Add to ORKGWe study the low-bias stabilization of active magnetic bearings (AMBs) subject to voltage saturation based on a recently proposed model for the AMB switching mode of operation. Using a forwarding-like approach, we construct a stabilizing controller of arbitrarily small amplitude and a control-Lyapunov function for the AMB dynamics. We illustrate our construction using a numerical example. © 2006 IEEE
Adaptive back stepping control (ABC) is originally applied to a linearized model of an active magnet...
Active magnetic bearings consume much less power than conventional passive bearings, especially when...
Conventional Active Magnetic Bearings (AMB) are operated using a bias current (or flux) to achieve g...
International audienceWe study the low-bias stabilization of active magnetic bearings (AMBs) subject...
We study the low-bias stabilization of active magnetic bearings (AMBs) subject to voltage saturation...
International audienceWe study the low-bias stabilization of active magnetic bearings (AMBs) subject...
Abstract—We study the low-bias stabilization of active magnetic bearings (AMBs) subject to voltage s...
Abstract — In this paper we present several nonlinear control designs for a single one-degree-of-fre...
Based on a recently proposed model for the active-magnetic-bearing (AMB) switching mode of operation...
In this paper, an appropriate control strategy is proposed to handle the nonlinear dynamics ofan act...
Control Designs for Low-Loss Active Magnetic Bearings: Theory and Implementation Brian C. D. Wilso...
Zero-bias or low-bias control of AMB's is essential for the design of magnetic bearings with lo...
Adaptive back stepping control (ABC) is originally applied to a linearized model of an active magnet...
Adaptive back stepping control (ABC) is originally applied to a linearized model of an active magnet...
Adaptive back stepping control (ABC) is originally applied to a linearized model of an active magnet...
Adaptive back stepping control (ABC) is originally applied to a linearized model of an active magnet...
Active magnetic bearings consume much less power than conventional passive bearings, especially when...
Conventional Active Magnetic Bearings (AMB) are operated using a bias current (or flux) to achieve g...
International audienceWe study the low-bias stabilization of active magnetic bearings (AMBs) subject...
We study the low-bias stabilization of active magnetic bearings (AMBs) subject to voltage saturation...
International audienceWe study the low-bias stabilization of active magnetic bearings (AMBs) subject...
Abstract—We study the low-bias stabilization of active magnetic bearings (AMBs) subject to voltage s...
Abstract — In this paper we present several nonlinear control designs for a single one-degree-of-fre...
Based on a recently proposed model for the active-magnetic-bearing (AMB) switching mode of operation...
In this paper, an appropriate control strategy is proposed to handle the nonlinear dynamics ofan act...
Control Designs for Low-Loss Active Magnetic Bearings: Theory and Implementation Brian C. D. Wilso...
Zero-bias or low-bias control of AMB's is essential for the design of magnetic bearings with lo...
Adaptive back stepping control (ABC) is originally applied to a linearized model of an active magnet...
Adaptive back stepping control (ABC) is originally applied to a linearized model of an active magnet...
Adaptive back stepping control (ABC) is originally applied to a linearized model of an active magnet...
Adaptive back stepping control (ABC) is originally applied to a linearized model of an active magnet...
Active magnetic bearings consume much less power than conventional passive bearings, especially when...
Conventional Active Magnetic Bearings (AMB) are operated using a bias current (or flux) to achieve g...