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Towards a Proof of the Fourier--Entropy Conjecture? A new paper by our team

Esty Kelman, Guy Kindler, Noam Lifshitz, Dor Minzer, Muli Safra have published a new paper you can find here.

Abstract:

The total influence of a function is a central notion in analysis of Boolean functions, and characterizing functions that have small total influence is one of the most fundamental questions associated with it. The KKL theorem and the Friedgut junta theorem give a strong characterization of such functions whenever the bound on the total influence is o(logn). However, both results become useless when the total influence of the function is ω(logn). The only case in which this logarithmic barrier has been broken for an interesting class of functions was proved by Bourgain and Kalai, who focused on functions that are symmetric under large enough subgroups of Sn. In this paper, we build and improve on the techniques of the Bourgain-Kalai paper and establish new concentration results on the Fourier spectrum of Boolean functions with small total influence. Our results include: 1. A quantitative improvement of the Bourgain--Kalai result regarding the total influence of functions that are transitively symmetric. 2. A slightly weaker version of the Fourier--Entropy Conjecture of Friedgut and Kalai. This weaker version implies in particular that the Fourier spectrum of a constant variance, Boolean function f is concentrated on 2O(I[f]logI[f]) characters, improving an earlier result of Friedgut. Removing the logI[f] factor would essentially resolve the Fourier--Entropy Conjecture, as well as settle a conjecture of Mansour regarding the Fourier spectrum of polynomial size DNF formulas. Our concentration result has new implications in learning theory: it implies that the class of functions whose total influence is at most K is agnostically learnable in time 2O(KlogK), using membership queries.

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