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Author(s):
K. Araki, K. Suzuki, K. Kishida and S. Kishiba
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Title:
Multiresolution Approximation of the Vector Fields on T^3
Date of publication:
Mar. 1999
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Key words:
orthonormal divergence-free vector wavelet, Hodge-Beltrami decomposition
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Abstract:
Multiresolution approxirnation (MRA) of the vector fields on T^3 is studied. We introduced in the Fourier space a triad of vector fields called helical vectors which derived frorn the spherical coordinate system basis. Utilizing the helical vectors, we proved the orthogonal decomposition of L^2(T^3) which is a synthesis of the Hodge decomposition of the differential 1- or 2-form on T^3 and the Beltrami decomposition that decompose the space of solenoidal vector fields into the eigenspaces of curl operator. In the course of proof, a general construction procedure of the divergence-free orthonormal complete basis from the basis of scalar function space is presented. Applying this procedure to MRA of L^2(T^3), we discussed the MRA of vector fields on T^3 and the analyticity and regularity of vector wavelets. It is conjectured that the orthonorrnal solenoidal wavelet basis must break gamma-regular condition, i.e. some wavelet functions cannot be rapidly decreasing function because of the inevitable singularities of helica1 vectors. The localization property and spatial structure of solenoidal wavelets derived from the Littlewood-Paley type MRA (Meyer's wavelet) are also investigated numerically.
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