On the construction of finite dimensional realizations for nonlinear forward rate models

A discrete-time finite element collocation method is applied to the equations of one-dimensional nonlinear thermoviscoelasticity. The existence and uniqueness of the approximate solution are proved and error estimates are established for approximation in a function space consisting of C' piecewise p

We investigate the effectiveness of a finite volume method incorporating radial basis functions for simulating nonlinear diffusion processes. Past work conducted in two dimensions is extended to produce a three-dimensional discretisation that employs radial basis functions (RBFs) as a means of local

We present two new ÿnite di erence methods of order two and four in a coupled manner for the general one-dimensional nonlinear biharmonic equation y IV = f(x; y; y ; y ; y ) subject to the boundary conditions y(a) = A0; y (a) = A1; y(b) = B0; y (b) = B1. In both cases, we use only three grid points

A one-dunensronal mrcroscoptc model IS used to calculate rhe desorptron rate and to mvesttgnte the role of multtphonon processes m desorptton If the viirattonal frequency of the chemlsorpttve bond IS larger than the Debye frequency, multtphonon processes of all orders must be mcluded as m our onedtm