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CORR
2010
Springer

On Extractors and Exposure-Resilient Functions for Sublogarithmic Entropy

14 years 16 days ago
On Extractors and Exposure-Resilient Functions for Sublogarithmic Entropy
We study deterministic extractors for bit-fixing sources (a.k.a. resilient functions) and exposure-resilient functions for small min-entropy. That is, of the n bits given as input to the function, k n bits are uniformly random and unknown to the adversary. We show that a random function is a resilient function with high probability if and only if k is at least roughly log n. In contrast, we show that a random function is a static (resp. adaptive) exposure-resilient function with high probability even if k is as small as a constant (resp. log log n). Next we simplify and improve an explicit construction of resilient functions for sublogarithmic k due to Kamp and Zuckerman (SICOMP 2006), achieving error exponentially small in k rather than polynomially small in k. Finally, we show that the short output length (O(log k)) of this construction must hold for any resilient function computed by a restricted type of space-bounded streaming algorithm (as is the case for our construction).
Yakir Reshef, Salil P. Vadhan
Added 09 Dec 2010
Updated 09 Dec 2010
Type Journal
Year 2010
Where CORR
Authors Yakir Reshef, Salil P. Vadhan
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