Discrete Green functions for layered strata

We study discrete Green's functions and their relationship with discrete Laplace equations. Several methods for deriving Green's functions are discussed. Green's functions can be used to deal with diffusion-type problems on graphs, such as chipfiring, load balancing, and discrete Markov chains.

In this paper, the complete Green's functions in a multilayered, isotropic, and poroelastic half-space are presented. It is the "rst time that all the common point sources, i.e. the total force, #uid force, #uid dilatation, and dislocation, are considered for a layered system. The Laplace transform

In this article, neural networks are employed for fast and efficient calculation of Green's functions in a layered medium. Radial basis function networks (RBFNs) are effectively trained to estimate the coefficients and the exponents that represent a Green's function in the discrete complex image met

This paper provides details of a widely applicable technique of hybrid modelling of thermal and particle diffusion which can help to reduce computational load in explicit formulations. The undesirable effects of artificial boundaries, which are introduced when a simulation is truncated or when an ex