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Quadrature in Besov spaces on the Euclidean sphere

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Quadrature in Besov spaces on the Euclidean sphere
Let q ≥ 1 be an integer, Sq denote the unit sphere embedded in the Euclidean space Rq+1, and µq be its Lebesgue surface measure. We establish upper and lower bounds for sup f∈B γ p,ρ Sq fdµq − M k=1 wkf(xk) , xk ∈ Sq , wk ∈ R, k = 1, · · ·, M, where Bγ p,ρ is the unit ball of a suitable Besov space on the sphere. The upper bounds are obtained for choices of xk and wk that admit exact quadrature for spherical polynomials of a given degree, and satisfy a certain continuity condition; the lower bounds are obtained for the infimum of the above quantity over all choices of xk and wk. Since the upper and lower bounds agree with respect to order, the complexity of quadrature in Besov spaces on the sphere is thereby established. ∗ The support of the Australian Research Council is gratefully acknowledged. Part of the work was carried out while the author was a guest of the Center for Constructive Approximation at Vanderbilt University. † The research of this author was ...
Kerstin Hesse, H. N. Mhaskar, Ian H. Sloan
Added 15 Dec 2010
Updated 15 Dec 2010
Type Journal
Year 2007
Where JC
Authors Kerstin Hesse, H. N. Mhaskar, Ian H. Sloan
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