Rank relations between a {0, 1}-matrix and its complement

Abstract: in the general case and in the symmetric case. Our proof is constructive.

“…is the complement of a (0, 1)-matrix A t × u [see Ma and Zhong [31] , I J I n c n n , A T is the transpose of a matrix A, α = circ (0 1 0…0) is the basic circulant matrix of order n such that α n = I n and A × B denotes Kronecker product of two matrices A and B (see Hall [18] ). EA g p C C C n p p p ( ) | u u u  (n copies) denotes the elementary abelian group of order g and C p = EA(p) is a cyclic group of order p where p is a prime.…”

“…Notations: I n denotes the identity matrix of order n, J t × u is the t × u matrix all of whose entries are 1, in particular Jn=Jn×n. At×uc=Jt×u−At×u is the complement of a (0, 1)-matrix A t × u [see Ma and Zhong [31] , Inc=Jn−In, AT is the transpose of a matrix A , α = circ (0 1 0…0) is the basic circulant matrix of order n such that α n = I n and A × B denotes Kronecker product of two matrices A and B (see Hall [18] ). g=pn ( n copies) denotes the elementary abelian group of order g and C p = EA(p) is a cyclic group of order p where p is a prime.…”

On Certain Classes of Rectangular Designs

“…is the complement of a (0, 1)-matrix A t × u [see Ma and Zhong [31] , I J I n c n n , A T is the transpose of a matrix A, α = circ (0 1 0…0) is the basic circulant matrix of order n such that α n = I n and A × B denotes Kronecker product of two matrices A and B (see Hall [18] ). EA g p C C C n p p p ( ) | u u u  (n copies) denotes the elementary abelian group of order g and C p = EA(p) is a cyclic group of order p where p is a prime.…”

“…Notations: I n denotes the identity matrix of order n, J t × u is the t × u matrix all of whose entries are 1, in particular Jn=Jn×n. At×uc=Jt×u−At×u is the complement of a (0, 1)-matrix A t × u [see Ma and Zhong [31] , Inc=Jn−In, AT is the transpose of a matrix A , α = circ (0 1 0…0) is the basic circulant matrix of order n such that α n = I n and A × B denotes Kronecker product of two matrices A and B (see Hall [18] ). g=pn ( n copies) denotes the elementary abelian group of order g and C p = EA(p) is a cyclic group of order p where p is a prime.…”

On Certain Classes of Rectangular Designs