Chaotic systems have several engineering applications such as cryptology, random number generators, image processing and secure communication. A basic structure used in these studies is a chaotic oscillator design that produces a chaotic signal. In this paper, 5-D hyperchaotic Lorenz system (Hu, 2009) has been implemented on FPGA using Heun algorithm to improve the chaos-based embedded engineering applications. The 32-bit IEEE-754-1985 floating point format has been used in the Heun-based design. The design has been coded in VHDL. The maximum operating frequency of FPGA-based 5-D hyperchaotic Lorenz system reaches 430.146 MHz. In addition, a real circuit realisation of 5-D hyperchaotic Lorenz system has been performed using analogue circuit...
Chaotic systems and chaos-based applications have been commonly used in the fields of engineering re...
Pseudorandom numbers are widely used in information encryption, spread spectrum communication and ot...
In this work, we devise a new 5-D hyperchaotic dynamo system by adding two feedback controllers to t...
In this study, autonomous Lu-Chen (2002) chaotic system has been implemented on FPGA using Heun nume...
In this study, a new continuous-time autonomous chaotic system has been presented and implemented on...
In this study, a new continuous-time autonomous chaotic system has been presented and implemented on...
23nd Signal Processing and Communications Applications Conference (SIU) -- MAY 16-19, 2015 -- Inonu ...
Chaos and chaotic systems, one of the most important work areas in recent years, are used in areas s...
In this study, the continuous-time, autonomous, 3D chaotic system having golden-section equilibra wh...
In this study, numerical, analog and digital circuit modellings were presented with 3 dimensional, c...
In this study, we present a new approach for real-time implementation of continuous-time autonomous ...
This book offers readers a clear guide to implementing engineering applications with FPGAs, from the...
Considering the security of a communication system, designing a high-dimensional complex chaotic sys...
In this study, the continuous-time, autonomous, 3D chaotic system having golden-section equilibra wh...
This paper presents a novel simple 4-D dissipative autonomous hyperchaotic system with a saddle-poin...
Chaotic systems and chaos-based applications have been commonly used in the fields of engineering re...
Pseudorandom numbers are widely used in information encryption, spread spectrum communication and ot...
In this work, we devise a new 5-D hyperchaotic dynamo system by adding two feedback controllers to t...
In this study, autonomous Lu-Chen (2002) chaotic system has been implemented on FPGA using Heun nume...
In this study, a new continuous-time autonomous chaotic system has been presented and implemented on...
In this study, a new continuous-time autonomous chaotic system has been presented and implemented on...
23nd Signal Processing and Communications Applications Conference (SIU) -- MAY 16-19, 2015 -- Inonu ...
Chaos and chaotic systems, one of the most important work areas in recent years, are used in areas s...
In this study, the continuous-time, autonomous, 3D chaotic system having golden-section equilibra wh...
In this study, numerical, analog and digital circuit modellings were presented with 3 dimensional, c...
In this study, we present a new approach for real-time implementation of continuous-time autonomous ...
This book offers readers a clear guide to implementing engineering applications with FPGAs, from the...
Considering the security of a communication system, designing a high-dimensional complex chaotic sys...
In this study, the continuous-time, autonomous, 3D chaotic system having golden-section equilibra wh...
This paper presents a novel simple 4-D dissipative autonomous hyperchaotic system with a saddle-poin...
Chaotic systems and chaos-based applications have been commonly used in the fields of engineering re...
Pseudorandom numbers are widely used in information encryption, spread spectrum communication and ot...
In this work, we devise a new 5-D hyperchaotic dynamo system by adding two feedback controllers to t...