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Published Articles >> Table of Contents >> Abstract
The 43rd Annual IEEE Symposium on Foundations of Computer Science (FOCS'02)
p. 261
Breaking the O(n1/(2k-1)) Barrier for Information-Theoretic Private Information Retrieval
Amos Beimel, Ben-Gurion University
Yuval Ishai, Technion
Eyal Kushilevitz, Technion
Jean-Francois Raymond, McGill University
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DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/SFCS.2002.1181949
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Private Information Retrieval (PIR) protocols allow a user to retrieve a data item from a database while hiding the identity of the item being retrieved. Specifically, in information-theoretic, k-server PIR protocols the database is replicated among k servers, and each server learns nothing about the item the user retrieves. The cost of such protocols is measured by the communication complexity of retrieving one out of n bits of data. For any fixed k, the complexity of the best protocols prior to our work was 0(n^{\frac{1}{{2k - 1}}}) (Ambainis, 1997). Since then several methods were developed in an attempt to beat this bound, but all these methods yielded the same asymptotic bound. In this work, this barrier is finally broken and the complexity of information-theoretic k-server PIR is improved to n^{0(\frac{{\log \log k}}{{k\log k}})}. The new PIR protocols can also be used to construct k-query binary locally decodable codes of length exp (n^{0(\frac{{\log \log k}}{{k\log k}})}), compared to exp (n^{\frac{1}{{k - 1}}}) in previous constructions. The improvements presented in this paper apply even for small values of k: the PIR protocols are more efficient than previous ones for every k \geqslant 3, and the locally decodable codes are shorter for every k \geqslant 4.
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Citation:
Amos Beimel, Yuval Ishai, Eyal Kushilevitz, Jean-Francois Raymond,
"Breaking the O(n1/(2k-1)) Barrier for Information-Theoretic Private Information Retrieval,"
focs,
p. 261,
The 43rd Annual IEEE Symposium on Foundations of Computer Science (FOCS'02),
2002
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