Paper Info
Title
Lower Bounds for Testing Properties of Functions over Hypergrid Domains
Abstract
We show how the communication complexity method introduced in (Blais, Brody, Matulef 2012) can be used to prove lower bounds on the number of queries required to test properties of functions with non-hypercube domains. We use this method to prove strong, and in many cases optimal, lower bounds on the query complexity of testing fundamental properties of functions over hypergrid domains: monotonicity, the Lipschitz property, separate convexity, convexity and monotonicity of higher-order derivatives. There is a long line of work on upper bounds and lower bounds for many of these properties that uses a diverse set of combinatorial techniques. Our method provides a unified treatment of lower bounds for all these properties based on Fourier analysis. A key ingredient in our new lower bounds is a set of Walsh functions, a canonical Fourier basis for the set of functions on the line. The orthogonality of the Walsh functions lets us use a product construction to extend our method from properties of functions over the line to properties of functions over hypergrids. Our product construction applies to properties over hypergrids that can be expressed in terms of axis-parallel directional derivatives, such as monotonicity, the Lipschitz property and separate convexity. We illustrate the robustness of our method by making it work for convexity, which is the property of the Hessian matrix of second derivatives being positive semidefinite and thus cannot be described by axis-parallel directional derivatives alone. Such robustness contrasts with the state of the art in the upper bounds for testing properties over hypergrids: methods that work for other properties are not applicable for testing convexity, for which no nontrivial upper bounds are known for d ≥ 2.
Year
DOI
Venue
2013
10.1109/CCC.2014.38
IEEE Conference on Computational Complexity
Keywords
DocType
Volume
Fourier analysis,Hessian matrices,Walsh functions,combinatorial mathematics,communication complexity,query processing,Fourier analysis,Hessian matrix,Lipschitz property,Walsh functions,axis-parallel directional derivatives,canonical Fourier basis,combinatorial techniques,communication complexity method,function testing properties,higher-order derivatives,hypergrid domains,lower bounds,monotonicity,nonhypercube domains,product construction,query complexity,separate convexity,upper bounds,Property testing,Walsh functions,communication complexity,functions on hypergrids,monotonicity
Journal
20
ISSN
Citations 
PageRank 
1093-0159
3
0.38
References 
Authors
0
3
Name
Order
Citations
PageRank
Eric Blais128622.49
Sofya Raskhodnikova299164.59
Grigory Yaroslavtsev320917.36