Weighted sampling and weighted interpolation on combinatorial graphs
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For Paley-Wiener functions on weighted combinatorial finite or infinite graphs we develop a weighted sampling theory in which samples are defined as inner products with weight functions (measuring devices). Three reconstruction methods are suggested. The first two of them are using language of dual Hilbert frames and the so-called frame algorithm respectively. The third one is using the so-called weighted variational interpolating splines which are constructed in the setting of combinatorial graphs. This development requires a new set of Poincar\'e-type inequalities which we prove for functions on combinatorial graphs.
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Spectral distribution of Jacobi weighted histopolation matrices via GLT theory
Jacobi-weighted histopolation matrices admit exact tridiagonal factorizations and belong to the GLT class with explicit symbols that determine their asymptotic spectral distributions under mesh regularity.
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