A least-squares finite element scheme for the EW equation

The RLW equation is solved by a least-squares technique using linear space-time finite elements. In simulations of the migration of a single solitary wave this algorithm is shown to have higher accuracy and better conservation than a recent difference scheme based on cubic spline interpolation funct

Least-squares ®nite element procedure is used to generate recurrence relations for numerical solution of system of ordinary differential equations of the ®rst order. One-step least-squares method due to O.C. Zienkiewicz and R.W. Lewis [Earthquake Engrg. Struct. Dyn. 1 (1973) 407±408] is reviewed. An

This article studies a least-squares finite element method for the numerical approximation of compressible Stokes equations. Optimal order error estimates for the velocity and pressure in the H 1 are established. The choice of finite element spaces for the velocity and pressure is not subject to the