This paper presents a new method which exhibits the best features of both f
inite volume and finite element techniques. Special attention is given to t
he issues of conservation, flexible accuracy, and stability. The method is
elementwise conservative, the order of polynomial approximation can be adju
sted element by element, and the stability is not based on the introduction
of artificial diffusion, but on the use of a very particular finite elemen
t formulation with discontinuous basis functions.
The method supports h-, p-, and hp-approximations and can be applied to any
type of meshes, including non-matching grids. A priori error estimates and
numerical experiments on representative model problems indicate that the m
ethod is robust and capable of delivering high accuracy. (C) 1999 Elsevier
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