Design and simulation of a hybrid controller for a multi-input multi-output magnetic suspension system

S. Abuelenin
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引用次数: 5

Abstract

In this paper we present a Fuzzy Logic control approach designed to stabilize a multi-input multi-output magnetic suspension system. The system has four cubic floaters and four actuators that apply magnetic forces on the floaters, the suspension is performed by changing the voltages applied on the actuators, hence changing their currents, producing vertical magnetic forces that balance with the gravitational force. A fuzzy logic controller is used to control each actuator; the system is nonlinear and sensitive to initial conditions. Another fuzzy logic controller is used as a supervisory controller in order to increase the dynamic range of the system, enabling it to stabilize the floaters when the initial displacements are relatively big. Another design consideration was to keep the four floaters in the same plane as much as possible, to perform that task, a PD controller was set to modulate the currents of the four actuators in order to minimize an error signal measuring the relative vertical displacement of all the four floaters. Simulation results show that the designed control scheme stabilized the system for the design constrains.
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多输入多输出磁悬浮系统混合控制器的设计与仿真
本文提出了一种模糊逻辑控制方法,用于稳定多输入多输出磁悬浮系统。该系统有四个立方体浮子和四个执行器,它们对浮子施加磁力,通过改变执行器上的电压来实现悬浮,从而改变它们的电流,产生垂直磁力,与重力平衡。采用模糊控制器对各执行器进行控制;该系统是非线性的,对初始条件很敏感。另一种模糊控制器作为监控控制器,增加了系统的动态范围,使其在初始位移较大时能够稳定漂浮物。另一个设计考虑因素是尽可能使四个浮子保持在同一平面上,为了完成这项任务,设置了一个PD控制器来调制四个执行器的电流,以最小化测量所有四个浮子相对垂直位移的误差信号。仿真结果表明,所设计的控制方案能够使系统在满足设计约束的情况下保持稳定。
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