Title :
Asymptotic improvement of the Gilbert-Varshamov bound on the size of binary codes
Author :
Jiang, Tao ; Vardy, Alexander
Author_Institution :
Dept. of Math. & Stat., Miami Univ., Oxford, OH, USA
Abstract :
Given positive integers n and d, let A2(n,d) denote the maximum size of a binary code of length n and minimum distance d. The well-known Gilbert-Varshamov bound asserts that A2(n,d)≥2n/V(n,d-l), where V(n,d) = σi=0d(in) is the volume of a Hamming sphere of radius d. We show that, in fact, there exists a positive constant c such that A2(n, d)≥c2n/V(n,d-1)log2V(n, d-1) whenever d/n≤0.499. The result follows by recasting the Gilbert-Varshamov bound into a graph-theoretic framework and using the fact that the corresponding graph is locally sparse. Generalizations and extensions of this result are briefly discussed.
Keywords :
binary codes; graph theory; nonlinear codes; Ajtai-Komlos-Szemeredi bound; Gilbert-Varshamov bound; Hamming sphere; asymptotic constructions; binary codes; constant-weight codes; graph-theoretic framework; locally sparse graphs; nonlinear codes; Binary codes; Communication system control; Computer science; Context; Mathematics; Statistics; Terminology; Ajtai–Komlós–Szemerédi bound; Gilbert–Varshamov bound; asymptotic constructions; binary codes; constant-weight codes; locally sparse graphs; nonlinear codes;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2004.831751
