词
vehicle; ride comfort; active suspension; robust tracking control; ideal model;

机译：车辆;乘坐舒适性;主动悬架;鲁棒跟踪控制;理想模型;

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1. Robust Design in Multibody Dynamics – Application to Vehicle Ride-comfort Optimization [J] . Anas Batou, Christian Soize, Chan Kyu Choi, Procedia IUTAM . 2015,第5期

机译：多体动力学中的稳健设计–在车辆乘坐舒适性优化中的应用
2. Improvement of both handling stability and ride comfort of a vehicle via coupled hydraulically interconnected suspension and electronic controlled air spring [J] . Qi Hengmin, Chen Yuanchang, Zhang Nong, Proceedings of the Institution of Mechanical Engineers, Part D. Journal of Automobile Engineering . 2020,第2a3期

机译：通过耦合液压互联悬架和电子控制空气弹簧改善手工稳定性和乘坐车辆的舒适性
3. Optimization of Vehicle Ride Comfort and Controllability Using Grey Relational Analysis [J] . Chen Shuming, Wang Dengfeng The Journal of grey system . 2011,第4期

机译：灰色关联分析的车辆平顺性和可控性优化
4. Active suspension control scheme for vehicles without measurements of tire deflection [C] . Okumura K., Oya M., Nagae M., Computational Intelligence in Robotics and Automation (CIRA), 2009 . 2009

机译：无需测量轮胎挠度的车辆主动悬架控制方案
5. Improved vehicle suspension control arm model using experimental deflection measurements. [D] . Doshi, Gaurav Sandesh. 2015

机译：使用实验偏转测量改进的车辆悬架控制臂模型。
6. Research on the Comfort of Vehicle Passengers Considering the Vehicle Motion State and Passenger Physiological Characteristics: Improving the Passenger Comfort of Autonomous Vehicles [O] . Chang Wang, Xia Zhao, Rui Fu, 2020

机译：考虑车辆运动状态和乘客生理特性的车辆乘客的舒适性研究 - 改善自动车辆的乘客舒适
7. Active Variable Geometry Suspension robust control for improved vehicle ride comfort and road holding [O] . Cheng C, Evangelou SA, Arana C, 2015

机译：主动可变几何悬架强大控制，可提高车辆乘坐舒适性和抓地力

Robust ride comfort control of vehicles without measurements of tire deflection

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