RESEARCH ON ACTIVE CONTROL OF VARIABLE MASS SEAT SUSPENSION USING PD CONTROL

AN CunSheng; CHEN XiaoLiang; WEI WeiZhen; LIU Kui

doi:10.16579/j.issn.1001.9669.2024.02.009

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RESEARCH ON ACTIVE CONTROL OF VARIABLE MASS SEAT SUSPENSION USING PD CONTROL

更新时间：2024-07-05

- RESEARCH ON ACTIVE CONTROL OF VARIABLE MASS SEAT SUSPENSION USING PD CONTROL
- Journal of Mechanical Strength Vol. 46, Issue 2, Pages: 320-327(2024)
- 作者机构：
  
  1. 河南省果园管理特种机器人工程技术研究中心
  2. 河南林业职业学院汽车与机电工程系
  3. 河南科技大学车辆与交通工程学院
- 作者简介：
- 基金信息：
  
  The project supported by the National Key R&D Plan Project for the 13th Five Year Plan (No.2016YFDO701002-2), and the Key Science and Technology Research Program Project in Henan Province (No.22210210293).
- DOI：10.16579/j.issn.1001.9669.2024.02.009
  CLC： U463.83+6
- Published：15 April 2024，
- 稿件说明：
移动端阅览
AN CunSheng, CHEN XiaoLiang, WEI WeiZhen, et al. RESEARCH ON ACTIVE CONTROL OF VARIABLE MASS SEAT SUSPENSION USING PD CONTROL. [J]. Journal of Mechanical Strength , 2024,46(2):320-327.
DOI：

AN CunSheng, CHEN XiaoLiang, WEI WeiZhen, et al. RESEARCH ON ACTIVE CONTROL OF VARIABLE MASS SEAT SUSPENSION USING PD CONTROL. [J]. Journal of Mechanical Strength , 2024,46(2):320-327. DOI： 10.16579/j.issn.1001.9669.2024.02.009.

摘要

针对座椅悬架负载质量的变化而产生的系统非线性，以及对座椅振动的有效控制等问题，提出了一种基于比例-微分（Proportional-Derivative，PD）控制的变质量座椅悬架主动控制系统。该控制系统建立在几个不同的控制器基础上，主控制器用于评估应在悬架系统中产生所需主动力的实际值，次级控制器用于计算信号的瞬时值，该信号通过其反向模型控制有源元件。建立主动座椅悬架系统模型，对主动座椅悬架控制系统进行设计。对不同负载质量的座椅悬架系统的鲁棒性进行仿真验证，对控制器参数进行优化设计，实现了主动座椅悬架自适应质量识别的精细控制。对优化设计结果进行对比验证，结果表明，质量变化对主动座椅悬架系统的动态性能影响显著降低。在100 kg质量负载时，EM3、EM5 和 EM6激励信号下，主动系统的座椅有效幅值传递率（Seat Effective Amplitude Transmissibility，SEAT）因子分别降低了49.81%、20.96%和29.85%，同时悬架行程分别降低了4.76%、33.87%和18.18%。所建立的主动控制系统显著提高了座椅悬架的性能，对变化负载质量具有更好的鲁棒性，为主动座椅悬架隔振性能研究提供了参考。

Abstract

Aiming at the system non-linearity caused by the change of load mass of seat suspension and the effective control of seat vibration

an active control system of variable mass seat suspension based on the proportional-derivative (PD) control was proposed. The proposed control system structure was based on several different controllers. The primary controller was used to evaluate the actual value of the main force that should be generated in the suspension system

and the secondary controller was used to calculate the instantaneous value of the signal that controled the active element through its reverse model. The active seat suspension system model was established

and the active seat suspension control system was designed. The robustness of seat suspension system with different load mass was verified by simulation. The controller parameters were optimized to realize the fine control of adaptive quality identification of active seat suspension. The optimized design results were compared and verifed

and the results show that the influence of mass change on the dynamic performance of active seat suspension system is significantly reduced. Under 100 kg mass load and EM3、 EM5 and EM6 excitation signals

the SEAT factor of the active system is reduced respectively by 49.81%

20.96% and 29.85%. At the same time

the suspension stroke is reduced respectively by 4.76%

33.87% and 18.18%. The active control system established in this paper significantly improves the performance of the seat suspension

and has better robustness to the varying load mass

which provides a reference for the research on the vibration isolation performance of the active seat suspension.

关键词

主动座椅悬架负载激励自适应控制减振性能优化设计

Keywords

Active seat suspensionLoad excitationAdaptive controlVibration reduction performanceOptimal design

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