圆柱壳结构干扰自适应减振控制研究  

Research on adaptive damping control of interference in cylindrical shell structures

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作  者:杨松 李科宇 张刚[1] 陈跃华[1] 冯锐 YANG Song;LI Ke-yu;ZHANG Gang;CHEN Yue-hua;FENG Rui(Maritime College,Ningbo University,Ningbo 315211,China;Ningbo Sunny Optical Technology Company Limited,Ningbo 315211,China)

机构地区:[1]宁波大学海运学院,浙江宁波315211 [2]宁波舜宇光电信息有限公司,浙江宁波315211

出  处:《舰船科学技术》2023年第22期25-33,共9页Ship Science and Technology

摘  要:针对具有网格划分压电传感器-作动器的圆柱壳减振控制问题,提出了一种具有在线自组织能力的分布式H∞一致性减振方法。采用FFT方法,对振动数据进行振动能量时频分析,进行模态截断、确定控制阶次。随后,基于分布式H∞一致性控制理论与粒子群优化,进行迭代计算,优化选取部分压电致动器进行减振控制。使得压电致动器对外界激励变化具有在线自组织自适应能力,且H∞一致性性能指标最小化外激励对系统振动的影响。仿真结果表明,圆柱壳受到脉冲激励、持续激励以及多模态激励时,振动能量分别降低91.5%、90.9%、91.2%。控制器对外激励具有较好适应能力。For the vibration control of cylindrical shells using grid-divided piezoelectric sensor actuators,a distributed H∞consistent vibration reduction approach with online self-organization capability is presented.The FFT approach truncates the modes,calculates the control order,and examines the vibration energy in time and frequency.Iterative calculations are then carried out to pick some of the piezoelectric actuators for vibration damping control most effectively.These calculations are based on the distributed H∞consistency control theory with particle swarm optimization.In addition,the H∞consistency performance index reduces the impact of external excitation on system vibration,allowing the piezoelectric actuator to be online self-organizing and self-adaptive to changes in external excitation.The simulation results show that the vibration energy is reduced by 91.5%,90.9%,and 91.2%when the cylindrical shell is subjected to impulsive excitation,continuous excitation,and multimodal excitation,respectively.The controller has good adaptability to external excitation.

关 键 词:振动控制 圆柱壳结构 分布式控制 一致性算法 

分 类 号:TB535[理学—物理] U663.8[理学—声学]

 

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