Product integration (PI) rules are well known numerical techniques that are used to solve differential equations of integer and, recently, fractional orders
Memristor-CNTFET based ternary logic gates
Multilevel electronic systems offer the reduction of implementationÂ’ complexity, power consumption, and area
CNTFET design of a multiple-port ternary register file
Ternary number system offers higher information processing within the same number of digits when compared to binary systems
Design and Implementation of an Optimized Artificial Human Eardrum Model
This paper introduces a fractional-order eardrum Type-II model, which is derived using fractional calculus to reduce the number of elements compared to its integer-order counterpart
Design equations for fractional-order sinusoidal oscillators: Four practical circuit examples
Four practical sinusoidal oscillators are studied in the general form where fractional-order energy storage elements are considered
An expression for the voltage response of a current-excited fractance device based on fractional-order trigonometric identities
We report a closed-form expression of the voltage response of a current-excited fractance device
FPGA implementation of a chaotic oscillator with odd/even symmetry and its application
We propose a mathematical system capable of exhibiting chaos with a chaotic attractor which is odd symmetrical in the x ? y phase plane but even symmetrical in the x ? z and y ? z phase planes respectively
On the Analysis and Design of Fractional-Order Chebyshev Complex Filter
This paper introduces the concept of fractional-order complex Chebyshev filter
Nonlinear charge-voltage relationship in constant phase element
The constant phase element (CPE) or fractional-order capacitor is an electrical device that has an impedance of the form Z(s)=1/C?s?, where C? is the CPE parameter and ? is a fractional dispersion coefficient of values between 0 and 1
Enhanced hardware implementation of a mixed-order nonlinear chaotic system and speech encryption application
This paper introduces a study for the effect of using different floating-point representations on the chaotic system’s behaviour