On circular external difference families

Abstract

Circular external difference families (CEDFs) are a recently-introduced variation of external difference families with applications to non-malleable threshold schemes: a (v,m,,1)-CEDF is an m-sequence (A0, …, Am-1) of -subsets of an additive group G of order v such that G\0\ equals the multiset of all differences a-a', with (a,a')∈ Ai+1× Ai for some i ∈ Zm. When G is the cyclic group, we speak of a cyclic CEDF. The existence of cyclic (v,m,,1)-CEDFs is well understood when m is even, while nonexistence is known when both m and are odd. However, the case where m is odd and is even has only been resolved in a few special cases. In this paper, we address this gap by constructing cyclic (v,m,,1)-CEDFs for any odd m>1 when =2, and for any even 2 when m=3. Notably, the latter result relies on the existence of a suitable tiling of the multiplicative semigroup of Zv\0\. Our approach is based on representing the blocks as arithmetic progressions and analyzing their step patterns. We present two different ways to construct cyclic (v,m,2,1)-CEDFs for every odd m>1. Their step patterns show that the resulting CEDFs are inequivalent. Many additional inequivalent CEDFs are obtained by translating suitable subsets within the CEDF.