Metric Fourier approximation of set-valued functions of bounded variation
 
 
Description:  We study set-valued functions (SVFs) mapping a real interval to compact sets in Rd. Older approaches to the approximation of set-valued functions investigated almost exclusively SVFs with convex images (values). The standard methods suffer from convexification.

In this talk I will describe a new construction that adopts the trigonometric Fourier series to set-valued functions with general (not necessarily convex) compact images. Our main result is analogous to the classical Dirichlet-Jordan Theorem for real functions. It states the pointwise convergence in the Hausdorff metric of the metric Fourier partial sums of a set-valued function of bounded variation. In particular, if the set-valued F is of bounded variation and continuous at a point x, then the metric Fourier partial sums of it at x converge to F(x). If F is continuous in a closed interval, then the convergence is uniform.

Joint work with Nira Dyn, Elza Farkhi and Alona Mokhov (Tel Aviv, Israel).
Date:  2023-03-31
Start Time:   15:00
Speaker:  Elena E. Berdysheva (Univ. of Cape Town, South Africa)
Institution:  University of Cape Town, South Africa
Place:  Sala 5.5, DMUC and Zoom
Research Groups: -Analysis
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© Centre for Mathematics, University of Coimbra, funded by
Science and Technology Foundation
Financiado total ou parcialmente pela FCT, Fundação para a Ciência e a Tecnologia, I.P., sob o Financiamento de:
UID/00324/2025 Projeto Estratégico com a referência DOI https://doi.org/10.54499/UID/00324/2025.
https://doi.org/10.54499/UID/PRR/00324/2025     UID/PRR/00324/2025   https://doi.org/10.54499/UID/PRR2/00324/2025   UID/PRR2/00324/2025
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