English

More Efficient Privacy Amplification with Less Random Seeds via Dual Universal Hash Function

Quantum Physics 2016-03-17 v5 Cryptography and Security Information Theory math.IT

Abstract

We explicitly construct random hash functions for privacy amplification (extractors) that require smaller random seed lengths than the previous literature, and still allow efficient implementations with complexity O(nlogn)O(n\log n) for input length nn. The key idea is the concept of dual universal2_2 hash function introduced recently. We also use a new method for constructing extractors by concatenating δ\delta-almost dual universal2_2 hash functions with other extractors. Besides minimizing seed lengths, we also introduce methods that allow one to use non-uniform random seeds for extractors. These methods can be applied to a wide class of extractors, including dual universal2_2 hash function, as well as to conventional universal2_2 hash functions.

Cite

@article{arxiv.1311.5322,
  title  = {More Efficient Privacy Amplification with Less Random Seeds via Dual Universal Hash Function},
  author = {Masahito Hayashi and Toyohiro Tsurumaru},
  journal= {arXiv preprint arXiv:1311.5322},
  year   = {2016}
}

Comments

33 pages, no figure, 1 table; v3: revised arguments with new hash functions proposed additionally, v4: minor corrections and clarifications, some new references added, v5: minor corrections, and enhanced arguments related with applications

R2 v1 2026-06-22T02:11:53.909Z