Tolerant Versus Intolerant Testing for Boolean Properties: Theory of Computing: An Open Access Electronic Journal in Theoretical Computer Science

Volume 2 (2006) Article 9 pp. 173-183

Tolerant Versus Intolerant Testing for Boolean Properties

by Eldar Fischer and Lance Fortnow

Received: April 3, 2006
Published: September 25, 2006

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Keywords: property testing, tolerant testing, PCP of proximity

Categories: short, complexity theory, query complexity, property testing, lower bounds, probabilistically checkable proofs, PCP

ACM Classification: G.3, F.2.2

AMS Classification: 68Q99, 68W20

A property tester with high probability accepts inputs satisfying a given property and rejects inputs that are far from satisfying it. A tolerant property tester, as defined by Parnas, Ron and Rubinfeld, must also accept inputs that are close enough to satisfying the property. We construct two properties of binary functions for which there exists a test making a constant number of queries, but yet there exists no such tolerant test. The first construction uses Hadamard codes and long codes. Then, using Probabilistically Checkable Proofs of Proximity as constructed by Ben-Sasson et al., we exhibit a property which has constant query intolerant testers but for which any tolerant tester requires $n^{\Omega(1)}$ queries.

DOI: 10.4086/toc.2006.v002a009

© 2006 Eldar Fischer and Lance Fortnow
Creative Commons License Licensed under a Creative Commons License