论文信息 - On the construction of dense lattices with A given automorphisms group

On the construction of dense lattices with A given automorphisms group

We consider the problem of constructing dense lattices of R^n with a given automorphism group. We exhibit a family of such lattices of density at least cn/2^n, which matches, up to a multiplicative constant, the best known density of a lattice packing. For an infinite sequence of dimensions n, we exhibit a finite set of lattices that come with an automorphism group of size n, and a constant proportion of which achieves the aforementioned lower bound on the largest packing density. The algorithmic complexity for exhibiting a basis of such a lattice is of order exp(nlogn), which improves upon previous theorems that yield an equivalent lattice packing density. The method developed here involves applying Leech and Sloane's construction A to a special class of codes with a given automorphism group, namely the class of double circulant codes.

Philippe Gaborit | P. Gaborit | Gilles Zemor | Gilles Zémor

[1] Existence Theorems in the Geometry of Numbers , 1947 .

[2] J. A. Rush. A lower bound on packing density , 1989 .

[3] W. Fischer,et al. Sphere Packings, Lattices and Groups , 1990 .

[4] Alexander Vardy,et al. A Lower Bound on the Density of Sphere Packings via Graph Theory , 2004 .

[5] C. Rogers,et al. Hlawka’s theorem in the geometry of numbers , 1947 .

[6] N. J. A. Sloane,et al. An improvement to the Minkowski-Hiawka bound for packing superballs , 1987 .

[7] Random Lattices and Random Sphere Packings: Typical Properties , 2000, math-ph/0011040.

[8] J. Clerk. A lower bound on packing density , 1989 .

[9] Gilles Zémor,et al. Asymptotic Improvement of the Gilbert–Varshamov Bound for Linear Codes , 2007, IEEE Transactions on Information Theory.

[10] R. Bacher. A new inequality for the Hermite constants , 2006, math/0603477.

[11] K. Ball. A lower bound for the optimal density of lattice packings , 1992 .

[12] D. R. Heath-Brown. Zero-free regions for Dirichlet $L$-functions, and the least prime in an arithmetic progression , 1992 .