New and Advanced Optimization Algorithms in Physics and Computational Science
(Sprache: Englisch)
Many physicists are not aware of the fact that they can solve their problems by applying optimization algorithms. Since the number of such algorithms is steadily increasing, many new algorithms have not been presented comprehensively until now. This...
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Many physicists are not aware of the fact that they can solve their problems by applying optimization algorithms. Since the number of such algorithms is steadily increasing, many new algorithms have not been presented comprehensively until now. This presentation of recently developed algorithms applied in physics, including demonstrations of how they work and related results, aims to encourage their application, and as such the algorithms selected cover concepts and methods from statistical physics to optimization problems emerging in theoretical computer science.
Many physicists are not aware of the fact that they can solve their problems by applying optimization algorithms. Since the number of such algorithms is steadily increasing, many new algorithms have not been presented comprehensively until now.
This reference aims to spread the knowledge and encourage their application.
Im Forschungsalltag ist vielen Physikern nicht bewusst, dass sich manches Problem durch die Anwendung eines Optimierungsalgorithmus elegant lösen liesse. Die Palette verfügbarer Algorithmen wächst zudem ständig, was insbesondere Nicht-Fachleuten die zweckgerichtete Auswahl des geeigneten Verfahrens erschwert. Dieser Band setzt sich das Ziel, wichtige Optimierungsalgorithmen vorzustellen, damit einem breiteren Interessentenkreis zugänglich zu machen und Praktiker zum Einsatz der Verfahren zu ermutigen.
This reference aims to spread the knowledge and encourage their application.
Im Forschungsalltag ist vielen Physikern nicht bewusst, dass sich manches Problem durch die Anwendung eines Optimierungsalgorithmus elegant lösen liesse. Die Palette verfügbarer Algorithmen wächst zudem ständig, was insbesondere Nicht-Fachleuten die zweckgerichtete Auswahl des geeigneten Verfahrens erschwert. Dieser Band setzt sich das Ziel, wichtige Optimierungsalgorithmen vorzustellen, damit einem breiteren Interessentenkreis zugänglich zu machen und Praktiker zum Einsatz der Verfahren zu ermutigen.
Inhaltsverzeichnis zu „New and Advanced Optimization Algorithms in Physics and Computational Science “
Part I: Application in Physics-Cluster Monte Carlo algorithms (Werner Krauth)-Probing spin glasses with heuristic optimization algorithms (Olivier C. Martin)-Computing Exact Ground-States of Hard Ising Spin-Glass Problems by Branch-and-Cut (Frauke Liers, Michael Jünger, Gerhard Reinelt, Giovanni Rinaldi)-Counting States and Counting Operations (A. Alan Middleton)-Computing Potts¿ free energy and submodular functions (J.-C. Anglès d¿ Auriac)Part II: Phase transitions in combinatorial optimization problems-The random 3-satisfiability problem: From the phase transition to the efficient generation of hard, but satisfiable problem instances (Martin Weigt)-Analysis of backtracking procedures for random decision problems(Simona Cocco, Liat Ein-Dor, and Rémi Monasson)-New iterative algorithms for hard combinatorial problems (Riccardo Zecchina)Part III: New heuristics and interdisciplinary applications-Hysteretic optimization (Károly F. Pál)-Extremal Optimization (Stefan Boettcher)-Sequence Alignments (Alexander K. Hartmann)-Protein Folding In Silico - The Quest for Better Algorithms (Ulrich H. E. Hansmann)
Autoren-Porträt
Alexander Hartmann studied computer science and physics at the universities of Hagen, Duisburg and Heidelberg, Germany. After receiving his PhD in 1998, he went as a postdoc first to the University of Göttingen, Germany, then to the University of California at Santa Cruz and the Ecole Normale Superieure, France. In 2002, he returned to the University of Göttingen, where he is currently heading a junior research group. His research interests comprise computer simulations, disordered magnetic systems, surface physics, combinatorial optimization and bioinformatics. Heiko Rieger received his PhD in theoretical physics in 1989 at the Universität zu Köln, Germany. From 1990 to 1992, he worked as a postdoc at the University of Maryland at College Park and at the University of California at Santa Cruz. In 1994, he got his habilitation in theoretical physics and was a Heisenberg fellow from 1996 to 1999, working at the Forschungszentrum Jülich. He started teaching as a professor for theoretical physics at the Universität des Saarlandes (Saarbrücken, Germany) in 1999. His main research areas are: statistical physics and computational physics, in particular disordered and glassy systems, non-equilibrium dynamics, stochastic processes, complex systems, Monte Carlo simulations and combinatorial optimization.
Bibliographische Angaben
- 2004, XII, 300 Seiten, 113 Schwarz-Weiss-Abbildungen, Masse: 17,7 x 24,9 cm, Gebunden, Englisch
- Herausgegeben: Alexander K. Hartmann, H. Rieger
- Verlag: Wiley-VCH
- ISBN-10: 3527404066
- ISBN-13: 9783527404063
- Erscheinungsdatum: 11.05.2004
Sprache:
Englisch
Pressezitat
"This book is recommended for academic libraries, especially those with strong physics collections. It would be useful to faculty in physics, mathematics, and computer science..." ( E-STREAMS , February 2005)
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