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Applications of Combinatorial Matrix Theory to Laplacian Matrices of Graphs

Jason J. Molitierno
€248.00
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A01=Jason J. Molitierno
advanced linear algebra
Algebraic Connectivity
Author_Jason J. Molitierno
Bethe Tree
Category=UMB
Characteristic Vertex
combinatorial mathematics
Connected Graph
Cut Vertex
Degree Sequence
eigenvalue analysis
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Fiedler Vector
Graph Theory Preliminaries
Group Inverse
Incidence Matrix
Introduction To Laplacian Matrices
Laplacian Matrices
Laplacian Matrix
mathematical research methods
Matrix Theory Preliminaries
Matrix Tree Theorem
Maximal Planar Graph
Moore Penrose Inverse
Nonadjacent Vertices
Noncomplete Graph
Nonnegative Matrices
Pendant Vertex
Perron Vector
Planar Graph
Simple Eigenvalue
spectral graph theory
spectral properties of graphs
The Algebraic Connectivity
The Group Inverse Of The Laplacian Matrix
tree structure analysis
Unicyclic Graphs
Unweighted Graph
Unweighted Tree
Weighted Graph

Product details

  • ISBN 9781439863374
  • Weight: 920g
  • Dimensions: 178 x 254mm
  • Publication Date: 25 Jan 2012
  • Publisher: Taylor & Francis Inc
  • Publication City/Country: US
  • Product Form: Hardback
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Description

On the surface, matrix theory and graph theory seem like very different branches of mathematics. However, adjacency, Laplacian, and incidence matrices are commonly used to represent graphs, and many properties of matrices can give us useful information about the structure of graphs.

Applications of Combinatorial Matrix Theory to Laplacian Matrices of Graphs is a compilation of many of the exciting results concerning Laplacian matrices developed since the mid 1970s by well-known mathematicians such as Fallat, Fiedler, Grone, Kirkland, Merris, Mohar, Neumann, Shader, Sunder, and more. The text is complemented by many examples and detailed calculations, and sections followed by exercises to aid the reader in gaining a deeper understanding of the material. Although some exercises are routine, others require a more in-depth analysis of the theorems and ask the reader to prove those that go beyond what was presented in the section.

Matrix-graph theory is a fascinating subject that ties together two seemingly unrelated branches of mathematics. Because it makes use of both the combinatorial properties and the numerical properties of a matrix, this area of mathematics is fertile ground for research at the undergraduate, graduate, and professional levels. This book can serve as exploratory literature for the undergraduate student who is just learning how to do mathematical research, a useful "start-up" book for the graduate student beginning research in matrix-graph theory, and a convenient reference for the more experienced researcher.

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