Visible to the public Hardware Implementation of A Chaotic Pseudo Random Number Generator Based on 3D Chaotic System without Equilibrium

TitleHardware Implementation of A Chaotic Pseudo Random Number Generator Based on 3D Chaotic System without Equilibrium
Publication TypeConference Paper
Year of Publication2018
AuthorsJalilian, Maisam, Ahmadi, Arash, Ahmadi, Majid
Conference Name2018 25th IEEE International Conference on Electronics, Circuits and Systems (ICECS)
Keywords3D chaotic flows, 3D chaotic system, chaotic based digital systems, chaotic behaviors, chaotic communication, chaotic cryptography, chaotic dynamics, chaotic pseudorandom number generator, composability, cryptography, cryptography systems, deterministic chaotic systems, digital communication, digital communication systems, dynamical behavior, Dynamical Systems, Embedded systems, field programmable gate arrays, Generators, Hardware, Hardware Implementation, lightweight systems, low computational overhead, low-cost chaotic hardware, low-cost hardware platforms, Mathematical model, Predictive Metrics, pubcrawl, random number generation, Resiliency, simple nonlinear systems, three-dimensional chaotic flows, Three-dimensional displays
AbstractDeterministic chaotic systems have been studied and developed in various fields of research. Dynamical systems with chaotic dynamics have different applications in communication, security and computation. Chaotic behaviors can be created by even simple nonlinear systems which can be implemented on low-cost hardware platforms. This paper presents a high-speed and low-cost hardware of three-dimensional chaotic flows without equilibrium. The proposed chaotic hardware is able to reproduce the main mechanism and dynamical behavior of the 3D chaotic flows observed in simulation, then a Chaotic Pseudo Random Number Generator is designed based on a 3D chaotic system. The proposed hardware is implemented with low computational overhead on an FPGA board, as a proof of concept. This low-cost chaotic hardware can be utilized in embedded and lightweight systems for a variety of chaotic based digital systems such as digital communication systems, and cryptography systems based on chaos theory for Security and IoT applications.
DOI10.1109/ICECS.2018.8617960
Citation Keyjalilian_hardware_2018