Combinatorial matrix theory / Richard A. Brualdi, Herbert J. Ryser.

By:

Brualdi, Richard A

Contributor(s):

Ryser, Herbert John

Material type: Text

TextSeries: Encyclopedia of mathematics and its applications ; 39.Publication details: Cambridge [England] ; New York : Cambridge University Press, 1991.Description: 1 online resource (ix, 367 pages) : illustrationsContent type:

text

Media type:

computer

Carrier type:

online resource

ISBN:

9781107087750
1107087759
9781107325708
1107325706

Subject(s): Genre/Form:

Additional physical formats: Print version:: Combinatorial matrix theory.DDC classification:

512.9/434 22

LOC classification:

QA188 .B78 1991eb

Other classification:

31.12
*05-02
05B15
05B20
05C50
SK 220
SK 890
27
MAT 150f
MAT 050f

Online resources:

Click here to access online

Contents:

Incidence matrices -- Matrices and graphs -- Matrices and digraphs -- Matrices and bigraphs -- Combinatorial matrix algebra -- Existence theorems for combinatorially constrained matrices -- Some special graphs -- The permanent -- Latin squares.

Summary: This book, first published in 1991, is devoted to the exposition of combinatorial matrix theory. This subject concerns itself with the use of matrix theory and linear algebra in proving results in combinatorics (and vice versa), and with the intrinsic properties of matrices viewed as arrays of numbers rather than algebraic objects in themselves. There are chapters dealing with the many connections between matrices, graphs, digraphs and bipartite graphs. The basic theory of network flows is developed in order to obtain existence theorems for matrices with prescribed combinatorial properties and to obtain various matrix decomposition theorems. Other chapters cover the permanent of a matrix, and Latin squares. The final chapter deals with algebraic characterizations of combinatorial properties and the use of combinatorial arguments in proving classical algebraic theorems, including the Cayley-Hamilton Theorem and the Jordan Canonical Form. The book is sufficiently self-contained for use as a graduate course text, but complete enough for a standard reference work on the basic theory. Thus it will be an essential purchase for combinatorialists, matrix theorists, and those numerical analysts working in numerical linear algebra.

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Includes bibliographical references (pages 345-362) and index.

Print version record.

This book, first published in 1991, is devoted to the exposition of combinatorial matrix theory. This subject concerns itself with the use of matrix theory and linear algebra in proving results in combinatorics (and vice versa), and with the intrinsic properties of matrices viewed as arrays of numbers rather than algebraic objects in themselves. There are chapters dealing with the many connections between matrices, graphs, digraphs and bipartite graphs. The basic theory of network flows is developed in order to obtain existence theorems for matrices with prescribed combinatorial properties and to obtain various matrix decomposition theorems. Other chapters cover the permanent of a matrix, and Latin squares. The final chapter deals with algebraic characterizations of combinatorial properties and the use of combinatorial arguments in proving classical algebraic theorems, including the Cayley-Hamilton Theorem and the Jordan Canonical Form. The book is sufficiently self-contained for use as a graduate course text, but complete enough for a standard reference work on the basic theory. Thus it will be an essential purchase for combinatorialists, matrix theorists, and those numerical analysts working in numerical linear algebra.

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