Bioinspired Computation in Combinatorial Optimization: Algorithms and Their Computational Complexity: Natural Computing Series
Autor Frank Neumann, Carsten Witten Limba Engleză Hardback – 5 noi 2010
The authors study the computational complexity of bioinspired computation and show how runtime behavior can be analyzed in a rigorous way using some of the best-known combinatorial optimization problems -- minimum spanning trees, shortest paths, maximum matching, covering and scheduling problems. A feature of the book is the separate treatment of single- and multiobjective problems, the latter a domain where the development of the underlying theory seems to be lagging practical successes.
This book will be very valuable for teaching courses on bioinspired computation and combinatorial optimization. Researchers will also benefit as the presentation of the theory covers the most important developments in the field over the last 10 years. Finally, with a focus on well-studied combinatorial optimization problems rather than toy problems, the book will also be very valuable for practitioners in this field.
| Toate formatele și edițiile | Preț | Express |
|---|---|---|
| Paperback (1) | 376.76 lei 43-57 zile | |
| Springer Berlin, Heidelberg – 2 ian 2013 | 376.76 lei 43-57 zile | |
| Hardback (1) | 376.97 lei 43-57 zile | |
| Springer Berlin, Heidelberg – 5 noi 2010 | 376.97 lei 43-57 zile |
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Specificații
ISBN-13: 9783642165436
ISBN-10: 3642165435
Pagini: 214
Ilustrații: XII, 216 p.
Dimensiuni: 155 x 235 x 16 mm
Greutate: 0.34 kg
Ediția:2010
Editura: Springer Berlin, Heidelberg
Colecția Springer
Seria Natural Computing Series
Locul publicării:Berlin, Heidelberg, Germany
ISBN-10: 3642165435
Pagini: 214
Ilustrații: XII, 216 p.
Dimensiuni: 155 x 235 x 16 mm
Greutate: 0.34 kg
Ediția:2010
Editura: Springer Berlin, Heidelberg
Colecția Springer
Seria Natural Computing Series
Locul publicării:Berlin, Heidelberg, Germany
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Public țintă
ResearchCuprins
Basics.- Combinatorial Optimization and Computational Complexity.- Stochastic Search Algorithms.- Analyzing Stochastic Search Algorithms.- Single-objective Optimization.- Minimum Spanning Trees.- Maximum Matchings.- Makespan Scheduling.- Shortest Paths.- Eulerian Cycles.- Multi-objective Optimization.- Multi-objective Minimum Spanning Trees.- Minimum Spanning Trees Made Easier.- Covering Problems.- Cutting Problems.
Recenzii
“A very nice and, with respect to the topics treated, a useful contribution to the literature. The book gives a very appealing introduction into the area of bio-inspired algorithms with solid results on the theoretical side, gathering many recent results which so far only have been available in research papers. … recommendable resource both for researchers who want to learn more on the topic and for preparing a course on bio-inspired algorithms. … Altogether this is a very recommendable textbook.” (Klaus Meer, Mathematical Reviews, February, 2015)
"This timely book will be useful to many researchers and advanced undergraduate and graduate students. The key strength of the book is the complexity analysis of the algorithms for a variety of combinatorial optimization problems on graphs. Furthermore, it provides a comprehensive treatment of evolutionary algorithms and ant colony optimization. The book is recommended to anyone working in the areas of computational complexity, combinatorial optimization, and engineering." (Manish Gupta, Computing Reviews, May, 2011)
“This book treats bio-inspired computing methods as stochastic algorithms and presents rigorous results on their runtime behavior. The book is meant to give researchers a state-of-the-art presentation of theoretical results on bio-inspired computing methods in the context of combinatorial optimization. It can be used as basic material for courses on bio-inspired computing that are meant for graduate students and advanced undergraduates.” (I. N. Katz, Zentralblatt MATH, Vol. 1223, 2011)
"This timely book will be useful to many researchers and advanced undergraduate and graduate students. The key strength of the book is the complexity analysis of the algorithms for a variety of combinatorial optimization problems on graphs. Furthermore, it provides a comprehensive treatment of evolutionary algorithms and ant colony optimization. The book is recommended to anyone working in the areas of computational complexity, combinatorial optimization, and engineering." (Manish Gupta, Computing Reviews, May, 2011)
“This book treats bio-inspired computing methods as stochastic algorithms and presents rigorous results on their runtime behavior. The book is meant to give researchers a state-of-the-art presentation of theoretical results on bio-inspired computing methods in the context of combinatorial optimization. It can be used as basic material for courses on bio-inspired computing that are meant for graduate students and advanced undergraduates.” (I. N. Katz, Zentralblatt MATH, Vol. 1223, 2011)
Notă biografică
Authors have given tutorials on this topic at major international conferences
Textul de pe ultima copertă
Bioinspired computation methods, such as evolutionary algorithms and ant colony optimization, are being applied successfully to complex engineering and combinatorial optimization problems, and it is very important that we understand the computational complexity of these search heuristics. This is the first book to explain the most important results achieved in this area.
The authors show how runtime behavior can be analyzed in a rigorous way. in particular for combinatorial optimization. They present well-known problems such as minimum spanning trees, shortest paths, maximum matching, and covering and scheduling problems. Classical single-objective optimization is examined first. They then investigate the computational complexity of bioinspired computation applied to multiobjective variants of the considered combinatorial optimization problems, and in particular they show how multiobjective optimization can help to speed up bioinspired computation for single-objective optimization problems.
This book will be valuable for graduate and advanced undergraduate courses on bioinspired computation, as it offers clear assessments of the benefits and drawbacks of various methods. It offers a self-contained presentation, theoretical foundations of the techniques, a unified framework for analysis, and explanations of common proof techniques, so it can also be used as a reference for researchers in the areas of natural computing, optimization and computational complexity.
The authors show how runtime behavior can be analyzed in a rigorous way. in particular for combinatorial optimization. They present well-known problems such as minimum spanning trees, shortest paths, maximum matching, and covering and scheduling problems. Classical single-objective optimization is examined first. They then investigate the computational complexity of bioinspired computation applied to multiobjective variants of the considered combinatorial optimization problems, and in particular they show how multiobjective optimization can help to speed up bioinspired computation for single-objective optimization problems.
This book will be valuable for graduate and advanced undergraduate courses on bioinspired computation, as it offers clear assessments of the benefits and drawbacks of various methods. It offers a self-contained presentation, theoretical foundations of the techniques, a unified framework for analysis, and explanations of common proof techniques, so it can also be used as a reference for researchers in the areas of natural computing, optimization and computational complexity.
Caracteristici
Authors have given tutorials on this topic at major international conferences Text has been class-tested by the authors and their collaborators Comprehensive introduction for researchers Includes supplementary material: sn.pub/extras