1.3.4 Fishelov's method

A method with properties similar to the particle strength exchange (PSE) scheme was derived by Fishelov [78]. She convolves the spatial derivatives in the vorticity equation with a smoothing function and then transfers the derivatives on to that function. This procedure of using smoothing functions to compute spatial derivatives is similar to the procedure used in the Smoothed Particle Hydrodynamics (SPH) method [22,25,88,140,157,158]. Fishelov showed that the $L_2$ norm of the vorticity does not increase in her method, implying stability, at least for the heat equation, provided that the Fourier transform of the smoothing function is nonnegative. This method readily extends to higher order of accuracy. With proper discretization, it can be made to conserve vorticity exactly. Recently, Bernard & Thomas [23,24] have applied this method to boundary layers over flat plates.

However, Fishelov's method requires periodic remeshing and particle overlap to maintain accuracy [23,24] like the PSE scheme. It has therefore similar disadvantages.