High-resolution compact upwind finite difference methods for linear wave phenomena

Numerical methods for advection-diffusion equations are discussed based on approximating advection using a high-resolution upwind finite difference method, and incorporating diffusion using a mixed finite element method. In this approach, advection is approximated explicitly and diffusion implicitly

geometric complexity, and differing electrical properties. However, detailed anatomically based models of the hu-A hybrid finite-difference technique, for modelling the induction in compact isolated heterogeneous conductors by external low-man body at the millimeter resolution level are now feasifre

The EP d method, a finite difference method for highly dispersive linear wave equations, is introduced and analyzed. Motivated by the problem of simulating the propagation of microwave pulses through water, the method attempts to relieve the computational burden of resolving fast processes, such as