Description
Handbook of Graph Theory, Combinatorial Optimization, and Algorithms
Chapman & Hall/CRC Computer and Information Science Series
Coordinators: Thulasiraman Krishnaiyan "KT", Arumugam Subramanian, Brandstädt Andreas, Nishizeki Takao
Language: EnglishSubjects for Handbook of Graph Theory, Combinatorial Optimization...:
Keywords
Biconnected Components; Cayley Graph; bipartite; Triangle Free Graphs; connected; Chromatic Number; directed; Connected Graph; undirected; Chordal Graph; polynomial; Independent Set; time; Fundamental Cutset; planar; Induced Subgraph; graphs; Planar Graph; shortest; Vertex Cover; path; Multicommodity Flow Problem; Planar Embedding; Back Edges; Principal Partition; Transitive Orientation; Bipartite Graph; Polynomial Time; Undirected Graph; Vertex Set; Polynomial Time Algorithm; Edge Connectivity; Steiner Tree; Minimum Cut; Adjacency Matrix
Publication date: 09-2020
· 21.6x28 cm · Paperback
Publication date: 01-2016
1216 p. · 21.6x27.9 cm · Hardback
Description
/li>Contents
/li>Readership
/li>Biography
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The fusion between graph theory and combinatorial optimization has led to theoretically profound and practically useful algorithms, yet there is no book that currently covers both areas together. Handbook of Graph Theory, Combinatorial Optimization, and Algorithms is the first to present a unified, comprehensive treatment of both graph theory and combinatorial optimization.
Divided into 11 cohesive sections, the handbook?s 44 chapters focus on graph theory, combinatorial optimization, and algorithmic issues. The book provides readers with the algorithmic and theoretical foundations to:
- Understand phenomena as shaped by their graph structures
- Develop needed algorithmic and optimization tools for the study of graph structures
- Design and plan graph structures that lead to certain desirable behavior
With contributions from more than 40 worldwide experts, this handbook equips readers with the necessary techniques and tools to solve problems in a variety of applications. Readers gain exposure to the theoretical and algorithmic foundations of a wide range of topics in graph theory and combinatorial optimization, enabling them to identify (and hence solve) problems encountered in diverse disciplines, such as electrical, communication, computer, social, transportation, biological, and other networks.
Basic Concepts and Algorithms. Flows in Networks. Algebraic Graph Theory. Structural Graph Theory. Planar Graphs. Interconnection Networks. Special Graphs. Partitioning. Matroids. Probabilistic Methods, Random Graph Models, and Randomized Algorithms. Coping with NP-Completeness.
Editor-in-Chief
Krishnaiyan "KT" Thulasiraman is a professor and Hitachi Chair in Computer Science at the University of Oklahoma and a professor emeritus in electrical and computer engineering at Concordia University in Montreal. He is a fellow of the IEEE, AAAS, and the European Academy of Sciences. Dr. Thulasiraman has received several honors, including the Distinguished Alumnus Award of the Indian Institute of Technology Madras, IEEE Circuits and Systems Society Charles Desoer Technical Achievement Award, and IEEE Circuits and Systems Society Golden Jubilee Medal. He is the coauthor of two graduate-level textbooks on graphs, electrical networks, and algorithms. His research interests include graph theory, combinatorial optimization, and related algorithmic issues with a specific focus on applications in electrical and computer engineering and network science.
Editors
Subramanian Arumugam is a senior professor and director of the National Centre for Advanced Research in Discrete Mathematics at Kalasalingam University. He is also a visiting professor at Liverpool Hope University and an adjunct professor at Ball State University. Dr. Arumugam is the founding editor-in-chief of AKCE International Journal of Graphs and Combinatorics and author of 32 books and 195 journal papers. His current research interests include graph theory and its applications.
Andreas Brandstädt retired as a professor in computer science from the University of Rostock after 20 years. Dr. Brandstädt has published extensively in various international journals and conference proceedings. He is also the author of a textbook and coauthor of a widely cited monograph. His research interests include stochastics, complexity theory, formal languages, graph algorithms, graph theory, combinatorial optimization, and related algorithmic issues with a specific focus on efficient algorithms based on graph structure and graph classes with tree structure.