基于侧倾稳定性和平顺性的观点,提出了一种新的汽车主动稳定杆模糊控制算法

Tuan Anh Nguyen
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引用次数: 0

摘要

在汽车上使用稳定杆来限制侧翻,这在今天的许多车辆上都是必须的。本文提出了一种新的模糊控制液压稳定杆的方法。以往的研究只关注提高汽车的侧倾稳定性,而本文关注的是同时保证汽车的侧倾稳定性和平顺性,这被认为是本文的新贡献。通过复杂的非线性动力学模型来描述车辆的振动。MATLAB®应用程序以鱼钩转向和j型转向两种具体情况进行仿真。研究结果表明,采用该算法指导的主动稳定杆能显著降低横摇角值。此外,这两种模拟也大大降低了翻车的风险(每种情况下都使用了四速阈值)。对于第一种情况,当汽车使用主动稳定杆时,即使在以4 = 100 (km/h)的速度行驶时,也不会发生侧翻。在另一种情况下,只有在高速行驶时才会发生侧翻。相反,这种现象发生在v1的无状态和v2的被动状态。所得结果有助于评价主动稳定杆模糊控制算法的性能。
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Proposing a novel fuzzy control algorithm for automotive active stabilizer bars based on views of roll stability and ride comfort
Using stabilizer bars in cars to limit rollover is a necessity applied to many vehicles today. In this article, the author proposes using a new fuzzy method to control the hydraulic stabilizer bars. Previous studies only focused on improving the roll stability of cars, while this article focuses on ensuring both the roll stability and ride comfort of the vehicle, which is considered the new contribution of the article. Vehicle oscillations are described through a complex nonlinear dynamic model. The MATLAB ® application performs the simulation with two specific cases, including fish-hook steering and J-turn steering. According to the findings of this research, the roll angle value is significantly reduced when using active stabilizer bars directed by the novel algorithm. In addition, the risk of the rollover was also strongly reduced for both simulations (there are four-speed thresholds used in each case). For the first case, rollover does not occur when the car utilizes active stabilizer bars, even when travelling at v 4 = 100 (km/h). In the other case, the rollover occurs only for the Active situation when travelling at a very high speed. In contrast, this phenomenon occurs in the None situation at v 1 and the Passive situation at v 2 . The results found from this work help to evaluate the performance of the fuzzy control algorithm for active stabilizer bars.
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来源期刊
CiteScore
4.10
自引率
11.10%
发文量
38
审稿时长
>12 weeks
期刊介绍: The Journal of Multi-body Dynamics is a multi-disciplinary forum covering all aspects of mechanical design and dynamic analysis of multi-body systems. It is essential reading for academic and industrial research and development departments active in the mechanical design, monitoring and dynamic analysis of multi-body systems.
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