Semi-active control for  structural vibration of cantilever beam based on TMS320F2812

JI Hong-li; QIU Jin-hao; ZHAO Yong-chun; ZHU Kong-jun

Optics and Precision Engineering, Volume. 17, Issue 1, 126(2009)

Semi-active control for structural vibration of cantilever beam based on TMS320F2812

JI Hong-li*... QIU Jin-hao, ZHAO Yong-chun and ZHU Kong-jun |Show fewer author(s)

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References(6)

[1] [1] JI H L. A study on vibration control of the smart structure using self-sensing active method and semi-active method[D]. Nanjing:Nanjing University of Aeronautics and Astronautics,2007. (in Chinese)

[2] [2] FAIZ A, GUYOMAR D, PETIT L, et al.. Wave transmission reduction by a piezoelectric semi-passive technique[J]. Sensors and Actuators. Physical, 2006,128(2):230-237.

[3] [3] ZHANG Y Q, JIN X M, TONG Y B, et al.. Design of a control system based on TMS320F2812[J]. China Academic Journal Electronic Publishing House, 2007,26(2):63-66.

[4] [4] BADEL A, SEBALD G, GUYOMAR D, et al.. Piezoelectric vibration control by synchronized switching on adaptive voltage sources: Towards wideband semi-active damping[J].Journal of the Acoustical Society of America, 2006,119(5):2815-2825 Part I.

[5] [5] RICHARD C, GUYOMAR D, AUDIGIER D, et al.. Semi-passive damping using continuous switching of a piezoelectric device[C]. Proceedings of SPIE Smart Structure and Materials Conference, Passive Damping and Isolation, San Diego, 1998,3672:104-111.

[6] [6] QIU J H, MASAKAZU H. Vibration Control of a Plate using a Self-sensing Piezoelectric Actuator and an Adaptive Control Approach[J]. Journal of Intelligent Material Systems and Structures, 2006,17(8-9):661-669

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JI Hong-li, QIU Jin-hao, ZHAO Yong-chun, ZHU Kong-jun. Semi-active control for structural vibration of cantilever beam based on TMS320F2812[J]. Optics and Precision Engineering, 2009, 17(1): 126

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