This paper introduces two FPGA based design approaches of the fractional order integrator and differentiator using Grünwald Letnikov (GL) definition where fixed window and linear approximation approaches are considered
FPGA Implementation of the Fractional Order Integrator/Differentiator: Two Approaches and Applications
Exploring the use of fractional calculus is essential for it to be used properly in various applications
Reconfigurable FPGA Realization of Fractional-Order Chaotic Systems
This paper proposes FPGA realization of an IP core for generic fractional-order derivative based on Grünwald-Letnikov approximation
Parameter identification of fractional-order chaotic systems using different Meta-heuristic Optimization Algorithms
Fractional-order chaotic systems (FOCS) parameter identification is an essential issue in chaos control and synchronization process
General fractional order mem-elements mutators
This paper proposes the realization of grounded and floating fractional order mem-elements (FOMEs) based on two- and three-port mutators, respectively
FPGA implementation of integer/fractional chaotic systems
Chaotic systems have remarkable importance in capturing some complex features of the physical process
On the fractional order generalized discrete maps
Chaos theory describes the dynamical systems which exhibit unpredictable, yet deterministic, behavior
Fractional-Order Generalized Gene Regulation Model CCII-Based Practical Emulator
This paper presents a complete analysis of the mathematical model of the gene regulation process
Analysis and Design of Fractional-order Low-pass Filter with Three Elements of Independent Orders
This paper studies a new fractional-order form for the active low-pass filter
Generalized fractional logistic map suitable for data encryption
This paper presents the generalization of a delayed version of the logistic map