3 research outputs found
On Extractors and Exposure-Resilient Functions for Sublogarithmic Entropy
We study deterministic extractors for oblivious bit-fixing sources (a.k.a.
resilient functions) and exposure-resilient functions with small min-entropy:
of the function's n input bits, k << n bits are uniformly random and unknown to
the adversary. We simplify and improve an explicit construction of extractors
for bit-fixing sources with sublogarithmic k due to Kamp and Zuckerman (SICOMP
2006), achieving error exponentially small in k rather than polynomially small
in k. Our main result is that when k is sublogarithmic in n, the short output
length of this construction (O(log k) output bits) is optimal for extractors
computable by a large class of space-bounded streaming algorithms.
Next, we show that a random function is an extractor for oblivious bit-fixing
sources with high probability if and only if k is superlogarithmic in n,
suggesting that our main result may apply more generally. 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). No
explicit exposure-resilient functions achieving these parameters are known
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On Extractors and Exposure-Resilient Functions for Sublogarithmic Entropy
We study resilient functions and exposure-resilient functions in the low-entropy regime. A resilient function (a.k.a. deterministic extractor for oblivious bit-fixing sources) maps any distribution on n -bit strings in which k bits are uniformly random and the rest are fixed into an output distribution that is close to uniform. With exposure-resilient functions, all the input bits are random, but we ask that the output be close to uniform conditioned on any subset of n - k input bits. In this paper, we focus on the case that k is sublogarithmic in n.
We simplify and improve an explicit construction of resilient functions for k sublogarithmic in n due to Kamp and Zuckerman (SICOMP 2006), achieving error exponentially small in k rather than polynomially small in k. Our main result is that when k is sublogarithmic in n, the short output length of this construction (O(log k) output bits) is optimal for extractors computable by a large class of space-bounded streaming algorithms.
Next, we show that a random function is a resilient function with high probability if and only if k is superlogarithmic in n, suggesting that our main result may apply more generally. 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. loglog n). No explicit exposure-resilient functions achieving these parameters are known.Engineering and Applied SciencesMathematic