Author:
Wang Min,Liao Songquan,Fang Xuan,Fu Shibo
Abstract
The piezoelectric constitutive equation states that the inverse piezoelectric effect can convert electrical energy into mechanical energy, resulting in small displacement and force changes with high resolution. The piezoelectric actuator based on inverse piezoelectric effect has an excellent performance in active vibration suppression because of its high frequency response, high positioning accuracy, and large output force. A new active-passive composite vibration suppression system can be formed by cascading it with passive vibration isolation elements in series and parallel. On this basis, by adding different control algorithms and control loops, such as the Sky-Hook damping feedback control algorithm and adaptive feedforward control algorithm, different vibration control effects can be realized.
Reference27 articles.
1. Yan B, Brennan MJ, Elliott SJ, Ferguson NS. Active vibration isolation of a system with a distributed parameter isolator using absolute velocity feedback control. Journal of Sound and Vibration. 2010;329(10):1601-1614
2. Zuo L, Slotine JJE, Nayfeh SA. Model reaching adaptive control for vibration isolation. IEEE Transactions on Control Systems Technology. 2005;13(4):611-617
3. Burkan R, Ozguney OC, Ozbek C. Model reaching adaptive-robust control law for vibration isolation systems with parametric uncertainty. Journal of Vibroengineering. 2018;20(1):300-309
4. Sang H, Yang C, Liu F, Yun J, Jin G. A fuzzy neural network sliding mode controller for vibration suppression in robotically assisted minimally invasive surgery. International Journal of Medical Robotics and Computer Assisted Surgery. 2016;12(4):670-679
5. Yang L, Lou J, Zhu S. Researches on magnetostrictive hybrid vibration isolation system based on sliding mode algorithm. In: Wen Z, Li T, editors. Foundations of Intelligent Systems (iske 2013) [Internet]. Berlin: Springer-Verlag Berlin; 2014. pp. 1095-1106. Available from: https://www.webofscience.com/wos/alldb/summary/1ba7f755-0d14-4def-ada3-274c2d75275f-201be7ef/relevance/1 [cited 2022 Jan 22]
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