Fractal and Fractional (Dec 2021)

Rational Approximations of Arbitrary Order: A Survey

  • José Daniel Colín-Cervantes,
  • Carlos Sánchez-López,
  • Rocío Ochoa-Montiel,
  • Delia Torres-Muñoz,
  • Carlos Manuel Hernández-Mejía,
  • Luis Abraham Sánchez-Gaspariano,
  • Hugo Gustavo González-Hernández

DOI
https://doi.org/10.3390/fractalfract5040267
Journal volume & issue
Vol. 5, no. 4
p. 267

Abstract

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This paper deals with the study and analysis of several rational approximations to approach the behavior of arbitrary-order differentiators and integrators in the frequency domain. From the Riemann–Liouville, Grünwald–Letnikov and Caputo basic definitions of arbitrary-order calculus until the reviewed approximation methods, each of them is coded in a Maple 18 environment and their behaviors are compared. For each approximation method, an application example is explained in detail. The advantages and disadvantages of each approximation method are discussed. Afterwards, two model order reduction methods are applied to each rational approximation and assist a posteriori during the synthesis process using analog electronic design or reconfigurable hardware. Examples for each reduction method are discussed, showing the drawbacks and benefits. To wrap up, this survey is very useful for beginners to get started quickly and learn arbitrary-order calculus and then to select and tune the best approximation method for a specific application in the frequency domain. Once the approximation method is selected and the rational transfer function is generated, the order can be reduced by applying a model order reduction method, with the target of facilitating the electronic synthesis.

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