IEEE Access (Jan 2019)

Synthesis and Optimization of Fractional-Order Elements Using a Genetic Algorithm

  • Aslihan Kartci,
  • Agamyrat Agambayev,
  • Mohamed Farhat,
  • Norbert Herencsar,
  • Lubomir Brancik,
  • Hakan Bagci,
  • Khaled N. Salama

DOI
https://doi.org/10.1109/ACCESS.2019.2923166
Journal volume & issue
Vol. 7
pp. 80233 – 80246

Abstract

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This study proposes a new approach for the optimization of phase and magnitude responses of fractional-order capacitive and inductive elements based on the mixed integer-order genetic algorithm (GA), over a bandwidth of four-decade, and operating up to 1 GHz with a low phase error of approximately ±1°. It provides a phase optimization in the desired bandwidth with minimal branch number and avoids the use of negative component values, and any complex mathematical analysis. Standardized, IEC 60063 compliant commercially available passive component values are used; hence, no correction on passive elements is required. To the best knowledge of the authors, this approach is proposed for the first time in the literature. As validation, we present numerical simulations using MATLAB® and experimental measurement results, in particular, the Foster-II and Valsa structures with five branches for precise and/or high-frequency applications. Indeed, the results demonstrate excellent performance and significant improvements over the Oustaloup approximation, the Valsa recursive algorithm, and the continued fraction expansion and the adaptability of the GA-based design with five different types of distributed RC/RL network.

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