Title :
On the covering radius of Z4-codes and their lattices
Author :
Aoki, Toru ; Gaborit, Philippe ; Harada, Masaaki ; Ozeki, Michio ; Solé, Patrick
Author_Institution :
Dept. of Math. Sci., Yamagata Univ., Japan
fDate :
9/1/1999 12:00:00 AM
Abstract :
In this correspondence, we investigate the covering radius of codes over Z4 for the Lee and Euclidean distances in relation with those of binary nonlinear codes and lattices obtained by the Gray map and Construction A4, respectively. We give several upper and lower bounds on covering radii, including Z4-analogs of the sphere-covering bound, the packing radius bound, the Delsarte bound, and the redundancy bound. We show that any Euclidean-optimal Type II code of length 24 has covering radius 8 with respect to the Euclidean distance. We determine the covering radius of the Klemm codes with respect to the Lee distance. We derive lower bounds on the covering radii of the Niemeier lattices
Keywords :
binary codes; dual codes; lattice theory; linear codes; nonlinear codes; Delsarte bound; Euclidean distance; Euclidean-optimal Type II code; Gray map; Klemm codes; Lee distance; Niemeier lattices; Z4-codes; binary codes; binary nonlinear codes; covering radius; lattices; linear codes; lower bounds; packing radius bound; redundancy bound; self-dual codes; sphere-covering bound; upper bounds; Concrete; Equations; Lattices; Parity check codes; Upper bound;
Journal_Title :
Information Theory, IEEE Transactions on
