A Design Criterion for the Rayleigh Fading Wiretap Channel Based on 1-norm Theta Functions

Abstract

We show that the correct decoding probability of an eavesdropper and error probability of a legitimate receiver in a Rayleigh fading wiretap channel with lattice coset coding are both upper bounded by the theta function in the 1-norm of the dual code lattices. Motivated by these findings, we derive a closed form expression for the 1-norm theta function of any sublattice of Qn and its dual, and prove that the lattice Zn minimizes the theta function among all scalings of Zn along the coordinate axes. Furthermore, we develop a method to algorithmically find locally critical lattice packings of the n-dimensional cross-polytope. Using this method, we are able to construct a four-dimensional lattice having a packing density of ≈ 0.824858 and kissing number 30, improving on the best known lattice packing density of the cross-polytope in dimension four.

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