Diffuse element method

The diffuse element method (DEM) is a computer simulation technique used in engineering analysis. It is a meshfree method.

The diffuse element method was developed by B. Nayroles, G. Touzot and Pierre Villon at the Universite de Technologie de Compiegne, in 1992. It is in concept rather similar to the much older smoothed particle hydrodynamics. In the paper they describe a "diffuse approximation method", a method for function approximation from a given set of points. In fact it seems they rediscovered an already known technique, moving least squares. Using this function approximation method, partial differential equations and thus fluid dynamic problems can be solved. For this, they coined the term Diffuse Element Method (DEM). Advantages over finite element methods are that DEM doesn't rely on a grid, and is more precise in the evaluation of the derivatives of the reconstructed functions.

• Moving least squares
• Finite element method
• Smoothed Particle Hydrodynamics
• Meshfree methods
• Computational Fluid Dynamics

• Generalizing the finite element method: diffuse approximation and diffuse elements, B Nayroles, G Touzot. Pierre Villon, P, Computational Mechanics Volume 10, pp 307-318, 1992

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