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Improved Reduction from the Bounded Distance Decoding Problem to the Unique Shortest Vector Problem in Lattices

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Publication date
1 January 2016
Publisher
LIPIcs - Leibniz International Proceedings in Informatics. 43rd International Colloquium on Automata, Languages, and Programming (ICALP 2016)
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    Abstract

    We present a probabilistic polynomial-time reduction from the lattice Bounded Distance Decoding (BDD) problem with parameter 1/( sqrt(2) * gamma) to the unique Shortest Vector Problem (uSVP) with parameter gamma for any gamma > 1 that is polynomial in the lattice dimension n. It improves the BDD to uSVP reductions of [Lyubashevsky and Micciancio, CRYPTO, 2009] and [Liu, Wang, Xu and Zheng, Inf. Process. Lett., 2014], which rely on Kannan\u27s embedding technique. The main ingredient to the improvement is the use of Khot\u27s lattice sparsification [Khot, FOCS, 2003] before resorting to Kannan\u27s embedding, in order to boost the uSVP parameter

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