Zero forcing parameters and minimum rank problems

F. Barioli; W. Barrett; S.M. Fallat; H.T. Hall; L. Hogben; B.L. Shader; P. Driessche, van den; H. Holst, van der

doi:10.1016/j.laa.2010.03.008

Zero forcing parameters and minimum rank problems

F. Barioli, W. Barrett, S.M. Fallat, H.T. Hall, L. Hogben, B.L. Shader, P. Driessche, van den, H. Holst, van der

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

122 Citaten (Scopus)

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The zero forcing number Z(G), which is the minimum number of vertices in a zero forcing set of a graph G, is used to study the maximum nullity/minimum rank of the family of symmetric matrices described by G. It is shown that for a connected graph of order at least two, no vertex is in every zero forcing set. The positive semidefinite zero forcing number Z+(G) is introduced, and shown to be equal to |G|-OS(G), where OS(G) is the recently defined ordered set number that is a lower bound for minimum positive semidefinite rank. The positive semidefinite zero forcing number is applied to the computation of positive semidefinite minimum rank of certain graphs. An example of a graph for which the real positive symmetric semidefinite minimum rank is greater than the complex Hermitian positive semidefinite minimum rank is presented.

Originele taal-2	Engels
Pagina's (van-tot)	401-411
Tijdschrift	Linear Algebra and Its Applications
Volume	433
Nummer van het tijdschrift	2
DOI's	https://doi.org/10.1016/j.laa.2010.03.008
Status	Gepubliceerd - 2010

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title = "Zero forcing parameters and minimum rank problems",

abstract = "The zero forcing number Z(G), which is the minimum number of vertices in a zero forcing set of a graph G, is used to study the maximum nullity/minimum rank of the family of symmetric matrices described by G. It is shown that for a connected graph of order at least two, no vertex is in every zero forcing set. The positive semidefinite zero forcing number Z+(G) is introduced, and shown to be equal to |G|-OS(G), where OS(G) is the recently defined ordered set number that is a lower bound for minimum positive semidefinite rank. The positive semidefinite zero forcing number is applied to the computation of positive semidefinite minimum rank of certain graphs. An example of a graph for which the real positive symmetric semidefinite minimum rank is greater than the complex Hermitian positive semidefinite minimum rank is presented.",

author = "F. Barioli and W. Barrett and S.M. Fallat and H.T. Hall and L. Hogben and B.L. Shader and {Driessche, van den}, P. and {Holst, van der}, H.",

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AU - Hogben, L.

AU - Shader, B.L.

AU - Driessche, van den, P.

AU - Holst, van der, H.

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Zero forcing parameters and minimum rank problems

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