A least squares finite element approach to unsteady gas dynamics

In this article we consiruct a class of functions on a bounded irregular region Rc RZ which are of compact support, smooth and locally polynomials. The basic tool is the use of ordinary B-splines associated with the square containing Cl. This construction is then used for approximating the solution

A least-squares approach is presented for implementing uniform strain triangular and tetrahedral ÿnite elements. The basis for the method is a weighted least-squares formulation in which a linear displacement ÿeld is ÿt to an element's nodal displacements. By including a greater number of nodes on t

The Taylor-least squares (TLS) scheme, developed to solve the unsteady advection4iffusion equation for advection-dominated cases in one and two dimensions, is extended to three dimensions and applied to some 3D examples to demonstrate its accuracy. The serendipity Hermite element is selected as an i

This paper presents a performance evaluation and the computational requirements of using the ®nite element (FE) method for modelling ¯exible robot manipulators. A constrained planar single-link ¯exible manipulator is considered. Finite-dimensional simulation of the manipulator is developed using the