Gary B. Fogel / David W. Corne (eds.)

Evolutionary Computation in Bioinformatics

Herausgeber: Fogel, Gary B; Corne, David W

• Gebundenes Buch

Produktbeschreibung

This book offers a definitive resource that bridges biology and evolutionary computation. The authors have written an introduction to biology and bioinformatics for computer scientists, plus an introduction to evolutionary computation for biologists and for computer scientists unfamiliar with these techniques.

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Produktdetails

• Verlag: Elsevier Science
• Seitenzahl: 393
• Erscheinungstermin: 16. September 2002
• Englisch
• Abmessung: 246mm x 187mm x 25mm
• Gewicht: 912g
• ISBN-13: 9781558607972
• ISBN-10: 1558607978
• Artikelnr.: 21994725

Autorenporträt

Gary B. Fogel is a senior staff scientist at Natural Selection, Inc., in La Jolla, California.His research interests include the application of evolutionary computationto problems in the biomedical sciences and evolutionary biology. He received aB.A. in biology from the University of California, Santa Cruz, in 1991 and a Ph.D.in biology from the University of California, Los Angeles, in 1998 with a focus onevolutionary biology. While at UCLA, Dr. Fogel was a fellow of the Center for theStudy of Evolution and the Origin of Life and earned several teaching and researchawards. He is a current member of the International Society for the Studyof the Origin of Life, the Society for the Study of Evolution, IEEE, Sigma Xi, andthe Evolutionary Programming Society. He currently serves as an associate editorfor IEEE Transactions on Evolutionary Computation and BioSystems and was a technicalco-chair for the recent 2000 Congress on Evolutionary Computation. He is alsoa senior staff scientist at the Center for Excellence in Evolutionary Computation,a nonprofit organization that promotes scientific research and development ofevolutionary algorithms.
David W. Corne is a reader in evolutionary computation (EC) at the University of Reading. His early research on evolutionary timetabling (with Peter Ross) resultedin the first freely available and successful EC-based general timetabling programfor educational and other institutions. His later EC work has been in suchareas as DNA pattern mining, promoter modeling, phylogeny, scheduling, layoutdesign, telecommunications, data mining, algorithm comparison issues, and multiobjectiveoptimization. Recent funded work (with Douglas Kell) applies EC directlyto the in vivo optimization of proteins. He is an associate editor of the IEEETransactions on Evolutionary Computation and a founding co-editor of the Journal ofScheduling. Dr. Corne is on the editorial boards of Applied Soft Computing and the InternationalJournal of Systems Science, and he serves on a host of international conferenceprogram committees. Other recent edited books include New Ideas in Optimization(with Marco Dorigo and Fred Glover), Telecommunications Optimization: Heuristic andAdaptive Techniques (with Martin Oates and George Smith), and Creative EvolutionarySystems (with Peter Bentley). He is also a director of Evosolve (United Kingdomregistered charity number 1086384, with Jeanne Lynch-Aird, Paul Marrow, GlenysOates, and Martin Oates), a nonprofit organization that promotes the use of advancedcomputation technologies to enhance the quality of life.

Inhaltsangabe

PART I - Introduction to the Concepts of Bioinformatics and Evolutionary
Computation
Chapter 1. An Introduction to Bioinformatics for Computer Scientists
By David W. Corne and Gary B. Fogel
Chapter 2. An Introduction to Evolutionary Computation for Biologists
By Gary B. Fogel and David W. Corne
PART II - Sequence and Structure Alignment
Chapter 3. Determining Genome Sequences from Experimental Data Using
Evolutionary Computation
By Jacek Blazewic and Marta Kasprzak
Chapter 4. Protein Structure Alignment Using Evolutionary Computation
By Joseph D. Szustakowski and Zhipeng Weng
Chapter 5. Using Genetic Algorithms for Pairwise and Multiple Sequence
Alignments
By Cédric Notredame
PART III - Protein Folding
Chapter 6. On the Evolutionary Search for Solutions to the Protein Folding
Problem
By Garrison W. Greenwood and Jae-Min Shin
Chapter 7. Toward Effective Polypeptide Structure Prediction with Parallel
Fast Messy Genetic Algorithms
By Gary B. Lamont and Laurence D. Merkle
Chapter 8. Application of Evolutionary Computation to Protein Folding with
Specialized Operators
By Steffen Schulze-Kremer
PART IV - Machine Learning and Inference
Chapter 9. Identification of Coding Regions in DNA Sequences Using Evolved
Neural Networks
By Gary B. Fogel, Kumar Chellapilla, and David B. Fogel
Chapter 10. Clustering Microarray Data with Evolutionary Algorithms
By Emanuel Falkenauer and Arnaud Marchand
Chapter 11. Evolutionary Computation and Fractal Visualization of Sequence
Data
By Dan Ashlock and Jim Golden
Chapter 12. Identifying Metabolic Pathways and Gene Regulation Networks
with Evolutionary Algorithms
By Junji Kitagawa and Hitoshi Iba
Chapter 13. Evolutionary Computational Support for the Characterization of
Biological Systems
By Bogdan Filipic and Janez Strancar
PART V - Feature Selection
Chapter 14. Discovery of Genetic and Environmental Interactions in Disease
Data Using Evolutionary Computation
By Laetitia Jourdan, Clarisse Dhaenens[AQ2], and El-Ghazali Talbi
Chapter 15. Feature Selection Methods Based on Genetic Algorithms for in
Silico Drug Design
By Mark J. Embrechts, Muhsin Ozdemir, Larry Lockwood, Curt Breneman,
Kristin Bennet, Dirk Devogelaere, and Marcel Rijkaert
Chapter 16. Interpreting Analytical Spectra with Evolutionary Computation
By Jem J. Rowland
Appendix: Internet Resources for Bioinformatics Data and Tools