Due to the non-idealities of commercial inductors, the demand for a better model that accurately describe their dynamic response is elevated
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
On The Optimization of Fractional Order Low-Pass Filters
This paper presents three different optimization cases for normalized fractional order low-pass filters (LPFs) with numerical, circuit and experimental results
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
Fractional calculus definitions, approximations, and engineering applications
The basic idea behind fractional calculus is that it considers derivatives and integrals of non-integer orders giving extra degrees of freedom and tuning knobs for modeling complex and memory dependent systems with compact descriptions
Biohybrid soft robots, E-skin, and bioimpedance potential to build up their applications: A review
Soft Robotics is a new approach towards better human-robot interaction and biomimicry in the robotics field
Power and energy analysis of fractional-order electrical energy storage devices
Characterizing and modeling electrical energy storage devices is essential for their proper integration in larger systems
Capacitive behavior and stored energy in supercapacitors at power line frequencies
Supercapacitors are commonly viewed and mainly employed as dc electrical energy storage devices
Low-voltage commercial super-capacitor response to periodic linear-with-time current excitation: A case study
The response of a commercial super-capacitor to an applied periodic current excitation in the form of a triangular waveform is investigated in this study
Fractional order butterworth filter: Active and passive realizations
This paper presents a general procedure to obtain Butterworth filter specifications in the fractional-order domain where an infinite number of relationships could be obtained due to the extra independent fractional-order parameters which increase the filter degrees-of-freedom