Independent modal variable structure fuzzy active vibration control of thin plates laminated with photostrictive actuators 被引量：4

Independent modal variable structure fuzzy active vibration control of thin plates laminated with photostrictive actuators

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摘要 Photostrictive actuators can produce photodeformation strains under illumination of ultraviolet lights. They can realize non-contact micro-actuation and vibration control for elastic plate structures. Considering the switching actuation and nonlinear dynamic characteristics of photostrictive actuators, a variable structure fuzzy active control scheme is presented to control the light intensity applied to the actuators. Firstly, independent modal vibration control equations of photoelectric laminated plates are established based on modal analysis techniques. Then, the optimal light switching function is derived to increase the range of sliding modal area, and the light intensity self-adjusting fuzzy active controller is designed. Meanwhile, a continuous function is applied to replace a sign function to reduce the variable structure control （VSC） chattering. Finally, numerical simulation is carried out, and simulation results indicate that the proposed control strategy provides better performance and control effect to plate actuation and control than velocity feedback control, and suppresses vibration effectively. Photostrictive actuators can produce photodeformation strains under illumination of ultraviolet lights. They can realize non-contact micro-actuation and vibration control for elastic plate structures. Considering the switching actuation and nonlinear dynamic characteristics of photostrictive actuators, a variable structure fuzzy active control scheme is presented to control the light intensity applied to the actuators. Firstly, independent modal vibration control equations of photoelectric laminated plates are established based on modal analysis techniques. Then, the optimal light switching function is derived to increase the range of sliding modal area, and the light intensity self-adjusting fuzzy active controller is designed. Meanwhile, a continuous function is applied to replace a sign function to reduce the variable structure control （VSC） chattering. Finally, numerical simulation is carried out, and simulation results indicate that the proposed control strategy provides better performance and control effect to plate actuation and control than velocity feedback control, and suppresses vibration effectively.

作者 He Rongbo Zheng Shijie

机构地区 Institute of Smart Materials and Structures School of Electrical Information

出处《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2013年第2期350-356,共7页 中国航空学报（英文版）

基金 supported by National Natural Science Foundation of China (Nos. 10872090 and 50830201) Qing Lan Project

关键词 Fuzzy active control Independent modal Photostrictive actuators Thin plate vibration Variable structure Fuzzy active control Independent modal Photostrictive actuators Thin plate vibration Variable structure

分类号 TP273 [自动化与计算机技术—检测技术与自动化装置] TB535 [理学—声学]

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