Resilience of ranks of higher inclusion matrices

Abstract: Abstract. Let n ≥ r ≥ s ≥ 0 be integers and F a family of r-subsets of [n]. Let W F r,s be the higher inclusion matrix of the subsets in F vs. the s-subsets of [n]. When F consists of all r-subsets of [n], we shall simply write W r,s in place of W F r,s . In this paper we prove that the rank of the higher inclusion matrix W r,s over an arbitrary field K is resilient. That is, if the size of F is "close" to n r then rank K (W F r,s ) = rank K (W r,s ), where K is an arbitrary field. Furthermore, we prove that t… Show more

“…The study of inclusion matrices has applications to the theory of designs. For much information and more history of these matrices see [18,Section 10] and [15].…”

A representation-theoretic computation of the rank of $1$-intersection incidence matrices: $2$-subsets vs. $n$-subsets

“…The study of inclusion matrices has applications to the theory of designs. For much information and more history of these matrices see [18,Section 10] and [15].…”

A representation-theoretic computation of the rank of $1$-intersection incidence matrices: $2$-subsets vs. $n$-subsets

Inclusion Matrices for Rainbow Subsets