A modified simple logistic chaotic map through exponential controller in nonlinear term

Author

Noymanee, Jeerana ; San-Um, Wimol

Author_Institution

Intell. Electron. Syst. (IES) Res. Lab., Thai-Nichi Inst. of Technol. (TNI), Bangkok, Thailand

fYear

2015

fDate

28-30 July 2015

Firstpage

533

Lastpage

537

Abstract

A typical logistic map has been utilized in a variety of applications such as in biological modeling and secure communications. Nonetheless, such a typical logistic map has only a single control parameter that sets all dynamic behaviors. This paper therefore introduces a new arbitrary power in the quadratic term in order to control stability of the system. The addition arbitrary power subsequently increases the degree of freedom of the logistic map and provides versatile responses as well as the flexibility of the system. Dynamic properties are described in terms of Cobweb plots, bifurcations, Lyapunov exponents, and chaotic waveforms in time domain. Experimental results utilize the Arduino microcontroller to generate chaotic waveforms with a relatively flat spectrum in frequency domain. The application in random-bit generator that passes all NIST standard tests is also involved.

Keywords

control engineering computing; microcontrollers; nonlinear control systems; stability; Arduino microcontroller; Cobweb plots; Lyapunov exponents; NIST standard tests; addition arbitrary power; bifurcations; chaotic waveforms; control parameter; exponential controller; frequency domain; nonlinear term; quadratic term; random-bit generator; simple logistic chaotic map; stability control; time domain; Bifurcation; Chaotic communication; Logistics; Mathematical model; NIST; Time-domain analysis; Absolute Value nonlinearity; Bifurcation; Generalization; Lyapunov exponent; Robust Chaos;

fLanguage

English

Publisher

ieee

Conference_Titel

Science and Information Conference (SAI), 2015

Conference_Location

London

Type

conf

DOI

10.1109/SAI.2015.7237194

Filename

7237194