Approximations of the fractional-order differentiator and integrator operators s±r are proposed in this work
Editorial note Special Issue on the Design and implementation of fractional-order circuits and systems in real-world applications
The aim of this Special Issue is to present the latest developments, trends, research solutions, and applications of fractional-order circuits and systems with emphasis on real-world applications.
Guest Editorial: Fractional-Order Circuits and Systems: Theory, Design, and Applications
Nowadays, there is a significant research interest in the area of fractional-order circuits.
Programmable constant phase element realization with crossbar arrays
Introduction: Constant Phase Elements (CPEs) have been widely used in many applications due to the extra degree of freedom, which offers new responses and behaviors
Comprehensive comparison based on meta-heuristic algorithms for approximation of the fractional-order Laplacian s ? as a weighted sum of first-order high-pass filters
To implement an approximation of the fractional order Laplacian operator s ? as a weighted sum of high pass filter sections, it is essential to extract the cutoff frequencies and filter gains of each section in order to achieve the lowest error possible
Fractional-order bio-impedance modeling for interdisciplinary applications: A review
Bio-impedance circuit modeling is a popular and effective non-invasive technique used in medicine and biology to fit the measured spectral impedance data of living or non-living tissues
Cole bio-impedance model variations in daucus carota sativus under heating and freezing conditions
This paper reports on the variations in the parameters of the single dispersion Cole bio-impedance model of Daucus Carota Sativus (carrots) under heating and freezing conditions
Experimental comparison of integer/fractional-order electrical models of plant
In this paper, different integer and fractional-order models are studied from electrical point of view, these models are used to fit the measured impedance data for different types of fruits and vegetables
Chaotic Flower Pollination and Grey Wolf Algorithms for parameter extraction of bio-impedance models
Precise parameter extraction of the bio-impedance models from the measured data is an important factor to evaluate the physiological changes of plant tissues
FPGA Realizations of Chaotic Epidemic and Disease Models including Covid-19
The spread of epidemics and diseases is known to exhibit chaotic dynamics; a fact confirmed by many developed mathematical models