This study addresses the optimization of fractional algorithms for the discrete-time control of linear and non-linear systems. The paper starts by analyzing the fundamentals of fractional control systems and genetic algorithms. In a second phase the paper evaluates the problem in an optimization perspective. The results demonstrate the feasibility of the evolutionary strategy and the adaptability to distinct types of systems
This work addresses the fractional-order dynamics during the evolution of a Genetic Algorithm popula...
The application of evolutionary algorithms in optimization is currently receiving growing interest f...
Fractional Calculus (FC) goes back to the beginning of the theory of differential calculus. Neverthe...
This paper studies the optimization of complex-order algorithms for the discrete-time control of li...
This study addresses the optimization of rational fraction approximations for the discrete-time calc...
This paper addresses the calculation of derivatives of fractional order for non-smooth data. The noi...
The theory of fractional calculus goes back to the beginning of the theory of differential calculus,...
The theory of fractional calculus goes back to the beginning of the theory of differential calculus,...
This paper analyses the performance of a Genetic Algorithm (GA) in the synthesis of digital circuits...
This paper addresses the calculation of fractional derivatives of fractional order for non-smooth da...
International audienceFractional calculus is a generalization of integration and derivative operator...
Classical fractional order controller tuning techniques usually establish the parameters of the cont...
This article illustrates several applications of fractional calculus (FC). This paper investigates t...
Discrete time control systems require sample- and-hold circuits to perform the conversion from dig...
This paper investigate the fractional-order dynamics during the evolution of a Genetic Algorithm (GA...
This work addresses the fractional-order dynamics during the evolution of a Genetic Algorithm popula...
The application of evolutionary algorithms in optimization is currently receiving growing interest f...
Fractional Calculus (FC) goes back to the beginning of the theory of differential calculus. Neverthe...
This paper studies the optimization of complex-order algorithms for the discrete-time control of li...
This study addresses the optimization of rational fraction approximations for the discrete-time calc...
This paper addresses the calculation of derivatives of fractional order for non-smooth data. The noi...
The theory of fractional calculus goes back to the beginning of the theory of differential calculus,...
The theory of fractional calculus goes back to the beginning of the theory of differential calculus,...
This paper analyses the performance of a Genetic Algorithm (GA) in the synthesis of digital circuits...
This paper addresses the calculation of fractional derivatives of fractional order for non-smooth da...
International audienceFractional calculus is a generalization of integration and derivative operator...
Classical fractional order controller tuning techniques usually establish the parameters of the cont...
This article illustrates several applications of fractional calculus (FC). This paper investigates t...
Discrete time control systems require sample- and-hold circuits to perform the conversion from dig...
This paper investigate the fractional-order dynamics during the evolution of a Genetic Algorithm (GA...
This work addresses the fractional-order dynamics during the evolution of a Genetic Algorithm popula...
The application of evolutionary algorithms in optimization is currently receiving growing interest f...
Fractional Calculus (FC) goes back to the beginning of the theory of differential calculus. Neverthe...