This is the author accepted manuscript. The final version is available from IEEE via the DOI in this record.Multi-wing chaotic attractors are highly complex nonlinear dynamical systems with higher number of index-2 equilibrium points. Due to the presence of several equilibrium points, randomness of the state time series for these multi-wing chaotic systems is higher than that of the conventional double wing chaotic attractors. A real coded Genetic Algorithm (GA) based global optimization framework has been presented in this paper, to design optimum PID controllers so as to control the state trajectories of three different multi-wing Lorenz like chaotic systems viz. Lu, Rucklidge and Sprott-1 system
In this paper, the Twin rotor MIMO system (TRMS) is tuned by Nonlinear PID controller using Evolutio...
The Lorenz chaotic system is based on a nonlinear behavior and this causes the system to be unstable...
Abstract: In this paper, several three dimensional (3-D) four-wing smooth quadratic autonomous chaot...
In this paper, we propose a novel methodology for automatically finding new chaotic attractors throu...
In this paper, the existence of 2n-wing chaotic attractors in a family of Lorenz-like systems is con...
A new method is presented to construct grid multi-wing butterfly chaotic attractors. Based on the th...
In this paper, a dynamical analysis of the novel hyperchaotic system with four parameters is present...
This paper introduces a new method for the control of nonlinear systems using genetic algorithms. Th...
Abstract: In this paper, several three dimensional (3-D) four-wing smooth quadratic autonomous chaot...
In this study, a new single-state sliding mode controller is proposed that can be used in multi-inpu...
Multi-wing chaotic attractors are highly complex nonlinear dynamical systems. A new four-scroll chao...
The complex Lorenz system is a simplified nonlinear dynamical system, which is derived from the Navi...
International audienceThis paper deals with an advanced adjustment of stabilization sequences for se...
Copyright © 2014 Andrej Sarjas ̌ et al. This is an open access article distributed under the Creativ...
Lorenz system, as the first classical chaotic system, has been intensively investigated over the las...
In this paper, the Twin rotor MIMO system (TRMS) is tuned by Nonlinear PID controller using Evolutio...
The Lorenz chaotic system is based on a nonlinear behavior and this causes the system to be unstable...
Abstract: In this paper, several three dimensional (3-D) four-wing smooth quadratic autonomous chaot...
In this paper, we propose a novel methodology for automatically finding new chaotic attractors throu...
In this paper, the existence of 2n-wing chaotic attractors in a family of Lorenz-like systems is con...
A new method is presented to construct grid multi-wing butterfly chaotic attractors. Based on the th...
In this paper, a dynamical analysis of the novel hyperchaotic system with four parameters is present...
This paper introduces a new method for the control of nonlinear systems using genetic algorithms. Th...
Abstract: In this paper, several three dimensional (3-D) four-wing smooth quadratic autonomous chaot...
In this study, a new single-state sliding mode controller is proposed that can be used in multi-inpu...
Multi-wing chaotic attractors are highly complex nonlinear dynamical systems. A new four-scroll chao...
The complex Lorenz system is a simplified nonlinear dynamical system, which is derived from the Navi...
International audienceThis paper deals with an advanced adjustment of stabilization sequences for se...
Copyright © 2014 Andrej Sarjas ̌ et al. This is an open access article distributed under the Creativ...
Lorenz system, as the first classical chaotic system, has been intensively investigated over the las...
In this paper, the Twin rotor MIMO system (TRMS) is tuned by Nonlinear PID controller using Evolutio...
The Lorenz chaotic system is based on a nonlinear behavior and this causes the system to be unstable...
Abstract: In this paper, several three dimensional (3-D) four-wing smooth quadratic autonomous chaot...