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Mon, 25 Feb 2008 10:55:30 +0100Mon, 25 Feb 2008 10:55:30 +0100Fast Wavelet Transform by Biorthogonal Locally Supported Radial Basis Functions on Fixed Spherical Grids
https://kluedo.ub.uni-kl.de/frontdoor/index/index/docId/1932
The thesis is concerned with multiscale approximation by means of radial basis functions on hierarchically structured spherical grids. A new approach is proposed to construct a biorthogonal system of locally supported zonal functions. By use of this biorthogonal system of locally supported zonal functions, a spherical fast wavelet transform (SFWT) is established. Finally, based on the wavelet analysis, geophysically and geodetically relevant problems involving rotation-invariant pseudodifferential operators are shown to be efficiently and economically solvable.Ali A. Moghisehdoctoralthesishttps://kluedo.ub.uni-kl.de/frontdoor/index/index/docId/1932Mon, 25 Feb 2008 10:55:30 +0100Regularization Wavelets and Multiresolution
https://kluedo.ub.uni-kl.de/frontdoor/index/index/docId/609
Many problems arising in (geo)physics and technology can be formulated as compact operator equations of the first kind \(A F = G\). Due to the ill-posedness of the equation a variety of regularization methods are in discussion for an approximate solution, where particular emphasize must be put on balancing the data and the approximation error. In doing so one is interested in optimal parameter choice strategies. In this paper our interest lies in an efficient algorithmic realization of a special class of regularization methods. More precisely, we implement regularization methods based on filtered singular value decomposition as a wavelet analysis. This enables us to perform, e.g., Tikhonov-Philips regularization as multiresolution. In other words, we are able to pass over from one regularized solution to another one by adding or subtracting so-called detail information in terms of wavelets. It is shown that regularization wavelets as proposed here are efficiently applicable to a future problem in satellite geodesy, viz. satellite gravity gradiometry.Willi Freeden; F. Schneiderpreprinthttps://kluedo.ub.uni-kl.de/frontdoor/index/index/docId/609Mon, 03 Apr 2000 00:00:00 +0200Geophysical Field Modelling by Multiresolution Analysis
https://kluedo.ub.uni-kl.de/frontdoor/index/index/docId/628
Wavelet transform originated in 1980's for the analysis of seismic signals has seen an explosion of applications in geophysics. However, almost all of the material is based on wavelets over Euclidean spaces. This paper deals with the generalization of the theory and algorithmic aspects of wavelets to a spherical earth's model and geophysically relevant vector fields such as the gravitational, magnetic, elastic field of the earth.A scale discrete wavelet approach is considered on the sphere thereby avoiding any type of tensor-valued 'basis (kernel) function'. The generators of the vector wavelets used for the fast evaluation are assumed to have compact supports. Thus the scale and detail spaces are finite-dimensional. As an important consequence, detail information of the vector field under consideration can be obtained only by a finite number of wavelet coefficients for each scale. Using integration formulas that are exact up to a prescribed polynomial degree, wavelet decomposition and reconstruction are investigated for bandlimited vector fields. A pyramid scheme for the recursive computation of the wavelet coefficients from level to level is described in detail. Finally, data compression is discussed for the EGM96 model of the earth's gravitational field.Michael Bayer; Stefan Beth; Willi Freedenpreprinthttps://kluedo.ub.uni-kl.de/frontdoor/index/index/docId/628Mon, 03 Apr 2000 00:00:00 +0200