Title :
Control of Magnetic Suspended Flywheel using adaptive linear neuron
Author :
Chen Xiaofei ; Ji Li ; Liu Kun
Author_Institution :
Coll. of Aerosp. & Mater. Eng., Nat. Univ. of Defense Technol., Changsha, China
Abstract :
Focused on robustness, low power consumption and unbalance compensation demands from Magnetic Suspended Flywheel (MSF), a network controller is presented using on adaptive linear neuron, and characteristic equation is derived and discussed form the point of stability, then, a method to ensure close loop stability is established by checking the update of neural network weight. Simulations are performed based on MSF nonlinear model, the results indicate that rapid response, low power consumption and robustness is achieved by the adaptive linear neuron control, unbalance vibration is eliminated under the constraints of power consumption, besides, the stability of close loop system is guaranteed by the weight update checking method.
Keywords :
adaptive control; closed loop systems; compensation; flywheels; linear systems; magnetic bearings; neurocontrollers; stability; vibration control; adaptive linear neuron control; close loop stability; close loop system; low power consumption; magnetic suspended flywheel control; network controller; neural network; robustness; unbalance compensation demand; unbalance vibration; weight update checking method; Adaptation model; Adaptive systems; Flywheels; Magnetic levitation; Mathematical model; Neurons; Stability analysis; Adaptive Linear Neuron; Magnetic Bearing; Magnetic Suspended Flywheel; Neural Network; Unbalance Vibration;
Conference_Titel :
Control Conference (CCC), 2010 29th Chinese
Conference_Location :
Beijing
Print_ISBN :
978-1-4244-6263-6
