Modeling and semi-active control performance analysis of MRE isolator based on BPNN optimized by GA using different evaluation indexes

IF 2.4 3区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Journal of Intelligent Material Systems and Structures Pub Date : 2023-07-20 DOI:10.1177/1045389x231178209
Huixing Wang, X. Huang, Tao Liu, Jionglu Wang
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Abstract

The utilization of isolation systems employing Magnetorheological Elastomer (MRE) devices holds significant promise for structural vibration applications due to their customizable stiffness and damping characteristics. However, the nonlinear dynamics inherent in MRE isolators present formidable obstacles for the establishment of accurate models and development of effective control strategies for practical implementation. In this work, the dynamic properties of a self-made MRE isolator under different loading conditions are tested and analyzed. Then the nonparametric forward model and inverse model of MRE isolator based on BPNN (back propagation neural network) are established respectively, and the GA (genetic algorithm) is used to optimize the neural structure of BPNN. The precision and accuracy of the forward and inverse model is verified by comparing the predicted and experimental data. Simulation and experimental results show that the BPNN optimized by GA can efficiently and accurately model the nonlinear behavior of MRE isolators. Based on this, we take an eight-story shear frame building based on the proposed MRE vibration isolator model as the research object and numerically studied the vibration suppression effect under the control of three typical control algorithms, that is, LQR, FC, and FC-PID. In the process of evaluating the effect of vibration isolation control, in addition to utilizing the traditional displacement amplitude, layer distance and acceleration as evaluation indexes, we also propose a new comprehensive evaluation index which has weighting coefficients and considers the input cost. It is shown that the newly proposed comprehensive index can more conveniently compare the advantages and disadvantages of different control algorithms, and the fuzzy PID is the most suitable among the three control algorithms.
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基于遗传算法优化的BPNN隔振器建模及半主动控制性能分析
采用磁流变弹性体(MRE)装置的隔离系统由于其可定制的刚度和阻尼特性,在结构振动应用中具有重要的前景。然而,MRE隔离器固有的非线性动力学特性给建立精确的模型和制定有效的控制策略带来了巨大的障碍。本文对自制的MRE隔振器在不同加载条件下的动态特性进行了测试和分析。然后分别建立了基于BPNN (back propagation neural network)的MRE隔离器的非参数正演模型和反演模型,并利用遗传算法对BPNN的神经结构进行优化。通过对比预测数据和实验数据,验证了正、逆模型的精度和准确性。仿真和实验结果表明,遗传算法优化后的bp神经网络能够高效、准确地模拟多磁隔离器的非线性行为。在此基础上,以基于所提出的MRE隔振模型的八层剪力框架建筑为研究对象,数值研究了LQR、FC和FC- pid三种典型控制算法控制下的减振效果。在对隔振控制效果进行评价的过程中,除了采用传统的位移幅值、层距和加速度作为评价指标外,还提出了一种考虑投入成本的具有加权系数的综合评价指标。结果表明,新提出的综合指标可以更方便地比较不同控制算法的优缺点,模糊PID是三种控制算法中最合适的。
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来源期刊
Journal of Intelligent Material Systems and Structures
Journal of Intelligent Material Systems and Structures 工程技术-材料科学:综合
CiteScore
5.40
自引率
11.10%
发文量
126
审稿时长
4.7 months
期刊介绍: The Journal of Intelligent Materials Systems and Structures is an international peer-reviewed journal that publishes the highest quality original research reporting the results of experimental or theoretical work on any aspect of intelligent materials systems and/or structures research also called smart structure, smart materials, active materials, adaptive structures and adaptive materials.
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