This paper studies the regularity of solutions to boundary value problems for the Laplace operator on Lipschitz domains {Omega} in R{sup d} and its relationship with adaptive and other nonlinear methods for approximating these solutions. The smoothness spaces which determine the efficiency of such nonlinear approximation in L{sub p}({Omega}) are the Besov spaces B{sub {tau}}{sup {alpha}}(L{sub {tau}}({Omega})), {tau} := ({alpha}/d + 1/p){sup -1}. Thus, the regularity of the solution in T this scale of Besov spaces is investigated with the aim of determining the largest a for which the solution is in B{sub {tau}}{sup {alpha}}(L{sub {tau}}({Omega})). The regularity theorems given in this paper build upon the recent results of Jerison and Kenig. The proof of the regularity theorem uses characterizations of Besov spaces by wavelet expansions. 14 refs., 1 fig.
[1]
E. Stein.
Singular Integrals and Di?erentiability Properties of Functions
,
1971
.
[2]
Ronald A. DeVore,et al.
Maximal functions measuring smoothness
,
1984
.
[3]
R. DeVore,et al.
Degree of Adaptive Approximation
,
1990
.
[4]
B. Jawerth,et al.
A discrete transform and decompositions of distribution spaces
,
1990
.
[5]
Ingrid Daubechies,et al.
Ten Lectures on Wavelets
,
1992
.
[6]
R. DeVore,et al.
Compression of wavelet decompositions
,
1992
.
[7]
Y. Meyer.
Wavelets and Operators
,
1993
.
[8]
Carlos E. Kenig,et al.
The Inhomogeneous Dirichlet Problem in Lipschitz Domains
,
1995
.
[9]
Ronald A. DeVore,et al.
Some remarks on greedy algorithms
,
1996,
Adv. Comput. Math..