Paper Info
Title
A KZ Reduction Algorithm.
Abstract
The Korkine-Zolotareff (KZ) reduction is one of the often used reduction strategies for decoding lattices. A KZ reduction algorithm involves solving shortest vector problems (SVPs) and basis expansion. In this paper, first we improve the commonly used Schnorr-Euchner search strategy for solving SVPs. Then, we derive upper bounds on the magnitudes of the entries of any solution of a SVP when its basis matrix is LLL reduced. These upper bounds only involve the parameter of the LLL reduction and the dimension of the solution and they are useful for analyzing the complexity of the basis expansion in a KZ reduction algorithm. Finally, we modify the basis expansion method proposed by Zhang et al. and combine it with the improved Schnorr-Euchner search strategy to give a new KZ reduction algorithm. Simulation results show that the new KZ reduction algorithm is much faster and numerically more stable than the KZ reduction algorithm proposed by Zhang et al., especially when the basis matrix is ill conditioned.
Year
Venue
Field
2017
arXiv: Information Theory
Discrete mathematics,Lattice (order),Matrix (mathematics),Algorithm,Decoding methods,Mathematics
DocType
Volume
Citations 
Journal
abs/1702.08152
0
PageRank 
References 
Authors
0.34
17
2
Name
Order
Citations
PageRank
jinming wen110314.52
Xiao-Wen Chang220824.85