Positive Definite Functions on Complex Spheres and their Walks through Dimensions
Copyright policy )Positive Definite Functions on Complex Spheres and their Walks through Dimensions
We provide walks through dimensions for isotropic positive definite functions defined over complex spheres. We show that the analogues of Mont��e and Descente operators as proposed by Beatson and zu Castell [J. Approx. Theory 221 (2017), 22-37] on the basis of the original Matheron operator [Les variables r��gionalis��es et leur estimation, Masson, Paris, 1965], allow for similar walks through dimensions. We show that the Mont��e operators also preserve, up to a constant, strict positive definiteness. For the Descente operators, we show that strict positive definiteness is preserved under some additional conditions, but we provide counterexamples showing that this is not true in general. We also provide a list of parametric families of (strictly) positive definite functions over complex spheres, which are important for several applications.
- Universidade de São Paulo Brazil
- Newcastle University United Kingdom
disk polynomials, Montée, Inference from spatial processes, Positive definite functions in one variable harmonic analysis, descente, Approximation in the complex plane, Fourier series in special orthogonal functions (Legendre polynomials, Walsh functions, etc.), Mathematics - Classical Analysis and ODEs, Classical Analysis and ODEs (math.CA), FOS: Mathematics, walks through dimensions, 42A82, 42C10, 42C05, 30E10, 62M30, Orthogonal functions and polynomials, general theory of nontrigonometric harmonic analysis
disk polynomials, Montée, Inference from spatial processes, Positive definite functions in one variable harmonic analysis, descente, Approximation in the complex plane, Fourier series in special orthogonal functions (Legendre polynomials, Walsh functions, etc.), Mathematics - Classical Analysis and ODEs, Classical Analysis and ODEs (math.CA), FOS: Mathematics, walks through dimensions, 42A82, 42C10, 42C05, 30E10, 62M30, Orthogonal functions and polynomials, general theory of nontrigonometric harmonic analysis
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