An adaptive fuzzy sliding mode control of a permanent magnet linear synchronous motor for an inimical command velocity profile

2011 IEEE International Conference on System Engineering and Technology Pub Date : 2011-06-27 DOI:10.1109/ICSENGT.2011.5993418

P. Ghaebi Panah, M. Ataei, A. Shafiei

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引用次数: 3

Abstract

An adaptive fuzzy variable structure velocity controller of a permanent magnet linear synchronous motor (PMLSM) is designed for a command profile which has rapid change in a wide range. This is performed for comprehensive nonlinear model of PMLSM including non-idealities such as detent force, parameter uncertainty, unpredicted disturbance, and nonlinear friction. The proposed method is based on the adaptive sliding mode control (SMC) enhanced with a fuzzy inference to determine coefficients of the controller. The fuzzy block uses the desired and real velocity, and also its derivative as three inputs and a and C as outputs. A set of 343 rules come together to make a fuzzy rule base which brings a powerful controller with high resolution for different situations. As an evaluation criterion of the performance of the proposed method, a proportional - integral (PI) controller is designed whose parameters are optimally tuned by the particle Swarm Optimization (PSO) algorithm for better comparison.

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基于命令速度曲线的永磁直线同步电机自适应模糊滑模控制

针对永磁直线同步电动机指令线在大范围内快速变化的特点，设计了一种自适应模糊变结构速度控制器。该方法适用于包括制动力、参数不确定性、不可预测扰动和非线性摩擦等非理想因素的永磁同步电机综合非线性模型。该方法基于自适应滑模控制(SMC)，增强了模糊推理来确定控制器的系数。模糊块使用期望和实际速度，以及它的导数作为三个输入，a和C作为输出。一组343条规则汇集在一起，形成一个模糊规则库，它为不同的情况带来了一个强大的高分辨率控制器。设计了一个比例积分(PI)控制器，并采用粒子群优化算法对其参数进行优化调整，作为评价方法性能的标准。

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2011 IEEE International Conference on System Engineering and Technology

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