Distance Geometry Theory, Methods, and Applications
Distance Geometry Theory, Methods, and Applications by Antonio Mucherino, published by Springer New York on January 28, 2015, is a comprehensive volume that explores the Distance Geometry Problem (DGP) and its various applications. This edition, consisting of 420 pages, presents a collection of research surveys divided into three main parts: Theory, Methods, and Applications. Each section includes surveys and research papers that delve into theoretical aspects, computational methods, and practical applications of distance geometry.
Readers will find detailed discussions on the complexities of the DGP, including its connections to distance matrix theory and geometric algebra. The Methods section covers both continuous and discrete mathematical approaches, alongside heuristic techniques for problem-solving. The Applications part highlights the relevance of DGP in fields such as NMR structure calculation, rational drug design, and sensor network localization. This volume serves as a foundational resource for those interested in the mathematical and practical implications of distance geometry.
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This volume is a collection of research surveys on the Distance Geometry Problem (DGP) and its applications. It will be divided into three parts: Theory, Methods and Applications. Each part will contain at least one survey and several research papers.
The first part, Theory, will deal with theoretical aspects of the DGP, including a new class of problems and the study of its complexities as well as the relation between DGP and other related topics, such as: distance matrix theory, Euclidean distance matrix completion problem, multispherical structure of distance matrices, distance geometry and geometric algebra, algebraic distance geometry theory, visualization of K-dimensional structures in the plane, graph rigidity, and theory of discretizable DGP: symmetry and complexity.
The second part, Methods, will discuss mathematical and computational properties of methods developed to the problems considered in the first chapter including continuous methods (based on Gaussian and hyperbolic smoothing, difference of convex functions, semidefinite programming, branch-and-bound), discrete methods (based on branch-and-prune, geometric build-up, graph rigidity), and also heuristics methods (based on simulated annealing, genetic algorithms, tabu search, variable neighborhood search).
Applications will comprise the third part and will consider applications of DGP to NMR structure calculation, rational drug design, molecular dynamics simulations, graph drawing and sensor network localization.
This volume will be the first edited book on distance geometry and applications. The editors are in correspondence with the major contributors to the field of distance geometry, including important research centers in molecular biology such as Institut Pasteur in Paris.
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