This paper compares the dynamical behaviour of the standard (S) cellular neural networks (CNNs) and the full-range (FR) CNNs, when the two CNN models are characterized by the same set of parameters (interconnections and inputs). The FR-CNNs are assumed to be characterized by ideal hard-limiter nonlinearities with two vertical segments in the i-υ characteristic. The main result is that some basic conditions ensuring global exponential stability (GES) of the unique equilibrium point of S-CNNs, with or without delay, continue to ensure the same property for FR-CNNs for the same set of parameters. The significance of this result is discussed with respect to the results in a paper by Corinto and Gilli addressing the similarity of the qualitative...
AbstractIn this paper, the problem of global exponential stability for cellular neural networks (CNN...
The paper develops a Lyapunov method, which is based on a generalized version of LaSalle's invarianc...
In several relevant applications to the solution of signal processing tasks in real time, a cellular...
This paper compares the dynamical behaviour of the standard (S) cellular neural networks (CNNs) and ...
The paper considers a class of Full-Range (FR) cellular neural networks (CNNs) characterized by a fi...
This brief considers a class of delayed full-range (FR) cellular neural networks (CNNs) with uncerta...
In the article, the dynamical behaviours of the full-range cellular neural networks (FRCNNs) with va...
The paper considers the full-range (FR) model of cellular neural networks (CNNs) in the case where t...
We consider the Full-Range (FR) model of Cellular Neural Networks (CNNs) in the ideal case where the...
This paper presents new sufficient conditions for the global exponential stability of the equilibriu...
This paper develops a Lyapunov approach for studying convergence and stability of a class of differe...
This paper considers the Full-range (FR) model of Cellular Neural Networks (CNNs) in the case where ...
This brief presents new sufficient conditions for the global exponential stability of the equilibriu...
AbstractIn this paper, by using the concept of differential equations with piecewise constant argume...
AbstractIn this paper, the problem of global exponential stability for cellular neural networks (CNN...
The paper develops a Lyapunov method, which is based on a generalized version of LaSalle's invarianc...
In several relevant applications to the solution of signal processing tasks in real time, a cellular...
This paper compares the dynamical behaviour of the standard (S) cellular neural networks (CNNs) and ...
The paper considers a class of Full-Range (FR) cellular neural networks (CNNs) characterized by a fi...
This brief considers a class of delayed full-range (FR) cellular neural networks (CNNs) with uncerta...
In the article, the dynamical behaviours of the full-range cellular neural networks (FRCNNs) with va...
The paper considers the full-range (FR) model of cellular neural networks (CNNs) in the case where t...
We consider the Full-Range (FR) model of Cellular Neural Networks (CNNs) in the ideal case where the...
This paper presents new sufficient conditions for the global exponential stability of the equilibriu...
This paper develops a Lyapunov approach for studying convergence and stability of a class of differe...
This paper considers the Full-range (FR) model of Cellular Neural Networks (CNNs) in the case where ...
This brief presents new sufficient conditions for the global exponential stability of the equilibriu...
AbstractIn this paper, by using the concept of differential equations with piecewise constant argume...
AbstractIn this paper, the problem of global exponential stability for cellular neural networks (CNN...
The paper develops a Lyapunov method, which is based on a generalized version of LaSalle's invarianc...
In several relevant applications to the solution of signal processing tasks in real time, a cellular...