Immunology as a Metaphor for Computational ... - Napier University

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Bibliography 211[Potter and De Jong, 1998] Potter, M. and De Jong, K. (1998). The coevolution ofantibodies for concept learning. In Parallel Problem Solving From Nature - PPSNV, pages 530–540. Springer-Verlag.[Potter and De Jong, 2000] Potter, M. and De Jong, K. (2000). Cooperative coevolution:An architecture for evolving coadapted subcomponents. Evolutionary Computation,8(1):1–29.[Richardson et al., 1989] Richardson, J., Palmer, M., Leipin, G., and Hilliard, M.(1989). Some guidelines for gas with penalty functions. In Schaffer, J., editor, Proceedingsof the Third International Conference on Genetic Algorithms and TheirApplications, pages 191–197. Morgan Kaufmann.[Roitt et al., 1988] Roitt, I., Brostoff, J., and Male, D. (1988). Immunology. Mosby,5th edition.[Ross, 2002] Ross, P. (2002). Personal communication.[Ross et al., 2002] Ross, P., Schulenburg, S., Marín-Blázquez, J., and Hart, E. (2002).Hyper-heuristics: Learning to combine simple heuristics in bin-packing problems.In Langdon, W. B., Cantú-Paz, E., Mathias, K., Roy, R., Davis, D., Poli, R., Balakrishnan,K., Honavar, V., Rudolph, G., Wegener, J., Bull, L., Potter, M. A., Schultz,A. C., Miller, J. F., Burke, E., and Jonoska, N., editors, GECCO 2002: Proceedingsof the Genetic and Evolutionary Computation Conference, pages 942–948, NewYork. Morgan Kaufmann Publishers.[Russ et al., 1999] Russ, S., Lambert, A., King, R., Rajan, R., and Reese, D. (1999).An artificial immune system model for task allocation. In Proceedings of the Symposiumon High Performance Distributed Computing.[Sjödin, 1996] Sjödin, G. (1996). Getting more information out of sdm. In von derMalsburg, C., von Seelen, W., Vorbruggen, J., and Sendhoff, B., editors, Proceedingsof ICANN 96, pages 477–482. Springer.
Bibliography 212[Smith and Coit, 1997] Smith, A. and Coit, D. (1997). Handbook of EvolutionaryComputing, chapter Constraint Handling Techniques - Penalty Functions. OxfordUniversity Press. Chapter C5.2.[Smith et al., 1996] Smith, D., Forrest, S., and Perelson, A. (1996). Immunologicalmemory is associative. In Workshop Notes, Workshop 4: Immunity Based Systems,International Conference on Multiagent Systems, pages 62–70. Kyoto, Japan.[Smith et al., 1999] Smith, D., Forrest, S., and Perelson, A. (1999). Artificial ImmuneSystems and Their Applications, chapter Immunological Memory is Associative,pages 105–112. Springer-Verlag.[Smith et al., 1993] Smith, R., Forrest, S., and Perelson, A. (1993). Searching for diverse,cooperative populations with genetic algorithms. Evolutionary Computation,1(2):127–149.[Stadnyk, 1987] Stadnyk, I. (1987). Schema recombination in pattern recognitionproblems. In who, editor, Proceedings of the 2nd International Conference on GeneticAlgorithms and their Applications, page ?, Hillside, NJ. Lawrence ErlbaumAssoc.[Tew and Mandel, 1979] Tew, J. and Mandel, T. (1979). Prolonged antigen half-lifein the lymphoid follicules of antigen-specifically immunized mice. Immunology,37:69–76.[Timmis, 2000a] Timmis, J. (2000a). On parameter adjustment of the immune inspiredmachine learning algorithm AINE. Technical Report 12-00, Computing Laboratory,Univeristy of Kent at Canterbury, Canterbury, Kent. CT2 7NF.[Timmis, 2000b] Timmis, J. (2000b). Visualising artificial immune networks. TechnicalReport UWA-DCS-00-034, University of Wales, Aberystwyth.[Timmis and Neal, 2001] Timmis, J. and Neal, M. (2001). A resource limited artificialimmune system for data analysis. Knowledge Based Systems, 14(3-4):121–130.
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AbstractThe biological immune syste
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DeclarationI declare that this thes
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Table of Contents1 Introduction 11.
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5.3.1 Default Parameters . . . . .
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List of Figures2.1 ’Lock and Key
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List of Tables2.1 Structural and fu
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Chapter 1IntroductionThe study of b
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Chapter 1. Introduction 3scientists
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Chapter 1. Introduction 5Thus, the
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Chapter 1. Introduction 7of the cha
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Chapter 1. Introduction 94. Analysi
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Chapter 2. Background 11paratopeepi
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Chapter 2. Background 13antigenepit
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£Chapter 2. Background 15low the m
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Chapter 2. Background 17Antigene 0p
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Chapter 2. Background 19maintained
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E £ ρ¥ £Chapter 2. Background 2
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Chapter 2. Background 23genetically
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Chapter 2. Background 251. Choose a
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Chapter 2. Background 27non-interbr
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Chapter 2. Background 29been made i
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Chapter 2. Background 31patterns wi
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Chapter 2. Background 33reported on
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Chapter 2. Background 35Immunos 81
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Chapter 2. Background 37recognition
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Chapter 2. Background 391. Create a
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Chapter 2. Background 41environment
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Chapter 2. Background 43a)input dat
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Chapter 2. Background 45antibody wi
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Chapter 3. Immune Systems for Sched
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££Chapter 3. Immune Systems for S
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Chapter 4Applying an Immune System
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Chapter 4. Applying an Immune Syste
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Chapter 5. EA Based Model — COSDM
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Chapter 6. A Self-Organising SDM
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J:¡Chapter 6. A Self-Organising SD
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¡¡¡Chapter 6. A Self-Organising
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Page 194 and 195: Chapter 7Conclusion7.1 OverviewThis
Page 196 and 197: Chapter 7. Conclusion 181however wh
Page 198 and 199: Chapter 7. Conclusion 183features m
Page 200 and 201: Chapter 7. Conclusion 185In additio
Page 202 and 203: Chapter 7. Conclusion 187ter, sched
Page 204 and 205: Chapter 7. Conclusion 189Clustering
Page 206 and 207: Chapter 7. Conclusion 191nature in
Page 208 and 209: Appendix ACoincidences in permutati
Page 210 and 211: Appendix BExperimental results obta
Page 212 and 213: Appendix B. Experimental results ob
Page 218 and 219: Bibliography 203[Cooke and Hunt, 19
Page 220 and 221: Bibliography 205[Farmer et al., 198
Page 222 and 223: Bibliography 207[Hart et al., 1998]
Page 224 and 225: Bibliography 209[Kohonen, 1982b] Ko
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