On Reed-Muller subcodes, Grassmannian partitions and sum-free functions

Abstract

A function F:F2n F2m is called kth-order sum-free if the sum of its values over any k-dimensional affine subspace of F2n is non-zero. Carlet recently introduced this notion and constructed such functions for every 2 k n. We prove that, for 2 k n-2 and m ≤ n, the existence of a (non-degenerate) F2m-valued kth-order sum-free function on F2n is equivalent to the existence of a codimension m linear subcode of the Reed-Muller code RM(n-k,n) with minimum distance 3· 2k-1. In particular, this yields a new family of Reed-Muller subcodes that avoid all minimum weight codewords of RM(n-k,n), and thus have minimum distance 3/2 times that of RM(n-k,n). We also derive new necessary conditions for the existence of kth-order sum-free functions and present the first nontrivial lower bound on m. Finally, we observe that kth-order sum-free functions lead to a partition of the Grassmannian of all k-dimensional (linear) subspaces of F2n into constant-dimension subspace codes. Under the assumption that functions exist that are kth-order sum-free for multiple values of k, we obtain an improved partitioning result and a stronger upper bound on the chromatic number of the Grassmann graphs.