Correlation Testing for Affine Invariant Properties on \(\mathbb{F}_p^n\) in the High Error Regime

Recently there has been much interest in Gowers uniformity norms from the perspective of theoretical computer science. This is mainly due to the fact that these norms provide a method for testing whether the maximum correlation of a function \(f:\mathbb{F}_p^n \rightarrow \mathbb{F}_p\) with polynom...

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Bibliographic Details
Published in:arXiv.org 2013-08
Main Authors: Hatami, Hamed, Lovett, Shachar
Format: Article
Language:English
Subjects:
Acceptance tests
Error analysis
Fourier analysis
Invariants
Norms
Number theory
Polynomials
Properties (attributes)
Queries
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Summary:Recently there has been much interest in Gowers uniformity norms from the perspective of theoretical computer science. This is mainly due to the fact that these norms provide a method for testing whether the maximum correlation of a function \(f:\mathbb{F}_p^n \rightarrow \mathbb{F}_p\) with polynomials of degree at most \(d \le p\) is non-negligible, while making only a constant number of queries to the function. This is an instance of {\em correlation testing}. In this framework, a fixed test is applied to a function, and the acceptance probability of the test is dependent on the correlation of the function from the property. This is an analog of {\em proximity oblivious testing}, a notion coined by Goldreich and Ron, in the high error regime. In this work, we study general properties which are affine invariant and which are correlation testable using a constant number of queries. We show that any such property (as long as the field size is not too small) can in fact be tested by Gowers uniformity tests, and hence having correlation with the property is equivalent to having correlation with degree \(d\) polynomials for some fixed \(d\). We stress that our result holds also for non-linear properties which are affine invariant. This completely classifies affine invariant properties which are correlation testable. The proof is based on higher-order Fourier analysis. Another ingredient is a nontrivial extension of a graph theoretical theorem of Erd\"os, Lovász and Spencer to the context of additive number theory.
ISSN:2331-8422