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

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Bibliography 209[Kohonen, 1982b] Kohonen, T. (1982b). A simple paradigm for the self-organizedformation of structured feature maps. In Amari, S. and Arbib, M. A., editors, Competitionand Cooperation in Neural Nets, Lecture Notes in Biomathematics, Vol.45, pages 248–266. Springer, Berlin, Heidelberg. U. S. —Japan Joint Seminar onCompetition and Cooperation in Neural Nets, Kyoto, Japan, Feb. 15–19, 1982.[Leder, 1991] Leder, P. (1991). The genetics of antibody diversity. Immunology:Recognition and Response.[Lin et al., 1997] Lin, S.-C., Goodman, E., and Punch, W. (1997). A genetic algorithmapproach to dynamic job-shop scheduling problems. In Bäck, T., editor, Proceedingsof the Seventh International Conference on Genetic Algorithms, pages 481–489. Morgan-Kaufmann.[Marshalls Agriculture, 1998] Marshalls Agriculture, p. (1998). Personal communication.[Martinetz and Schulten, 1991] Martinetz, T. and Schulten, K. (1991). A ’neural-gas’nework learns topologies. In Kohonen, T., Mäkisara, K., Simula, O., and Kangas,J., editors, Artificial Neural Networks, pages 397–40.[Matzinger, 1994a] Matzinger, P. (1994a). Immunological memories are made of this? Nature, 369:605–606.[Matzinger, 1994b] Matzinger, P. (1994b). Tolerance, danger and the extended family.Annual Review Immunology, pages 991–1045.[Mori et al., 1998] Mori, K., Tsukiyama, M., and Fukuda, T. (1998). Adaptivescheduling system inspired by immune system. In Proceedings of the IEEE Conferenceon Systems, Man and Cybernetics, pages 3833–3837.[Mori et al., 1997] Mori, M., Tsukiyama, M., and Fukuda, T. (1997). Artificial immunitybased management system for a semiconductor production line. In Proceedingsof the IEEE Conference on Systems, Man and Cybernetics, pages 851–855.
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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 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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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
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Page 208 and 209: Appendix ACoincidences in permutati
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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]
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