📝 SummarXiv

Abstract

Nested Steiner quadruple systems are designs derived from Steiner quadruple systems (SQSs) by partitioning each block into pairs. A nested SQS is completely uniform if every possible pair appears with equal multiplicity, and completely quasi-uniform if every pair appears with multiplicities that differ by at most one. An explicit construction on the Boolean SQS of order $2^m$ is presented. For every integer $m \ge 3$, this gives a nested SQS$(2^m)$ that is completely uniform when $m$ is odd and completely quasi-uniform when $m$ is even. These results resolve two open problems posed by Chee et al.~(2025). The notion of completely uniform pairings is further generalized to $t$-designs with $t \ge 2$. In particular, the existence of completely uniform $2$-$(2^m,4,3)$ nested designs is established for all $m \ge 3$, together with their connection to nested SQS$(2^m)$. As an application, such nested designs give rise to fractional repetition codes with zero skip cost, requiring fewer storage nodes than constructions based on SQSs. In addition, small examples are provided for non-Boolean orders, establishing the existence of completely uniform nested SQS$(v)$ for all $v \le 50$.