汽车安全气囊更换用磁流变阻尼器的设计特点

Q4 Engineering
N. Dhanaletchmi, F. Nagi, A. Ramasamy
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引用次数: 0

摘要

尽管人类尽了一切努力防止车祸造成人员伤亡,但车祸仍在继续发生。安全气囊的实施已被证明可以在碰撞中为乘客提供安全。然而,安全气囊的过早展开和故障已导致驾驶员和前排乘客伤亡。在本研究中,磁流变阻尼器被用作车辆安全气囊的替代品,作为一种保护系统。MR阻尼器是一种智能阻尼装置,可编程为在乘用车等应用中动态吸收冲击和高冲击力。本文将安全气囊汽车碰撞系统的G-力分布与MR阻尼器汽车碰撞系统得到的G-力谱进行了比较。随后,设计了磁流变阻尼器的特性,并提出了用于磁流变阻尼器电流控制的模糊逻辑控制器(FLC)和比例积分微分控制器(PID)。仿真结果表明,与基于PID的MR减振系统和安全气囊汽车碰撞系统相比,基于模糊控制的MR减振器系统具有更好的减振效果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Magneto-rheological damper design characteristics for vehicle airbag replacement
Vehicle crashes continue to occur despite all the human efforts to prevent them resulting in injuries and loss of lives. The implementation of airbags has been shown to offer passenger safety in a collision. However, premature deployment and malfunction of airbag has resulted in fatalities and injuries to drivers and front seat passengers. In this study, a magneto-rheological (MR) damper is used as a replacement of airbag in vehicles to serve as a protective system. MR damper is a smart damping device which can be programmed to dynamically absorb shocks and high impact force when used in application such as passenger cars. In this paper, G-force profile of the airbag vehicle crashing system is compared with the G-force profile obtained from the MR damper vehicle crashing system. Subsequently, for this purpose MR damper characteristics are designed and Fuzzy Logic Controller (FLC) and Proportional Integral Derivative (PID) controller are proposed for MR damper current control. Simulation results proved that fuzzy based MR damper system yields better results compared to PID based MR damper system and airbag vehicle crashing system.
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来源期刊
International Journal of Vehicle Safety
International Journal of Vehicle Safety Engineering-Automotive Engineering
CiteScore
0.30
自引率
0.00%
发文量
0
期刊介绍: The IJVS aims to provide a refereed and authoritative source of information in the field of vehicle safety design, research, and development. It serves applied scientists, engineers, policy makers and safety advocates with a platform to develop, promote, and coordinate the science, technology and practice of vehicle safety. IJVS also seeks to establish channels of communication between industry and academy, industry and government in the field of vehicle safety. IJVS is published quarterly. It covers the subjects of passive and active safety in road traffic as well as traffic related public health issues, from impact biomechanics to vehicle crashworthiness, and from crash avoidance to intelligent highway systems.
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