Your search keyword '"Chaotic oscillators"' showing total 485 results

1. Performance Evaluation of FPGA-Based Design of Modified Chua Oscillator.

Author

Taşdemir, Muhammed Furkan, Litvinenko, Anna, Koyuncu, İsmail, and Capligins, Filips

Subjects

NUMBER systems, POPULARITY, ALGORITHMS

Abstract

The chaotic systems are among the most important areas that have increased in popularity and are actively used in several fields. One of the most essential components in chaotic systems is the chaotic oscillator which generates chaotic signals. IQ-Math and floating point number systems are preferred number standards. In this study, the Modified Chua chaotic oscillator has been designed to work on FPGA chips using fixed point and floating point number representations, and both system version performances are compared. Euler numeric algorithm has been used to design the Modified Chua chaotic oscillator. In the first section of the study, the Modified Chua chaotic system based on fixed point has been composed the model in the Matlab Simulink and converted to VHDL with the help of Matlab HDL Coder Toolbox. In the second section of the study, the Modified Chua chaotic oscillator has been designed with VHDL based on floating point. Modified Chua chaotic oscillators which are composed with two different number standards have been tested using Xilinx ISE Design Tools in VHDL. Modified Chua chaotic oscillators which have two different number standards and designed, are synthesized for Virtex-6 on ML605 FPGA development board using Xilinx ISE Design Tools 14.2 program. The values that are achieved from the process of synthesizing and the process of maximum operating frequency have been presented. As a result, the study has found that fixed-point representation achieved a maximum operating frequency of 50.242 MHz, while the floating-point representation achieved 273.631 MHz. [ABSTRACT FROM AUTHOR]

Published

2024

2. Detecting hidden changes in the dynamics of noisy nonlinear time series by using the Jensen–Shannon divergence.

Author

Pukenas, Kazimieras

Abstract

A new algorithm is described for detecting hidden changes in the topological structure of the dynamics of a nonlinear system due to the perturbations in the driving signals. The proposed method is based on the use of a double sliding window and wavelet decomposition and calculates the Jensen–Shannon divergence between the probability distributions of the normalised wavelet coefficients of the first half of the sliding window and those of the second half of the sliding window. Applying the proposed approach to the Duffing and Hénon–Heiles systems, real-life signals showed their effectiveness at detecting small discontinuities in the dynamic behaviour of the system even when the system is chaotic. [ABSTRACT FROM AUTHOR]

Published

2023

3. A Robust Algorithm to Detect Causality from Highly Noisy Uni-Directionally Weakly Coupled Chaotic Oscillators.

Author

Pukenas, Kazimieras

Subjects

*NONLINEAR oscillators, *HILBERT-Huang transform, *ADDITIVE white Gaussian noise

Published

2023

4. Realization of chaotic oscillator and use in secure communication

Author

Amrita Rai, Manoj Joshi, Kamal Kishor Upadhyay, Vaibhav Khare, Jyoti, Harshit Shastri, and Shreya Goyal

Subjects

Chua circuit, Current feedback amplifier, Secure communication, Chaotic oscillators, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

This scientific study reports on the practical as well as modelling of active hybrid inductor based chaotic oscillators using Current Feedback Amplifier (CFOA) and Op-Amp. Furthermore, a workable design strategy for the chaotic oscillator and its application to secure communication are provided. Here, the transient analysis of chaos waveforms is verified by using MATLAB, Multi-SIM, and LT-Spice tools. The numerical outcomes based on LT-Spice and MATLAB are closely matched. Additionally, results from the multi-SIM platform show how a secure communication network was implemented utilising the master-slave technique of synchronisation. Finally, a comparison analysis is conducted to demonstrate the originality of the suggested work.

Published

2023

5. Highly-secured chaos-based communication system using cascaded masking technique and adaptive synchronization.

Author

Bonny, Talal, Nassan, Wafaa Al, Vaidyanathan, Sundarapandian, and Sambas, Aceng

Subjects

NONLINEAR oscillators, ADAPTIVE control systems, SYNCHRONIZATION, CHAOTIC communication, SECURITY systems, TELECOMMUNICATION systems

Abstract

Over the past years, many chaos-based secure communication system algorithms have been published for the encryption of different types of data. The problem with these algorithms is either the high complexity that makes them difficult to be implemented or the lack of the high security that prevents them from being applicable in real applications. In this paper, we propose a new highly-secured chaos-based communication system that is based on adaptive control synchronization. The implementation process of the proposed system is detailed including the oscillator dynamic equations, the control laws derivation, the numerical solutions, and the Matlab/Simulink representation. To show the efficiency of the proposed system, its security is analyzed using different security measures. This proofs that the carrier signal is unpredictable by the intruder in both time and frequency domains. The experimental results and the show that the proposed system outperforms the different related and recent work in addition to its stability and robustness to the variation of initial conditions. Finally, we introduce an application on voice encryption to demonstrate the effectiveness of our system. Then We compare the security results of our system with different implementations of recent and related work. [ABSTRACT FROM AUTHOR]

Published

2023

6. Complete Bifurcation Analysis of the Vilnius Chaotic Oscillator.

Author

Ipatovs, Aleksandrs, Victor, Iheanacho Chukwuma, Pikulins, Dmitrijs, Tjukovs, Sergejs, and Litvinenko, Anna

Subjects

NONLINEAR oscillations, CHAOTIC communication, TELECOMMUNICATION systems, NONLINEAR oscillators, EMPLOYEE motivation, ENERGY consumption

Abstract

The paper is dedicated to the numerical and experimental study of nonlinear oscillations exhibited by the Vilnius chaotic generator. The motivation for the work is defined by the need for a comprehensive analysis of the dynamics of the oscillators being embedded into chaotic communication systems. These generators should provide low-power operation while ensuring the robustness of the chaotic oscillations, insusceptible to parameter variations and noise. The work focuses on the investigation of the dependence of nonlinear dynamics of the Vilnius oscillator on the operating voltage and component parameter changes. The paper shows that the application of the Method of Complete Bifurcation Groups reveals the complex smooth and non-smooth bifurcation structures, forming regions of robust chaotic oscillations. The novel tool—mode transition graph—is presented, allowing the comparison of experimental and numerical results. The paper demonstrates the applicability of the Vilnius oscillator for the generation of robust chaos, and highlights the need for further investigation of the inherent trade-off between energy efficiency and robustness of the obtained oscillations. [ABSTRACT FROM AUTHOR]

Published

2023

7. A Bispectrum based Algorithm for Inferring Directional Coupling in Uni-Directionally Connected Chaotic Oscillators with Significant Frequency Mismatch.

Author

Pukenas, Kazimieras

Subjects

CHAOS synchronization, ADDITIVE white Gaussian noise

Published

2023

8. Fast Sub-Hz potentiostatic/galvanostatic bio-impedance measurements using chaotic oscillators.

Author

Al-Ali, Abdulwadood, Elwakil, Ahmed, Maundy, Brent, and Majzoub, Sohaib

Abstract

The measurement of bio-impedance spectra at ultra low frequencies (sub-Hz) is known to require a considerably long time with the classical frequency-sweep method or other narrow-band periodic excitation signals. In this work, an impedance measurement technique based on using wide-band chaotic signals is proposed and experimentally validated over the frequency range 10 m H z - 1 H z . The technique was tested in both potentiostatic and galvanostatic modes, first using commercial components and then using an enhanced Howland current pump designed and fabricated in a 65nm CMOS technology. The accuracy of the proposed technique was assessed on fruit samples compared to measurements conducted using a research-grade Biologic VSP-300 electro-chemical station. [ABSTRACT FROM AUTHOR]

Published

2022

9. Chaos in Analog Electronic Circuits: Comprehensive Review, Solved Problems, Open Topics and Small Example.

Author

Petrzela, Jiri

Subjects

*ELECTRONIC circuits, *PROBLEM solving, *ANALOG circuits, *MATHEMATICAL models, *ANALOG computers

Abstract

This paper strives to achieve a comprehensive review of chaos in analog circuits and lumped electronic networks. Readers will be guided from the beginning of the investigations of simple electronic circuits to the current trends in the research into chaos. The author tries to provide the key references related to this issue, including papers describing modern numerical algorithms capable of localizing chaotic and hyperchaotic motion in complex mathematical models, interesting full on-chip implementations of chaotic systems, possible practical applications of entropic signals, fractional-order chaotic systems and chaotic oscillators with mem-elements. [ABSTRACT FROM AUTHOR]

Published

2022

10. Energy function of 2D and 3D dynamical systems.

Author

Ginoux, Jean-Marc, Meucci, Riccardo, Llibre, Jaume, and Sprott, Julien Clinton

Subjects

*ENERGY function, *ORDINARY differential equations, *DYNAMICAL systems, *EQUATIONS

Abstract

It is far well-known that energy function of a two-dimensional autonomous dynamical system can be simply obtained by multiplying its corresponding second-order ordinary differential equation, i.e., its equation of motion by the first time derivative of its state variable. In the nineties, one of us (J.C.S.) stated that a three-dimensional autonomous dynamical system can be also transformed into a third-order ordinary differential equation of motion todays known as jerk equation. Although a method has been developed during these last decades to provide the energy function of such three-dimensional autonomous dynamical systems, the question arose to determine by which type of term, i.e., by the first or second time derivative of their state variable , the corresponding jerk equation of these systems should be multiplied to deduce their energy function. We prove in this work that the jerk equation of such systems must be multiplied by the second time derivative of the state variable and not by the first like in dimension two. We then provide an interpretation of the new term appearing in the energy function and called jerk energy. We thus established that it is possible to obtain the energy function of a three-dimensional dynamical system directly from its corresponding jerk equation. Two and three-dimensional Van der Pol models are then used to exemplify these main results. Applications to Lorenz and Chua's models confirms their validity. • Energy function of dissipative systems. • Helmholtz theorem. • Gibbs–Appell function. • Chaotic oscillators. • Lorenz and Chua's models. [ABSTRACT FROM AUTHOR]

Published

2025

11. Forecasting Models for Chaotic Fractional–Order Oscillators Using Neural Networks

Author

Bingi Kishore and Prusty B Rajanarayan

Subjects

chaotic oscillators, data-driven forecasting, fractional-order systems, model-free analysis, neural networks, time-series prediction, Mathematics, QA1-939, Electronic computers. Computer science, QA75.5-76.95

Abstract

This paper proposes novel forecasting models for fractional-order chaotic oscillators, such as Duffing’s, Van der Pol’s, Tamaševičius’s and Chua’s, using feedforward neural networks. The models predict a change in the state values which bears a weighted relationship with the oscillator states. Such an arrangement is a suitable candidate model for out-of-sample forecasting of system states. The proposed neural network-assisted weighted model is applied to the above oscillators. The improved out-of-sample forecasting results of the proposed modeling strategy compared with the literature are comprehensively analyzed. The proposed models corresponding to the optimal weights result in the least mean square error (MSE) for all the system states. Further, the MSE for the proposed model is less in most of the oscillators compared with the one reported in the literature. The proposed prediction model’s out-of-sample forecasting plots show the best tracking ability to approximate future state values.

Published

2021

12. Fracmemristor chaotic oscillator with multistable and antimonotonicity properties

Author

Haikong Lu, Jiri Petrzela, Tomas Gotthans, Karthikeyan Rajagopal, Sajad Jafari, and Iqtadar Hussain

Subjects

Memristor, Fracmemristor, Chaotic oscillators, Multistability, Antimonotonicity, Medicine (General), R5-920, Science (General), Q1-390

Abstract

Memristor is a non-linear circuit element in which voltage-current relationship is determined by the previous values of the voltage and current, generally the history of the circuit. The nonlinearity in this component can be considered as a fractional-order form, which yields a fractional memristor (fracmemristor). In this paper, a fractional-order memristor in a chaotic oscillator is applied, while the other electronic elements are of integer order. The fractional-order range is determined in a way that the circuit has chaotic solutions. Also, the statistical and dynamical features of this circuit are analyzed. Tools like Lyapunov exponents and bifurcation diagram show the existence of multistability and antimonotonicity, two less common properties in chaotic circuits.

Published

2020

13. A Novel Mega-stable Chaotic Circuit

Author

V. T. Pham, D. S. Ali, N. M. G. Al-Saidi, K. Rajagopal, F. E. Alsaadi, and S. Jafari

Subjects

multistability, chaotic oscillators, basin of attraction, coexisting attractors, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

In recent years designing new multistable chaotic oscillators has been of noticeable interest. A multistable system is a double-edged sword which can have many benefits in some applications while in some other situations they can be even dangerous. In this paper, we introduce a new multistable two-dimensional oscillator. The forced version of this new oscillator can exhibit chaotic solutions which makes it much more exciting. Also, another scarce feature of this system is the complex basins of attraction for the infinite coexisting attractors. Some initial conditions can escape the whirlpools of nearby attractors and settle down in faraway destinations. The dynamical properties of this new system are investigated by the help of equilibria analysis, bifurcation diagram, Lyapunov exponents’ spectrum, and the plot of basins of attraction. The feasibility of the proposed system is also verified through circuit implementation.

Published

2020

14. Chaos in Analog Electronic Circuits: Comprehensive Review, Solved Problems, Open Topics and Small Example

Author

Jiri Petrzela

Subjects

analog computer, circuit synthesis, chaos, chaotic oscillators, hyperchaos, nonlinear dynamics, Mathematics, QA1-939

Abstract

This paper strives to achieve a comprehensive review of chaos in analog circuits and lumped electronic networks. Readers will be guided from the beginning of the investigations of simple electronic circuits to the current trends in the research into chaos. The author tries to provide the key references related to this issue, including papers describing modern numerical algorithms capable of localizing chaotic and hyperchaotic motion in complex mathematical models, interesting full on-chip implementations of chaotic systems, possible practical applications of entropic signals, fractional-order chaotic systems and chaotic oscillators with mem-elements.

Published

2022

15. Experiments on Clustering and Synchronous Patterns in a Configurable Network of Chaotic Oscillators

Author

Yaghouti, Soudeh, Petrarca, Carlo, de Magistris, Massimiliano, Mantica, Giorgio, editor, Stoop, Ruedi, editor, and Stramaglia, Sebastiano, editor

Published

2017

16. Stochastic Resonance in Strongly Coupled Duffing and Van der pol Oscillators Under Trichotomous Noise and Bearing Fault Diagnosis.

Author

Zhang, Gang, Wu, Xia, and Zhang, Tianqi

Subjects

*FAULT diagnosis, *STOCHASTIC resonance, *SIGNAL detection, *NOISE, *SIGNAL processing

Abstract

Weak signal detection is an important topic, which has been widely studied in various fields. Different from other signal processing methods, stochastic resonance (SR) can utilize noise to enhance the characteristic frequency. Inspired by the unique advantage of SR, the strongly coupled Duffing and Van der pol SR system (SCD-VSR) is investigated. The simulation results show that the relationship between the output average signal–noise ratio increase (MSNRI) and different jump values of trichotomous noise presents different odd symmetrical distribution. It is also found that a double SR phenomenon could be observed when the damping coefficient of Van der pol system is small. Moreover, as the damping coefficient of the Duffing system increases, the output response would become gradually smooth. In addition,a smaller damping force coupling coefficient combined with a large restoring force coupling coefficient would achieve better system response. In the case of detecting an analog signal, MSNRI of SCD-VSR is larger than that of both classical bistable SR system (CBSR) and coupled Duffing SR system (CDSR). In addition, the experiments suggest that SCD-VSR could obtain a higher MSNRI and better detection effect, which implies the performance is superior to CBSR and CDSR. [ABSTRACT FROM AUTHOR]

Published

2020

17. Fracmemristor chaotic oscillator with multistable and antimonotonicity properties.

Author

Lu, Haikong, Petrzela, Jiri, Gotthans, Tomas, Rajagopal, Karthikeyan, Jafari, Sajad, and Hussain, Iqtadar

Subjects

*LYAPUNOV exponents, *CIRCUIT elements, *COMMONS, *INTEGERS, *ELECTRIC potential

Abstract

Memristor is a non-linear circuit element in which voltage-current relationship is determined by the previous values of the voltage and current, generally the history of the circuit. The nonlinearity in this component can be considered as a fractional-order form, which yields a fractional memristor (fracmemristor). In this paper, a fractional-order memristor in a chaotic oscillator is applied, while the other electronic elements are of integer order. The fractional-order range is determined in a way that the circuit has chaotic solutions. Also, the statistical and dynamical features of this circuit are analyzed. Tools like Lyapunov exponents and bifurcation diagram show the existence of multistability and antimonotonicity, two less common properties in chaotic circuits. [ABSTRACT FROM AUTHOR]

Published

2020

18. Enhanced FPGA realization of the fractional-order derivative and application to a variable-order chaotic system.

Author

Tolba, Mohammed F., Saleh, Hani, Mohammad, Baker, Al-Qutayri, Mahmoud, Elwakil, Ahmed S., and Radwan, Ahmed G.

Abstract

The efficiency of the hardware implementations of fractional-order systems heavily relies on the efficiency of realizing the fractional-order derivative operator. In this work, a generic hardware implementation of the fractional-order derivative based on the Grünwald–Letnikov's approximation is proposed and verified on a field-programmable gate array. The main advantage of this particular realization is its flexibility in applications which enable easy real-time configuration of the values of the fractional orders, step sizes, and/or other system parameters without changing the hardware architecture. Different approximation techniques are used to improve the hardware performance including piece-wise linear/quadratic methods. As an application, a variable-order chaotic oscillator is implemented and verified using fractional orders that vary in time. [ABSTRACT FROM AUTHOR]

Published

2020

19. Brownian Behavior in Coupled Chaotic Oscillators

Author

Francisco Javier Martín-Pasquín and Alexander N. Pisarchik

Subjects

biased Brownian motion, periodic potential, phase difference diffusion, multistability, chaotic oscillators, Mathematics, QA1-939

Abstract

Since the dynamical behavior of chaotic and stochastic systems is very similar, it is sometimes difficult to determine the nature of the movement. One of the best-studied stochastic processes is Brownian motion, a random walk that accurately describes many phenomena that occur in nature, including quantum mechanics. In this paper, we propose an approach that allows us to analyze chaotic dynamics using the Langevin equation describing dynamics of the phase difference between identical coupled chaotic oscillators. The time evolution of this phase difference can be explained by the biased Brownian motion, which is accepted in quantum mechanics for modeling thermal phenomena. Using a deterministic model based on chaotic Rössler oscillators, we are able to reproduce a similar time evolution for the phase difference. We show how the phenomenon of intermittent phase synchronization can be explained in terms of both stochastic and deterministic models. In addition, the existence of phase multistability in the phase synchronization regime is demonstrated.

Published

2021

20. Complete Bifurcation Analysis of the Vilnius Chaotic Oscillator

Author

Litvinenko, Aleksandrs Ipatovs, Iheanacho Chukwuma Victor, Dmitrijs Pikulins, Sergejs Tjukovs, and Anna

Subjects

bifurcations, chaotic oscillators, Method of Complete Bifurcation Groups, nonlinear systems, robust chaos, Vilnius oscillator

Abstract

The paper is dedicated to the numerical and experimental study of nonlinear oscillations exhibited by the Vilnius chaotic generator. The motivation for the work is defined by the need for a comprehensive analysis of the dynamics of the oscillators being embedded into chaotic communication systems. These generators should provide low-power operation while ensuring the robustness of the chaotic oscillations, insusceptible to parameter variations and noise. The work focuses on the investigation of the dependence of nonlinear dynamics of the Vilnius oscillator on the operating voltage and component parameter changes. The paper shows that the application of the Method of Complete Bifurcation Groups reveals the complex smooth and non-smooth bifurcation structures, forming regions of robust chaotic oscillations. The novel tool—mode transition graph—is presented, allowing the comparison of experimental and numerical results. The paper demonstrates the applicability of the Vilnius oscillator for the generation of robust chaos, and highlights the need for further investigation of the inherent trade-off between energy efficiency and robustness of the obtained oscillations.

Published

2023

21. An efficient algorithm for inferring functional connectivity between the drive and the noisy response chaotic oscillators with significant frequency mismatch.

Author

Pukenas, Kazimieras

Abstract

In this study, we present a new method for assessing the functional connectivity between the drive and the noisy response chaotic oscillators with significant frequency mismatch. This method is based on the footprint of the drive oscillator on the response oscillator. Specifically, we calculate the magnitude squared coherence between the intrinsic frequency of the drive oscillator and the oscillation frequency of the dynamics of the spectral energy of the response oscillator. The spectral energy of the response oscillator is estimated using a modified S-transform algorithm with a short sliding window. We apply the proposed approach to master–slave Rössler systems and coupled Van der Pol oscillators with a frequency ratio of ∼ 1:4 and show that when the slave signal is contaminated with white Gaussian noise at different signal-to-noise ratios (SNR), the new algorithm is well suited to assess the presence of coupling with a priori known direction in noisy, unidirectionally coupled chaotic oscillators, especially in the case of weak and moderate coupling. [ABSTRACT FROM AUTHOR]

Published

2020

22. A Novel Mega-stable Chaotic Circuit.

Author

Viet-Thanh PHAM, ALI, Dalia Sami, AL-SAIDI, Nadia M. G., RAJAGOPAL, Karthikeyan, ALSAADI, Fawaz E., and JAFARI, Sajad

Subjects

LYAPUNOV exponents, ATTRACTORS (Mathematics), BIFURCATION diagrams, NONLINEAR oscillators

Abstract

In recent years designing new multistable chaotic oscillators has been of noticeable interest. A multistable system is a double-edged sword which can have many benefits in some applications while in some other situations they can be even dangerous. In this paper, we introduce a new multistable two-dimensional oscillator. The forced version of this new oscillator can exhibit chaotic solutions which makes it much more exciting. Also, another scarce feature of this system is the complex basins of attraction for the infinite coexisting attractors. Some initial conditions can escape the whirlpools of nearby attractors and settle down in faraway destinations. The dynamical properties of this new system are investigated by the help of equilibria analysis, bifurcation diagram, Lyapunov exponents' spectrum, and the plot of basins of attraction. The feasibility of the proposed system is also verified through circuit implementation. [ABSTRACT FROM AUTHOR]

Published

2020

23. Synchronization of Memristor-Based Chaotic Oscillator: Experimental Verification.

Author

ATTI, MUHAMMAD TAHER ABUELMA and ALNAFISAH, ABDULLAH

Subjects

CHAOS synchronization, ELECTRIC oscillators, TELECOMMUNICATION systems, SYNCHRONIZATION

Abstract

This paper presents the experimental results obtained from the synchronization of two memristor-based Wien-bridge oscillators. The experimental results show that synchronization is feasible between two chaotic oscillators. This is very important for implementing chaotic-based secure communication systems. The experiment can be easily introduced in an undergraduate laboratory course to demonstrate the feasibility of synchronizing chaotic memristor-based oscillators. [ABSTRACT FROM AUTHOR]

Published

2020

24. Detecting Causality in Uni-directionally Coupled Chaotic Oscillators with Small Frequency Mismatch.

Author

Pukenas, Kazimieras

Subjects

CHAOS synchronization, GRANGER causality test, TIME series analysis

Published

2020

25. Simplest Megastable Chaotic Oscillator.

Author

Jafari, Sajad, Rajagopal, Karthikeyan, Hayat, Tasawar, Alsaedi, Ahmed, and Pham, Viet-Thanh

Subjects

*LYAPUNOV exponents, *BIFURCATION diagrams, *ATTRACTORS (Mathematics), *NONLINEAR oscillators

Abstract

Recently, chaotic systems with hidden attractors and multistability have been of great interest in the field of chaos and nonlinear dynamics. Two special categories of systems with multistability are systems with extreme multistability and systems with megastability. In this paper, the simplest (yet) megastable chaotic oscillator is designed and introduced. Dynamical properties of this new system are completely investigated through tools like bifurcation diagram, Lyapunov exponents, and basin of attraction. It is shown that between its countable infinite coexisting attractors, only one is self-excited and the rest are hidden. [ABSTRACT FROM AUTHOR]

Published

2019

26. A New Megastable Oscillator with Rational and Irrational Parameters.

Author

Wang, Zhen, Hamarash, Ibrahim Ismael, Shabestari, Payam Sadeghi, and Jafari, Sajad

Subjects

*DYNAMICAL systems, *NONLINEAR oscillators, *ANALOG circuits, *ATTRACTORS (Mathematics), *TORUS, *LIMIT cycles

Abstract

In this paper, a new two-dimensional nonlinear oscillator with an unusual sequence of rational and irrational parameters is introduced. This oscillator has endless coexisting limit cycles, which make it a megastable dynamical system. By periodically forcing this system, a new system is designed which is capable of exhibiting an infinite number of coexisting asymmetric torus and strange attractors. This system is implemented by an analog circuit, and its Hamiltonian energy is calculated. [ABSTRACT FROM AUTHOR]

Published

2019

27. Two-Dimensional Rotation of Chaotic Attractors: Demonstrative Examples and FPGA Realization.

Author

Sayed, W. S., Radwan, A. G., Elnawawy, M., Orabi, H., Sagahyroon, A., Aloul, F., Elwakil, A. S., Fahmy, H. A., and El-Sedeek, A.

Subjects

*ROTATIONAL motion, *LYAPUNOV exponents, *ATTRACTORS (Mathematics), *EIGENVALUES, *COMPUTER simulation

Abstract

In this work, we demonstrate the possibility of performing two-dimensional rotation on a chaotic system. This enables the rotation of its attractor in space without changing its chaotic dynamics. In particular, the rotated system preserves the same eigenvalues at all equilibrium points and its largest Lyapunov exponent remains unchanged. Two chaotic systems, one of which is the classical Lorenz system, are used to illustrate and validate the rotation operation using numerical simulations and further experimentally using a digital FPGA platform. [ABSTRACT FROM AUTHOR]

Published

2019

28. Inferring causality from highly noisy uni-directionally coupled chaotic oscillators with small frequency mismatch.

Author

Pukenas, Kazimieras

Subjects

*NONLINEAR oscillators, *RANDOM noise theory, *PHASE space, *WHITE noise, *SIGNAL-to-noise ratio

Abstract

In the present work, we present a new algorithm for assessing causality in uni-directionally coupled chaotic oscillators with small frequency mismatch embedded in heavy white Gaussian noise. This method is based on the correlation between changes in the phase dynamics of the slave oscillator and the dynamics of the phase difference between the oscillators. To recover the phase at low signal-to-noise ratio, a nonlinear adaptive denoising algorithm based on finding sinusoidal fits to the local neighbourhood of the reconstructed phase space is used. Application of the proposed approach to master-slave Rössler systems showed that the new algorithm is well-suited for assessing the presence and direction of coupling in highly noisy uni-directionally coupled chaotic oscillators, especially in the case of weak and moderate coupling. [ABSTRACT FROM AUTHOR]

Published

2019

29. Experimental Dynamics Observed in a Configurable Complex Network of Chaotic Oscillators

Author

Petrarca, Carlo, Yaghouti, Soudeh, de Magistris, Massimiliano, Junqueira Barbosa, Simone Diniz, editor, Chen, Phoebe, editor, Cuzzocrea, Alfredo, editor, Du, Xiaoyong, editor, Filipe, Joaquim, editor, Kara, Orhun, editor, Kotenko, Igor, editor, Sivalingam, Krishna M., editor, Ślęzak, Dominik, editor, Washio, Takashi, editor, Yang, Xiaokang, editor, Mladenov, Valeri M., editor, and Ivanov, Plamen Ch., editor

Published

2014

30. Experiments in Electrotherapy for Pain Relief Using a Novel Modality Concept

Author

Cevei, P., Cevei, M., Jivet, I., Magjarevic, Ratko, editor, Vlad, Simona, editor, and Ciupa, Radu V., editor

Published

2011

31. Chaos v elektronických obvodech: obsáhlý přehled, vyřešené problémy, otevřené otázky a malý příklad

Author

Jiri Petrzela

Subjects

General Mathematics, circuit synthesis, chaos, strange attractors, analog computer, obvodová syntéza, nonlinear dynamics, hyperchaos, nelineární dynamika, chaotický oscilátor, Computer Science (miscellaneous), analogový počítač, Engineering (miscellaneous), podivný atraktor, chaotic oscillators

Abstract

This paper strives to achieve a comprehensive review of chaos in analog circuits and lumped electronic networks. Readers will be guided from the beginning of the investigations of simple electronic circuits to the current trends in the research into chaos. The author tries to provide the key references related to this issue, including papers describing modern numerical algorithms capable of localizing chaotic and hyperchaotic motion in complex mathematical models, interesting full on-chip implementations of chaotic systems, possible practical applications of entropic signals, fractional-order chaotic systems and chaotic oscillators with mem-elements. Tento článek přináší obsáhlý přehled publikovaných prací na téma chaotických analogových obvodů se soustředěnými parametry. Čtenáři jsu provedeni od počátků výzkumu v oblasti chaotického chování jednoduchých elektronických obvodů až po současné trendy v této oblasti. Autor se snaží poskytnout ucelený soubor klíčových referencí, a to včetně článků popisujících moderní numerické algoritmy schopné lokalizovat chaotické a hyperchaotické řešení složitých matematických modelů, zajímavé implementace chaotických systémů na čipu, možné praktické aplikace entropických signálů, chaotických systémů necelistvých řádů a chaotických oscilátorů s mem-prvky.

Published

2022

32. A Modified Multistable Chaotic Oscillator.

Author

Wei, Zhouchao, Pham, Viet-Thanh, Khalaf, Abdul Jalil M., Kengne, Jacques, and Jafari, Sajad

Subjects

*ELECTRIC oscillators, *CHUA'S circuit, *BIFURCATION diagrams, *LYAPUNOV exponents, *STABILITY theory

Abstract

In this paper, by modifying a known two-dimensional oscillator, we obtain an interesting new oscillator with coexisting limit cycles and point attractors. Then by changing this new system to its forced version and choosing a proper set of parameters, we introduce a chaotic system with some very interesting features. In this system, not only can we see the coexistence of different types of attractors, but also a fascinating phenomenon: some initial conditions can escape from the gravity of nearby attractors and travel far away before being trapped in an attractor beyond the usual access. [ABSTRACT FROM AUTHOR]

Published

2018

33. Fully CMOS Memristor Based Chaotic Circuit

Author

S. C. Yener and H. H. Kuntman

Subjects

Memristor, CMOS design, DDCC, Chua's circuit, chaotic oscillators, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

This paper demonstrates the design of a fully CMOS chaotic circuit consisting of only DDCC based memristor and inductance simulator. Our design is composed of these active blocks using CMOS 0.18 µm process technology with symmetric ±1.25 V supply voltages. A new single DDCC+ based topology is used as the inductance simulator. Simulation results verify that the design proposed satisfies both memristor properties and the chaotic behavior of the circuit. Simulations performed illustrate the success of the proposed design for the realization of CMOS based chaotic applications.

Published

2014

34. A Giga-Stable Oscillator with Hidden and Self-Excited Attractors: A Megastable Oscillator Forced by His Twin

Author

Thoai Phu Vo, Yeganeh Shaverdi, Abdul Jalil M. Khalaf, Fawaz E. Alsaadi, Tasawar Hayat, and Viet-Thanh Pham

Subjects

chaotic oscillators, megastability, hidden attractors, entropy, Science, Astrophysics, QB460-466, Physics, QC1-999

Abstract

In this paper, inspired by a newly proposed two-dimensional nonlinear oscillator with an infinite number of coexisting attractors, a modified nonlinear oscillator is proposed. The original system has an exciting feature of having layer−layer coexisting attractors. One of these attractors is self-excited while the rest are hidden. By forcing this system with its twin, a new four-dimensional nonlinear system is obtained which has an infinite number of coexisting torus attractors, strange attractors, and limit cycle attractors. The entropy, energy, and homogeneity of attractors’ images and their basin of attractions are calculated and reported, which showed an increase in the complexity of attractors when changing the bifurcation parameters.

Published

2019

35. Analysis, Synchronization and Microcontroller Implementation of a New Quasiperiodically Forced Chaotic Oscillator with Megastability

Author

Giakoumis, Aggelos, Volos, Christos, Khalaf, Abdul Jalil M., Bayani, Atiyeh, Stouboulos, Ioannis, Rajagopal, Karthikeyan, and Jafari, Sajad

Published

2020

36. Sensitivity Optimization and Experimental Study of the Long-Range Metal Detector Based on Chaotic Duffing Oscillator

Author

Karimov, T., Druzhina, O., Vatnik, V., Ivanova, E., Kulagin, M., Ponomareva, V., Voroshilova, A., Rybin, V., Karimov, T., Druzhina, O., Vatnik, V., Ivanova, E., Kulagin, M., Ponomareva, V., Voroshilova, A., and Rybin, V.

Abstract

Sensors based on chaotic oscillators have a simple design, combined with high sensitivity and energy efficiency. Among many developed schemes of such sensors, the promising one is based on the Duffing oscillator, which possesses a remarkable property of demonstrating chaotic oscillations only in the presence of a weak sine wave at the input. The main goal of this research was to evaluate the maximal sensitivity of a practically implemented metal detector based on the Duffing oscillator and compare its sensitivity with conventional sensors. To achieve high efficiency of the Duffing-based design, we proposed an algorithm which performs a bifurcation analysis of any chaotic system, classifies the oscillation modes and determines the system sensitivity to a change in different parameters. We apply the developed algorithm to improve the sensitivity of the electronic circuit implementing the Duffing oscillator, serving as a key part of a three-coil metal detector. We show that the developed design allows detecting the presence of metal objects near the coils more reliably than the conventional signal analysis techniques, and the developed detector is capable of sensing a large metal plate at distances up to 2.8 of the coil diameter, which can be considered a state-of-the-art result. © 2022 by the authors.

Published

2022

37. Chaos in analog electronic circuits: comprehensive review, solved problems, open topics and small example

Abstract

This paper strives to achieve a comprehensive review of chaos in analog circuits and lumped electronic networks. Readers will be guided from the beginning of the investigations of simple electronic circuits to the current trends in the research into chaos. The author tries to provide the key references related to this issue, including papers describing modern numerical algorithms capable of localizing chaotic and hyperchaotic motion in complex mathematical models, interesting full on-chip implementations of chaotic systems, possible practical applications of entropic signals, fractional-order chaotic systems and chaotic oscillators with mem-elements., Tento článek přináší obsáhlý přehled publikovaných prací na téma chaotických analogových obvodů se soustředěnými parametry. Čtenáři jsu provedeni od počátků výzkumu v oblasti chaotického chování jednoduchých elektronických obvodů až po současné trendy v této oblasti. Autor se snaží poskytnout ucelený soubor klíčových referencí, a to včetně článků popisujících moderní numerické algoritmy schopné lokalizovat chaotické a hyperchaotické řešení složitých matematických modelů, zajímavé implementace chaotických systémů na čipu, možné praktické aplikace entropických signálů, chaotických systémů necelistvých řádů a chaotických oscilátorů s mem-prvky.

Published

2022

38. Chaos in analog electronic circuits: comprehensive review, solved problems, open topics and small example

Abstract

This paper strives to achieve a comprehensive review of chaos in analog circuits and lumped electronic networks. Readers will be guided from the beginning of the investigations of simple electronic circuits to the current trends in the research into chaos. The author tries to provide the key references related to this issue, including papers describing modern numerical algorithms capable of localizing chaotic and hyperchaotic motion in complex mathematical models, interesting full on-chip implementations of chaotic systems, possible practical applications of entropic signals, fractional-order chaotic systems and chaotic oscillators with mem-elements., Tento článek přináší obsáhlý přehled publikovaných prací na téma chaotických analogových obvodů se soustředěnými parametry. Čtenáři jsu provedeni od počátků výzkumu v oblasti chaotického chování jednoduchých elektronických obvodů až po současné trendy v této oblasti. Autor se snaží poskytnout ucelený soubor klíčových referencí, a to včetně článků popisujících moderní numerické algoritmy schopné lokalizovat chaotické a hyperchaotické řešení složitých matematických modelů, zajímavé implementace chaotických systémů na čipu, možné praktické aplikace entropických signálů, chaotických systémů necelistvých řádů a chaotických oscilátorů s mem-prvky.

Published

2022

39. Chaos in analog electronic circuits: comprehensive review, solved problems, open topics and small example

Abstract

This paper strives to achieve a comprehensive review of chaos in analog circuits and lumped electronic networks. Readers will be guided from the beginning of the investigations of simple electronic circuits to the current trends in the research into chaos. The author tries to provide the key references related to this issue, including papers describing modern numerical algorithms capable of localizing chaotic and hyperchaotic motion in complex mathematical models, interesting full on-chip implementations of chaotic systems, possible practical applications of entropic signals, fractional-order chaotic systems and chaotic oscillators with mem-elements., Tento článek přináší obsáhlý přehled publikovaných prací na téma chaotických analogových obvodů se soustředěnými parametry. Čtenáři jsu provedeni od počátků výzkumu v oblasti chaotického chování jednoduchých elektronických obvodů až po současné trendy v této oblasti. Autor se snaží poskytnout ucelený soubor klíčových referencí, a to včetně článků popisujících moderní numerické algoritmy schopné lokalizovat chaotické a hyperchaotické řešení složitých matematických modelů, zajímavé implementace chaotických systémů na čipu, možné praktické aplikace entropických signálů, chaotických systémů necelistvých řádů a chaotických oscilátorů s mem-prvky.

Published

2022

40. Symmetry and asymmetry induced dynamics in a memristive twin-T circuit

Author

Justin Roger Mboupda Pone, Léandre Kamdjeu Kengne, and Hilaire Bertrand Fotsin

Subjects

Physics, media_common.quotation_subject, 020208 electrical & electronic engineering, Dynamics (mechanics), 020206 networking & telecommunications, 02 engineering and technology, Memristor, Asymmetry, Symmetry (physics), law.invention, Computer Science::Hardware Architecture, Computer Science::Emerging Technologies, Classical mechanics, law, 0202 electrical engineering, electronic engineering, information engineering, Chaotic oscillators, Electrical and Electronic Engineering, media_common, Electronic circuit

Abstract

The dynamics of memristor–based chaotic oscillators with perfect symmetry is very well documented. However, the literature is relatively poor concerning the behaviour of such types of circuits when...

Published

2021

41. 电力系统故障的微弱信号检测方法的研究.

Author

刘积慧, 刘振宇, 杨政, and 武志强

Abstract

Copyright of Computer Measurement & Control is the property of Magazine Agency of Computer Measurement & Control and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

42. The design and realization of a new high speed FPGA-based chaotic true random number generator.

Author

Koyuncu, İsmail and Turan Özcerit, Ahmet

Subjects

*PERFORMANCE of field programmable gate arrays, *CHAOS synchronization, *COMPUTER hardware description languages, *RANDOM number generators, *ANALOG circuits

Abstract

Chaotic systems and chaos-based applications have been commonly used in the fields of engineering recently. The most essential part of them is the chaotic oscillator that has very critical role in some applications such as chaotic communications and cryptography. In this study, Sundarapandian–Pehlivan chaotic system has been modeled and simulated in three distinct platforms to show the advantages of FPGA-based chaotic oscillator with respect to alternative solutions. In the first stage, the chaotic system has been modeled numerically by the help of fourth order of Runge–Kutta (RK4) method. Additionally, phase portraits of the system have been obtained and Lyapunov exponents have been examined. Secondly, the system has been modeled by using PSpice for the implementation of the chaotic system with analog circuit elements. Then, Pspice simulation results have been compared with the numerical outcome to justify the designed model. Furthermore, the chaotic system has been physically confirmed with real analog circuit elements. Signals obtained from the physical system have been verified with both numerical and PSpice results. It has been also modeled by the help of method of RK4 in a hardware description language (VHDL) and the model further has been synthesized and tested for Xilinx Virtex-6 FPGA chip. Finally, the chaotic oscillator designed has been tested for True Random Number Generators (TRNG) and the maximum operating frequency has been achieved as 293 MHz with a speed of 58.76 Mbit/s. Besides, the random bit sets produced by TRNG have been further verified by FIPS-140-1 and NIST-800-22 statistical standards and it has been proved that the proposed design can be used in embedded cryptologic applications. [ABSTRACT FROM AUTHOR]

Published

2017

43. Noise‐induced transformations in corporate dynamics of coupled chaotic oscillators

Author

Lev Ryashko

Subjects

Noise induced, General Mathematics, Dynamics (mechanics), General Engineering, Chaotic oscillators, Statistical physics, Logistic map, Mathematics

Published

2020

44. Synchronization of fractional-order Lü chaotic oscillators for voice encryption

Author

O. García-Sepúlveda, A. D. Cortés-Preciado, Elvira Garza-González, Miguel Angel Platas-Garza, Allan G. S. Sánchez, and C. Posadas-Castillo

Subjects

State variable, 010308 nuclear & particles physics, Computer science, business.industry, General Physics and Astronomy, Order (ring theory), Topology, Encryption, 01 natural sciences, Synchronization, Education, CHAOS (operating system), Nonlinear system, Computer Science::Multimedia, 0103 physical sciences, Modulation (music), Hardware_INTEGRATEDCIRCUITS, Chaotic oscillators, business, Computer Science::Cryptography and Security

Abstract

In this paper, the encryption improvement via modulation of the fractional order chaotic oscillators state variables, is presented. A network of N-coupled fractional order Lü chaotic oscillators, is synchronized. A voice message is encrypted via additive encryption, by using a state variable of the synchronized network. The selected state variable is modulated and used to encrypt the message again. The results are compared.

Published

2020

45. A Novel Mega-stable Chaotic Circuit

Author

Karthikeyan Rajagopal, Fuad E. Alsaadi, Nadia M. G. Al-Saidi, Dalia S. Ali, Viet-Thanh Pham, and Sajad Jafari

Subjects

Physics, coexisting attractors, basin of attraction, Chaotic, Multistability, Electrical and Electronic Engineering, Topology, Mega, chaotic oscillators

Abstract

In recent years designing new multistable chaotic oscillators has been of noticeable interest. A multistable system is a double-edged sword which can have many benefits in some applications while in some other situations they can be even dangerous. In this paper, we introduce a new multistable two-dimensional oscillator. The forced version of this new oscillator can exhibit chaotic solutions which makes it much more exciting. Also, another scarce feature of this system is the complex basins of attraction for the infinite coexisting attractors. Some initial conditions can escape the whirlpools of nearby attractors and settle down in faraway destinations. The dynamical properties of this new system are investigated by the help of equilibria analysis, bifurcation diagram, Lyapunov exponents’ spectrum, and the plot of basins of attraction. The feasibility of the proposed system is also verified through circuit implementation.

Published

2020

46. Detecting Causality in Uni-directionally Coupled Chaotic Oscillators with Small Frequency Mismatch

Author

Kazimieras Pukenas

Subjects

Phase difference, Causality (physics), Physics, Work (thermodynamics), Coupling (physics), Phase dynamics, Mechanical Engineering, Chaotic oscillators, Topology, Civil and Structural Engineering

Abstract

In the present work, we present a new method for assessing causality in uni-directionally coupled chaotic oscillators with small frequency mismatch. This method is based on the correlation between changes in the phase dynamics of the slave oscillator and the dynamics of the phase difference between the oscillators. Application of the proposed approach to master-slave R¨ossler systems showed that the new algorithm is well-suited for assessing the presence and direction of coupling, especially in the case of weak coupling.

Published

2020

47. Method of covert information transfer in still images using a chaotic oscillator

Author

Rodion Khamzaevich Baltaev

Subjects

Steganography, Computer science, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, 020206 networking & telecommunications, Image processing, 02 engineering and technology, Lyapunov exponent, symbols.namesake, Digital image, 0202 electrical engineering, electronic engineering, information engineering, symbols, 020201 artificial intelligence & image processing, Detection theory, Chaotic oscillators, Algorithm

Abstract

The subject of the research is the steganographic method of embedding information in digital images. Steganography is able to hide not only the content of information, but also the fact of its existence. The paper presents a method of embedding and extracting information into digital images using a chaotic dynamic system. Chaotic systems are sensitive to certain signals and at the same time immune to noise. These properties allow the use of chaotic systems for embedding information with small image distortions in statistical and visual terms. The methodological basis of the study is the methods of the theory of dynamical systems, mathematical statistics, as well as the theory of image processing. The novelty of the study lies in the development of a new method of embedding information in static images. The author examines in detail the problem of using a chaotic dynamic Duffing system for embedding and extracting information in digital still images. It is shown that the proposed method allows you to embed information in digital images without significant distortion.

Published

2020

48. Elegant Circuits

Author

Wesley Joo-Chen Thio and Julien Clinton Sprott

Subjects

Computer science, Simple (abstract algebra), Chaotic oscillators, Topology, Electronic circuit

Published

2022

49. Modular experimental setup for real-time analysis of emergent behavior in networks of Chua's circuits.

Author

Magistris, Massimiliano, Bernardo, Mario, Manfredi, Sabato, Petrarca, Carlo, and Yaghouti, Soudeh

Subjects

*ELECTRIC circuits, *SYNCHRONIZATION, *TIME series analysis, *ELECTRIC lines, *ANALOG circuits

Abstract

This paper describes the design, realization and use of an analogical, fully reconfigurable experimental setup to analyze the complex dynamics of networks of chaotic circuits. It reports details of the implementation and characterization of the setup, together with representative results, showing its flexibility and potential. The setup allows to choose arbitrarily the coupling strength and interconnection structure among the circuits, the type of link and to select the parameters of the node dynamics. It has a modular structure, and it can accommodate up to 32 nodes interconnected by at most 32 links. The collective dynamics of a relatively large set of different network structures and configurations has been investigated using the setup. Synchronization, pattern formation and other interesting collective phenomena were observed experimentally, their evidence being reported here as an illustration of the potential of the proposed setup. Copyright © 2015 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2016

50. Research progress of multi-scroll chaotic oscillators based on current-mode devices.

Author

Yu, Fei, Li, Ping, Gu, Ke, and Yin, Bo

Subjects

*CHAOS theory, *CURRENT-mode circuits, *ELECTRIC potential, *INFORMATION technology security, *NONLINEAR oscillators

Abstract

Compared to the traditional single scroll and double scroll chaotic systems, multi-scroll chaotic systems present more complex structure and dynamic behavior, possess good application prospect in information security and secure communications. Therefore, theoretical research and circuit implementation of multi-scroll chaotic attractor generation has become a hot spot in the research field of chaos at present domain. In this paper, we briefly overview the recent progress that has been reported in the study of multi-scroll chaotic oscillators based on current-mode devices. Multi-scroll chaotic oscillators are listed according to their electronic implementations. Finally, we list multi-scroll chaotic oscillators based on current-mode devices, and prospect development trends of multi-scroll chaotic oscillators based on current-mode devices in the future. [ABSTRACT FROM AUTHOR]

Published

2016