Mathematics of Computation

Author(s): Anne Gelb.
Journal: Math. Comp. 66 (1997), 699-717.
MSC (1991): Primary 42A10, 41A10, 41A25
Retrieve article in: PDF
This article is available free of charge

Abstract: Spherical harmonics have been important tools for solving geophysical and astrophysical problems. Methods have been developed to effectively implement spherical harmonic expansion approximations. However, the Gibbs phenomenon was already observed by Weyl for spherical harmonic expansion approximations to functions with discontinuities, causing undesirable oscillations over the entire sphere.

Recently, methods for removing the Gibbs phenomenon for one-dimensional discontinuous functions have been successfully developed by Gottlieb and Shu. They proved that the knowledge of the first $N$

expansion coefficients (either Fourier or Gegenbauer) of a piecewise analytic function $f(x)$

is enough to recover an exponentially convergent approximation to the point values of $f(x)$

in any subinterval in which the function is analytic.

Here we take a similar approach, proving that knowledge of the first $N$

spherical harmonic coefficients yield an exponentially convergent approximation to a spherical piecewise smooth function $f(\theta ,\phi )$ in any subinterval $[\theta _1,\theta _2], \phi \in [0,2\pi ]$ , where the function is analytic. Thus we entirely overcome the Gibbs phenomenon.

1.: M. Abramowitz and I. A. Stegun, Handbook of Mathematical Functions, Dover, 1970.
2.: H. Bateman, Higher Transcendental Functions, v2, McGraw-Hill, 1953. MR 84h:33001b
3.: E. Butkov, Mathematical Physics, Addison-Wesley Publishing Company, 1968.
4.: D. Gottlieb and S. Orszag, Numerical Analysis of Spectral Methods: Theory and Applications, SIAM-CBMS, Philadelphia, 1977. MR 58:24983
5.: D. Gottlieb, C.-W. Shu, A. Solomonoff and H. Vandeven, On The Gibbs Phenomenon I: recovering exponential accuracy from the Fourier partial sum of a non-periodic analytic function, J. Comput. Appl. Math. 43 (1992), 81-92. MR 94h:42006
6.: D. Gottlieb and C.-W. Shu, On The Gibbs Phenomenon III: recovering exponential accuracy in a sub-interval from the spectral partial sum of a piecewise analytic function, SIAM J. Numer. Anal., 33:1 (1996), 280-290. CMP 96:09
7.: D. Gottlieb and C.-W. Shu, On The Gibbs Phenomenon IV: recovering exponential accuracy in a sub-interval from a Gegenbauer partial sum of a piecewise analytic function, Math. Comp. 64:211 (1995), 1081-1095. CMP 95:11
8.: I. Gradshteyn and I. Ryzhik, Tables of Integrals, Series, and Products, Academic Press, 1980. MR 81g:33001
9.: F. John, Partial Differential Equations, Springer-Verlag, 1982. MR 87g:35002
10.: S. Orszag, Fourier Series on Spheres, Mon. Wea. Rev. 102 (1978), 56-75.
11.: P. N. Swarztrauber, On the Spectral Approximation of Discrete Scalar and Vector Functions on a Sphere, Siam J. Numer. Anal., 16:6 (1979), 934-949. MR 81c:65011
12.: H. Weyl, Die Gibbssche Erscheinung in der Theorie der Kugelfunktionen, , Springer-Verlag, 1968, 305-320.

Retrieve articles in Mathematics of Computation with MSC (1991): 42A10, 41A10, 41A25

Anne Gelb
Affiliation: Division of Applied Mathematics, Brown University, Providence, Rhode Island 02912
Email: ag@cfm.brown.edu

DOI: 10.1090/S0025-5718-97-00828-4
PII: S 0025-5718(97)00828-4
Keywords: Gibbs phenomenon, Gegenbauer polynomials, spherical harmonics, exponential accuracy
Received by editor(s): October 26, 1995
Received by editor(s) in revised form: May 1, 1996
Additional Notes: This work was supported in part by AFOSR grant F49620-95-1-0074, NSF grant DMS 95008 14, and DARPA/ONR AASERT grant N00014-93-1-0985.
Copyright of article: Copyright 1997, American Mathematical Society

			Journals Home Search Author Info Subscribe Tech Support Help
ISSN 1088-6842(e) ISSN 0025-5718(p)

Previous issue \| Table of contents \| Next issue Articles in press \| Recently posted articles \| Most recent issue \| All issues Previous Article \| Next Article


	Comments: webmaster@ams.org © Copyright 2009, American Mathematical Society Privacy Statement		Search the AMS