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Alfakih A.Y. Euclidean Distance Matrices and Their Applications in Rigidity Theory
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Springer, 2018. — 258 p. — ISBN: 3319978454.This book offers a comprehensive and accessible exposition of Euclidean Distance Matrices (EDMs) and rigidity theory of bar-and-joint frameworks. It is based on the one-to-one correspondence between EDMs and projected Gram matrices. Accordingly the machinery of semidefinite programming is a common thread that runs throughout the book. As a result, two parallel approaches to rigidity theory are presented. The first is traditional and more intuitive approach that is based on a vector representation of point configuration. The second is based on a Gram matrix representation of point configuration.
Euclidean Distance Matrices and Their Applications in Rigidity Theory begins by establishing the necessary background needed for the rest of the book. The focus of Chapter 1 is on pertinent results from matrix theory, graph theory and convexity theory, while Chapter 2 is devoted to positive semidefinite (PSD) matrices due to the key role these matrices play in our approach. Chapters 3 to 7 provide detailed studies of EDMs, and in particular their various characterizations, classes, eigenvalues and geometry. Chapter 8 serves as a transitional chapter between EDMs and rigidity theory. Chapters 9 and 10 cover local and universal rigidities of bar-and-joint frameworks. This book is self-contained and should be accessible to a wide audience including students and researchers in statistics, operations research, computational biochemistry, engineering, computer science and mathematics.Mathematical Preliminaries
Positive Semidefinite Matrices
Euclidean Distance Matrices (EDMs)
Classes of EDMs
The Geometry of EDMs
The Eigenvalues of EDMs
The Entries of EDMs
EDM Completions and Bar Frameworks
Local and Infinitesimal Rigidities
Universal and Dimensional Rigidities
Euclidean Distance Matrices and Their Applications in Rigidity Theory begins by establishing the necessary background needed for the rest of the book. The focus of Chapter 1 is on pertinent results from matrix theory, graph theory and convexity theory, while Chapter 2 is devoted to positive semidefinite (PSD) matrices due to the key role these matrices play in our approach. Chapters 3 to 7 provide detailed studies of EDMs, and in particular their various characterizations, classes, eigenvalues and geometry. Chapter 8 serves as a transitional chapter between EDMs and rigidity theory. Chapters 9 and 10 cover local and universal rigidities of bar-and-joint frameworks. This book is self-contained and should be accessible to a wide audience including students and researchers in statistics, operations research, computational biochemistry, engineering, computer science and mathematics.Mathematical Preliminaries
Positive Semidefinite Matrices
Euclidean Distance Matrices (EDMs)
Classes of EDMs
The Geometry of EDMs
The Eigenvalues of EDMs
The Entries of EDMs
EDM Completions and Bar Frameworks
Local and Infinitesimal Rigidities
Universal and Dimensional Rigidities
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