This paper proposes a new design of a 2?-order fractional-order band-pass filter with tunability feature
On the Approximations of CFOA-Based Fractional-Order Inverse Filters
In this paper, three novel fractional-order CFOA-based inverse filters are introduced
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
Identifying the Parameters of Cole Impedance Model Using Magnitude Only and Complex Impedance Measurements: A Metaheuristic Optimization Approach
Due to the good correlation between the physiological and pathological conditions of fruits and vegetables and their equivalent Cole impedance model parameters, an accurate and reliable technique for their identification is sought by many researchers since the introduction of the model in early 1940s
Extracting Optimized Bio-Impedance Model Parameters Using Different Topologies of Oscillators
This paper demonstrates the possibility of extracting the single-dispersion and double-dispersion Cole-bio-impedance model parameters using oscillators (sinusoidal or relaxation)
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
Software and Hardware Implementation Sensitivity of Chaotic Systems and Impact on Encryption Applications
This paper discusses the implementation sensitivity of chaotic systems added to their widely discussed sensitivities to initial conditions and parameter variation
Fractional chaos maps with flower pollination algorithm for chaotic systemsÂ’ parameters identification
Meta-heuristic optimization algorithms are the new gate in solving most of the complicated nonlinear systems
Numerical Simulations and FPGA Implementations of Fractional-Order Systems Based on Product Integration Rules
Product integration (PI) rules are well known numerical techniques that are used to solve differential equations of integer and, recently, fractional orders
Enhanced FPGA realization of the fractional-order derivative and application to a variable-order chaotic system
The efficiency of the hardware implementations of fractional-order systems heavily relies on the efficiency of realizing the fractional-order derivative operator