Query-Efficient Locally Decodable Codes of Subexponential Length
Abstract
We develop the algebraic theory behind the constructions of Yekhanin (2008) and Efremenko (2009), in an attempt to understand the ``algebraic niceness'' phenomenon in . We show that every integer , where , and are prime, possesses the same good algebraic property as that allows savings in query complexity. We identify 50 numbers of this form by computer search, which together with 511, are then applied to gain improvements on query complexity via Itoh and Suzuki's composition method. More precisely, we construct a -query LDC for every positive integer and a -query LDC for every integer , both of length , improving the queries used by Efremenko (2009) and queries used by Itoh and Suzuki (2010). We also obtain new efficient private information retrieval (PIR) schemes from the new query-efficient LDCs.
Keywords
Cite
@article{arxiv.1008.1617,
title = {Query-Efficient Locally Decodable Codes of Subexponential Length},
author = {Yeow Meng Chee and Tao Feng and San Ling and Huaxiong Wang and Liang Feng Zhang},
journal= {arXiv preprint arXiv:1008.1617},
year = {2010}
}
Comments
to appear in Computational Complexity