Inverse Problems and Zero Forcing for Graphs
Heftet /
2022
/ Engelsk
Product details
ISBN
9781470466558
Published
2022-10-30
Publisher
American Mathematical Society
Weight
363 gr
Height
254 mm
Width
178 mm
Age
P, 06
Language
Product language
Engelsk
Format
Product format
Heftet
Number of pages
286
Biographical note
Leslie Hogben, Iowa State University, Ames, IA, and American Institute of Mathematics, San Jose, CA.Jephian C.-H. Lin, National Sun Yat-sen University, Kaohsiung, Taiwan.
Bryan L. Shader, University of Wyoming, Laramie, WY.
This book provides an introduction to the inverse eigenvalue problem for graphs (IEP-$G$) and the related area of zero forcing, propagation, and throttling. The IEP-$G$ grew from the intersection of linear algebra and combinatorics and has given rise to both a rich set of deep problems in that area as well as a breadth of ""ancillary'' problems in related areas.
The IEP-$G$ asks a fundamental mathematical question expressed in terms of linear algebra and graph theory, but the significance of such questions goes beyond these two areas, as particular instances of the IEP-$G$ also appear as major research problems in other fields of mathematics, sciences and engineering. One approach to the IEP-$G$ is through rank minimization, a relevant problem in itself and with a large number of applications. During the past 10 years, important developments on the rank minimization problem, particularly in relation to zero forcing, have led to significant advances in the IEP-$G$.
The monograph serves as an entry point and valuable resource that will stimulate future developments in this active and mathematically diverse research area.
The IEP-$G$ asks a fundamental mathematical question expressed in terms of linear algebra and graph theory, but the significance of such questions goes beyond these two areas, as particular instances of the IEP-$G$ also appear as major research problems in other fields of mathematics, sciences and engineering. One approach to the IEP-$G$ is through rank minimization, a relevant problem in itself and with a large number of applications. During the past 10 years, important developments on the rank minimization problem, particularly in relation to zero forcing, have led to significant advances in the IEP-$G$.
The monograph serves as an entry point and valuable resource that will stimulate future developments in this active and mathematically diverse research area.
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Provides an introduction to the inverse eigenvalue problem for graphs (IEP-$G$) and the related area of zero forcing, propagation, and throttling. The IEP-$G$ grew from the intersection of linear algebra and combinatorics and has given rise to a rich set of deep problems in that area as well as a breadth of ‘ancillary’ problems in related areas.
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- Introduction to the inverse eigenvalue problem of a graph and zero forcing: Introduction to an motivation for the IEP-$G$
- Zero forcing and maximum eigenvalue multiplicity
- Strong properties, theory, and consequences: Implicit function theorem and strong properties
- Consequences of the strong properties
- Theoretical underpinnings of the strong properties
- Further discussion of ancillary problems: Ordered multiplicity lists of a graph
- Rigid linkages
- Minimum number of district eigenvalues
- Zero forcing, propagation time, and throttling: Zero forcing, variants, and related parameters
- Propagation time and capture time
- Throttling
- Appendix A. Graph terminology and notation
- Bibliography
- Index
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Product details
ISBN
9781470466558
Published
2022-10-30
Publisher
American Mathematical Society
Weight
363 gr
Height
254 mm
Width
178 mm
Age
P, 06
Language
Product language
Engelsk
Format
Product format
Heftet
Number of pages
286
Biographical note
Leslie Hogben, Iowa State University, Ames, IA, and American Institute of Mathematics, San Jose, CA.Jephian C.-H. Lin, National Sun Yat-sen University, Kaohsiung, Taiwan.
Bryan L. Shader, University of Wyoming, Laramie, WY.