In this paper an electronic circuit for the analogue simulation of different finite dimensional approximations of the nonlinear reaction diffusion equation is proposed. The circuit consists of an array of non-linear cells similar to Cellular Neural Networks already stated and hardware implemented. Each cell is controlled by two independent parameters and uses current mode circuitry. The final purpose of these investigations is to get a better insight on the possibility of analogue simulation of nonlinear evolutive partial differential equations by means of these circuits.

Design of a cellular nonlinear network for analogue simulation of Reaction-Diffusion PDE’s

VISONE C.
2000-01-01

Abstract

In this paper an electronic circuit for the analogue simulation of different finite dimensional approximations of the nonlinear reaction diffusion equation is proposed. The circuit consists of an array of non-linear cells similar to Cellular Neural Networks already stated and hardware implemented. Each cell is controlled by two independent parameters and uses current mode circuitry. The final purpose of these investigations is to get a better insight on the possibility of analogue simulation of nonlinear evolutive partial differential equations by means of these circuits.
2000
Cellular neural networks; Computer simulation,; Partial differential equations
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.12070/12517
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