This letter suggests a new way to investigate 3-D chaos in spatial and frequency domains simultaneously. After spatially decomposing the Lorenz attractor into two separate scrolls with peaked spectra and a 1-D discrete-time zero-crossing series with a wide-band spectrum, it is found that the Lorenz chaotic attractor has an inherent frequency uniquely determined by the three system parameters. This result implies that chaos in the Lorenz attractor is mainly exhibited when the trajectory crosses from one scroll to another, not within the two scrolls. This is also true for some other double-scroll Lorenz-like chaotic attractors, such as Chua's attractor. Some possible applications of the inherent frequency and the spatial decomposition are als...
To investigate the Rössler attractor, introduced in 1976 by O.E. Rössler [3], we used Lorenz plot to...
Control of chaos present in the Lorenz system was realized numerically by using an unstable periodic...
In this paper, we consider three-dimensional dynamical systems, as for example the Lorenz model. For...
This research introduces and analyzes the famous Lorenz equations which are a classical example of a...
Chaos is everywhere in nature, from the formation of the snowflake or the trajectory of planets in t...
In this paper, we propose a continuous-time nonautonomous three-dimensional dynamical system, which ...
Frequency estimates are derived for the Lyapunov dimension of attractors of non-linear dynamical sys...
This work presents and investigates a new chaotic system with eight terms. By numerical simulation, ...
The influence of noise on the Lorenz model has been studied in parameter ranges where it is characte...
A paraphrase of Tolstoy that has become popular in the field of nonlinear dynamics is that while all...
This article introduces a novel three-dimensional continuous autonomous chaotic system with six term...
It is very unusual for a mathematical or physical idea to disseminate into the society at large. An ...
In this paper we study the local codimension one and two bifurcations which occur in a family of thr...
The purpose of this project is to investigate the system parameter and certain signal processing tec...
In this dissertation a study is made of chaotic behaviour, the bifurcation sequences leading to chao...
To investigate the Rössler attractor, introduced in 1976 by O.E. Rössler [3], we used Lorenz plot to...
Control of chaos present in the Lorenz system was realized numerically by using an unstable periodic...
In this paper, we consider three-dimensional dynamical systems, as for example the Lorenz model. For...
This research introduces and analyzes the famous Lorenz equations which are a classical example of a...
Chaos is everywhere in nature, from the formation of the snowflake or the trajectory of planets in t...
In this paper, we propose a continuous-time nonautonomous three-dimensional dynamical system, which ...
Frequency estimates are derived for the Lyapunov dimension of attractors of non-linear dynamical sys...
This work presents and investigates a new chaotic system with eight terms. By numerical simulation, ...
The influence of noise on the Lorenz model has been studied in parameter ranges where it is characte...
A paraphrase of Tolstoy that has become popular in the field of nonlinear dynamics is that while all...
This article introduces a novel three-dimensional continuous autonomous chaotic system with six term...
It is very unusual for a mathematical or physical idea to disseminate into the society at large. An ...
In this paper we study the local codimension one and two bifurcations which occur in a family of thr...
The purpose of this project is to investigate the system parameter and certain signal processing tec...
In this dissertation a study is made of chaotic behaviour, the bifurcation sequences leading to chao...
To investigate the Rössler attractor, introduced in 1976 by O.E. Rössler [3], we used Lorenz plot to...
Control of chaos present in the Lorenz system was realized numerically by using an unstable periodic...
In this paper, we consider three-dimensional dynamical systems, as for example the Lorenz model. For...