Distributed-order differential equations, a generalization of fractional calculus, are of increasing importance in many fields of science and engineering from the behaviour of complex dielectric media to the modelling of nonlinear systems. This Brief will broaden the toolbox available to researchers interested in modeling, analysis, control and filtering. It contains contextual material outlining the progression from integer-order, through fractional-order to distributed-order systems. Stability issues are addressed with graphical and numerical results highlighting the fundamental differences between constant-, integer-, and distributed-order treatments. The power of the distributed-order model is demonstrated with work on the stability of ...
Copyright © 2013 H. Aminikhah et al. This is an open access article distributed under the Creative C...
Fractional-order (FO) systems are a special subset of linear time-invariant (LTI) systems. The tran...
The extension of the fractional order derivative to the distributed order fractional derivative (DOF...
The theory and applications of fractional calculus (FC) had a considerable progress during the last ...
Fractional Calculus (FC) goes back to the beginning of the theory of differential calculus. Neverthe...
In this paper we introduce the distributed order fractional differential equations (DOFDE) with res...
Real-order generalization of dissipativeness and passivity concepts are presented in this paper. The...
In this paper we present and analyse a numerical method for the solution of a distributed order diff...
We considered forced harmonic vibration systems with the Liouville–Weyl fractional derivative where ...
In the last two decades fractional differential equations have been used more frequently in physics,...
This paper demonstrates the feasibility of modeling any dynamical system using a set of fractional o...
Fractional Calculus can be thought of as a generalisation of conventional calculus in the sense that...
(Fractional) differential equations have seen increasing use in physics, signal processing, fluid me...
In this article, we survey the Lyapunov direct method for distributed-order nonlinear time-varying s...
Distributed-order fractional model of viscoelastic body is used to describe wave propagation in an i...
Copyright © 2013 H. Aminikhah et al. This is an open access article distributed under the Creative C...
Fractional-order (FO) systems are a special subset of linear time-invariant (LTI) systems. The tran...
The extension of the fractional order derivative to the distributed order fractional derivative (DOF...
The theory and applications of fractional calculus (FC) had a considerable progress during the last ...
Fractional Calculus (FC) goes back to the beginning of the theory of differential calculus. Neverthe...
In this paper we introduce the distributed order fractional differential equations (DOFDE) with res...
Real-order generalization of dissipativeness and passivity concepts are presented in this paper. The...
In this paper we present and analyse a numerical method for the solution of a distributed order diff...
We considered forced harmonic vibration systems with the Liouville–Weyl fractional derivative where ...
In the last two decades fractional differential equations have been used more frequently in physics,...
This paper demonstrates the feasibility of modeling any dynamical system using a set of fractional o...
Fractional Calculus can be thought of as a generalisation of conventional calculus in the sense that...
(Fractional) differential equations have seen increasing use in physics, signal processing, fluid me...
In this article, we survey the Lyapunov direct method for distributed-order nonlinear time-varying s...
Distributed-order fractional model of viscoelastic body is used to describe wave propagation in an i...
Copyright © 2013 H. Aminikhah et al. This is an open access article distributed under the Creative C...
Fractional-order (FO) systems are a special subset of linear time-invariant (LTI) systems. The tran...
The extension of the fractional order derivative to the distributed order fractional derivative (DOF...