分数阶微分和不同分数阶积分器的离散化

Qi Zhang, Baoye Song, Huadong Zhao, Jiansheng Zhang
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引用次数: 5

摘要

本文研究了分数阶微分和积分器的离散化问题,这是分数阶控制器数字化实现的基础。首先,将参数化的Al-Alaoui变换表示为具有一个可变参数的一般生成函数,该生成函数可以通过调整得到常用的生成函数(如Euler算子、Tustin算子和Al-Alaoui算子)。然而,下面的仿真结果表明,对于不同分数阶,最优变量参数是不同的。在此基础上,定义了量值和相位的加权平方积分指标作为目标函数,以实现不同分数阶的最优变量参数。最后,仿真结果表明,不同分数阶的微分算子和积分算子在最优变量参数上存在很大差异,这在数字分数阶控制器的设计中应引起重视。
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Discretization of Fractional Order Differentiator and Integrator with Different Fractional Orders
This paper is concerned with the discretization of the fractional-order differentiator and integrator, which is the foundation of the digital realization of fractional order controller. Firstly, the parameterized Al-Alaoui transform is presented as a general generating function with one variable parameter, which can be adjusted to obtain the commonly used generating functions (e.g. Euler operator, Tustin operator and Al-Alaoui operator). However, the following simulation results show that the optimal variable parameters are different for different fractional orders. Then the weighted square integral index about the magtitude and phase is defined as the objective functions to achieve the optimal variable parameter for different fractional orders. Finally, the simulation results demonstrate that there are great differences on the optimal variable parameter for differential and integral operators with different fractional orders, which should be attracting more attentions in the design of digital fractional order controller.
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