On Detecting Regularity of Functions: A Probabilistic Analysis

F. Gao; G. W. Wasilkowski

doi:10.1006/jcom.1993.1024

On Detecting Regularity of Functions: A Probabilistic Analysis

F. Gao
, G. W. Wasilkowski

Computer Science

Producción científica: Article › revisión exhaustiva

Resumen

We study the problem of detecting the regularity degree deg(f{hook}) = max{k: k ≤ r, f{hook} ∈ C^k} of functions based on a finite number of function evaluations. Since it is impossible to find deg(f{hook}) for any function f{hook}, we analyze this problem from a probabilistic perspective. We prove that when the class of considered functions is equipped with a Wiener-type probability measure, one can compute deg(f{hook}) exactly with super exponentially small probability of failure. That is, we propose an algorithm which, given n function values at equally spaced points, might propose a value different than deg(f{hook}) only with probability O((n^-1 ln n)^{(n - r)/4}). Hence, regularity detection is easy in the probabilistic setting even though it is unsolvable in the worst case setting.

Idioma original	English
Páginas (desde-hasta)	373-386
Número de páginas	14
Publicación	Journal of Complexity
Volumen	9
N.º	3
DOI	https://doi.org/10.1006/jcom.1993.1024
Estado	Published - sept 1993

ASJC Scopus subject areas

Algebra and Number Theory
Statistics and Probability
Numerical Analysis
General Mathematics
Control and Optimization
Applied Mathematics

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10.1006/jcom.1993.1024

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abstract = "We study the problem of detecting the regularity degree deg(f\{hook\}) = max\{k: k ≤ r, f\{hook\} ∈ Ck\} of functions based on a finite number of function evaluations. Since it is impossible to find deg(f\{hook\}) for any function f\{hook\}, we analyze this problem from a probabilistic perspective. We prove that when the class of considered functions is equipped with a Wiener-type probability measure, one can compute deg(f\{hook\}) exactly with super exponentially small probability of failure. That is, we propose an algorithm which, given n function values at equally spaced points, might propose a value different than deg(f\{hook\}) only with probability O((n-1 ln n)(n - r)/4). Hence, regularity detection is easy in the probabilistic setting even though it is unsolvable in the worst case setting.",

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AB - We study the problem of detecting the regularity degree deg(f{hook}) = max{k: k ≤ r, f{hook} ∈ Ck} of functions based on a finite number of function evaluations. Since it is impossible to find deg(f{hook}) for any function f{hook}, we analyze this problem from a probabilistic perspective. We prove that when the class of considered functions is equipped with a Wiener-type probability measure, one can compute deg(f{hook}) exactly with super exponentially small probability of failure. That is, we propose an algorithm which, given n function values at equally spaced points, might propose a value different than deg(f{hook}) only with probability O((n-1 ln n)(n - r)/4). Hence, regularity detection is easy in the probabilistic setting even though it is unsolvable in the worst case setting.

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On Detecting Regularity of Functions: A Probabilistic Analysis

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