Your search keyword '"filtered-X variable step size least mean square algorithm"' showing total 2 results

1. Active vibration control of smart flexible piezoelectric beam with a tip mass using hybrid FX-VSSLMS algorithm

Author

Xiaopeng Wang, Zhiyuan Gao, Yubin Fang, Jiaming Hu, and Xiaojin Zhu

Subjects

feedforward, least mean squares methods, beams (structures), piezoelectric actuators, feedback, vibration control, flexible structures, flexible manipulators, active vibration control, smart flexible piezoelectric beam, tip mass, hybrid FX-VSSLMS algorithm, active vibration suppression, filtered-X variable step size least mean square algorithm, control performance, stainless steel beam, adaptive feedforward control systems, combined feedback and feedforward control systems, traditional feedforward filtered-X least mean square algorithm, flexible robot arm simulation, hybrid control systems, sensors, Engineering (General). Civil engineering (General), TA1-2040

Abstract

This study concerns adaptive feedforward and hybrid (combined feedback and feedforward) control systems for active vibration suppression of smart flexible beam with a tip mass. By analysing traditional feedforward filtered-X least mean square (FXLMS) algorithm and filtered-X variable step size least mean square (FX-VSSLMS) algorithm, a new hybrid FX-VSSLMS algorithm is developed to improve the control performance of feedforward controllers. A stainless steel beam with a tip mass is employed to simulate flexible robot arm with varying loads. Piezoelectric actuators and sensors are attached to the surface of the beam. Comparison experiments show the effectiveness and benefits of the proposed hybrid FX-VSSLMS method.

Published

2018

2. Active vibration control of smart flexible piezoelectric beam with a tip mass using hybrid FX‐VSSLMS algorithm

Author

Yubin Fang, Hu Jiaming, Xiaopeng Wang, Gao Zhiyuan, and Xiaojin Zhu

Subjects

adaptive feedforward control systems, flexible robot arm simulation, 0209 industrial biotechnology, Computer science, least mean squares methods, vibration control, Vibration control, Energy Engineering and Power Technology, feedback, 02 engineering and technology, sensors, smart flexible piezoelectric beam, Least mean squares filter, 020901 industrial engineering & automation, Active vibration control, feedforward, 0202 electrical engineering, electronic engineering, information engineering, tip mass, traditional feedforward filtered-X least mean square algorithm, active vibration control, filtered-X variable step size least mean square algorithm, 020208 electrical & electronic engineering, General Engineering, Feed forward, piezoelectric actuators, hybrid FX-VSSLMS algorithm, hybrid control systems, Vibration, stainless steel beam, beams (structures), combined feedback and feedforward control systems, lcsh:TA1-2040, Control system, active vibration suppression, flexible structures, control performance, lcsh:Engineering (General). Civil engineering (General), Robotic arm, Algorithm, Software, Beam (structure), flexible manipulators

Abstract

This study concerns adaptive feedforward and hybrid (combined feedback and feedforward) control systems for active vibration suppression of smart flexible beam with a tip mass. By analysing traditional feedforward filtered-X least mean square (FXLMS) algorithm and filtered-X variable step size least mean square (FX-VSSLMS) algorithm, a new hybrid FX-VSSLMS algorithm is developed to improve the control performance of feedforward controllers. A stainless steel beam with a tip mass is employed to simulate flexible robot arm with varying loads. Piezoelectric actuators and sensors are attached to the surface of the beam. Comparison experiments show the effectiveness and benefits of the proposed hybrid FX-VSSLMS method.

Published

2018