Recent advances in engineering applications of chaos include multimedia security, disturbance modeling in power systems and performance enhancement of electronic circuits among others
Mathematics behind the fractional-order smith chart
For the first time, a generalized admittance Smith chart theory is introduced to represent fractional order circuit elements
Chaos synchronisation of continuous systems via scalar signal
2017Azar A.T.Confrence PaperGrassi G.Kyprianidis I.M.Madian A.Ouannas A.Pham V.-T.Radwan A.G.Stouboulos I.N.Volos C.Ziar T.
By analyzing the issue of chaos synchronization in the literature, it can be noticed the lack of a general approach, which would enable any type of synchronization to be achieved
Fibonacci-based hardware post-processing for non-autonomous signum hyperchaotic system
This paper presents a hardware implementation of a robust non-autonomous hyperchaotic-based PRNG driven by a 256-bit LFSR
Reactance-less RM relaxation oscillator using exponential memristor model
Recently, the memristor based relaxation oscillators become an important topic in circuit theory where the reactive elements are replaced by memristor which occupies a very small area
Generic FPGA Design of Spiking Neuron Model
This paper introduces a new representation of the human brain neuron cell response
Elmore delay in the fractional order domain
Interconnect design has recently become one of the important factors that affect the circuit delay and performance especially in the deep submicron technology
Rectangular waveguides in the fractional-order domain
This work introduces Maxwell’s equations in their time domain fractional derivatives form
Review of the missing mechanical element: Memdamper
In this paper, the analogy between electrical and mechanical quantities is reviewed
Comparative study of fractional filters for Alzheimer disease detection on MRI images
This paper presents a comparative study of four fractional order filters used for edge detection