Flight vehicle aerodynamics calculated by a Galerkin finite element/finite difference method

This paper considers the power injected into waveguide structures from forces that are concentrated along the waveguide but are otherwise arbitrary. The motion of the structure is described by a set of coupled, linear, one-dimensional wave equations. These equations are, in this work, devised by the

This paper studies a time-discontinuous Galerkin finite element method for structural dynamic problems, by which both displacements and velocities are approximated as piecewise linear functions in the time domain and may be discontinuous at the discrete time levels. A new iterative solution algorith

We describe a second-order discontinuous Galerkin ®nite-element method for the solution of an optimal control problem for determining the trajectory of a launch vehicle. We derive an a posteriori error estimate that is subsequently implemented as the basis for adaptive error control. We demonstrate