Universal lower bound for finite-sample reconstruction error and ıts relation to prolate spheroidal functions

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Universal_Lower_Bound_for_Finite-Sample_Reconstruction_Error_and_Its_Relation_to_Prolate_Spheroidal_Functions.pdf (216.39 KB)

Date

2018

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Source Title

IEEE Signal Processing Letters

Print ISSN

1070-9908

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Publisher

Institute of Electrical and Electronics Engineers

Volume

25

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1

Pages

50 - 54

Language

English

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Article

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Abstract

We consider the problem of representing a finite-energy signal with a finite number of samples. When the signal is interpolated via sinc function from the samples, there will be a certain reconstruction error since only a finite number of samples are used. Without making any additional assumptions, we derive a lower bound for this error. This error bound depends on the number of samples but nothing else, and is thus represented as a universal curve of error versus number of samples. Furthermore, the existence of a function that achieves the bound shows that this is the tightest such bound possible.

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Keywords

Finite-energy signals, Nonbandlimited signals, Prolate spheroidal functions, Reconstruction error, Sampling theory, Unbandlimited signals, Uncertainty principle, Uncertainty relationship

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http://hdl.handle.net/11693/50203

Published Version (Please cite this version)

https://doi.org/10.1109/LSP.2017.2769695

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Scholarly Publications - Electrical and Electronics Engineering