The finite element method in anisotropic sobolev spaces

## Abstract The boundedness of the finite Hilbert transform operator on certain weighted __L~p~__ spaces is well known. We extend this result to give the boundedness of that operator on certain weighted Sobolev spaces. (© 2004 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)

## Abstract We investigate the spaces of functions on ℝ^__n__^ for which the generalized partial derivatives __D____~k~f__ exist and belong to different Lorentz spaces __L__ . For the functions in these spaces, the sharp estimates of the Besov type norms are found. The methods used in the paper are

In this paper, we prove a trace theorem for anisotropic weighted Sobolev spaces in a cube Q naturally associated to a class of degenerate elliptic operators. The fundamental property of this class is the existence of a suitable metric d which is "natural" for the operators. The basic tool of the pro

In this paper, we prove a trace theorem for anisotropic weighted Sobolev spaces in a cube Q naturally associated to a class of degenerate elliptic operators. The fundamental property of this class is the existence of a suitable metric d which is "natural" for the operators. The basic tool of the pro

Figure shows the percentage discrepancies between the measured resonant frequencies and those obtained from, respectively, (91, (15), and ( ) as functions of substrate electrical thicknesses of all antenna elements given in Table . The average discrepancies of expressions (9), (13, and (16) are, re