References

  1. Agrawal, Manindra, Neeraj Kayal, and Nitin Saxena. 2004. PRIMES Is in P. Annals of Mathematics 160 (2): 781–793.
  2. Almeida, Luis B. 1989. “Backpropagation in Perceptrons with Feedback.” In Neural Computers, ed. R. Eckmiller and C. von der Malsburg. Springer.
  3. Altschul, Stephen F., Warren Gish, Webb Miller, Eugene W. Myers, and David J. Lipman. 1990. “Basic Local Alignment Search Tool.” Journal of Molecular Biology 215 (3): 403–410.
  4. Anger, Andreas M., Jean-Paul Armache, Otto Berninghausen, Michael Habeck, Marion Subklewe, Daniel N. Wilson, and Roland Beckmann. 2013. “Structures of the Human and Drosophila 80S Ribosome.” Nature 497 (7447): 80–85.
  5. Avery, Oswald T., Colin M. MacLeod, and Maclyn McCarty. 1944. “Studies on the Chemical Nature of the Substance Inducing Transformation of Pneumococcal Types Induction of Transformation by a Desoxyribonucleic Acid Fraction Isolated from Pneumococcus Type III.” Journal of Experimental Medicine 79 (2): 137–158.
  6. Azevedo, Frederico A. C., Ludmila R. B. Carvalho, Lea T. Grinberg, José Marcelo Farfel, Renata E. L. Ferretti, Renata E. P. Leite, Roberto Lent, and Suzana Herculano-Houzel. 2009. “Equal Numbers of Neuronal and Nonneuronal Cells Make the Human Brain an Isometrically Scaled Up Primate Brain.” Journal of Comparative Neurology 513 (5): 532–541.
  7. Baeza-Yates, Ricardo, and Berthier Ribeiro-Neto. 1999. Modern Information Retrieval. ACM Press.
  8. Barrell, B. G., A. T. Bankier, and J. Drouin. 1979. “A Different Genetic Code in Human Mitochondria.” Nature 282 (5735): 189–194.
  9. Beggs, John, and Dietmar Plenz. 2003. “Neuronal Avalanches in Neocortical Circuits.” Journal of Neuroscience 23 (35): 11167–11177.
  10. Belliveau, J. W., D. N. Kennedy, R. C. McKinstry, B. R. Buchbinder, R. M. Weisskoff, M. S. Cohen, J. M. Vevea, T. J. Brady, and B. R. Rosen. 1991. “Functional Mapping of the Human Visual Cortex by Magnetic Resonance Imaging.” Science 254 (5032): 716–719.
  11. Berger, Hans. 1929. Über das Elektrenkephalogramm des Menschen. European Archives of Psychiatry and Clinical Neuroscience 87 (1): 527–570.
  12. Berman, Helen M, John Westbrook, Zukang Feng, Gary Gilliland, T. N. Bhat, Helge Weissig, Ilya N. Shindyalov, and Philip E. Bourne. 2000. The Protein Data Bank. Nucleic Acids Research 28 (1): 235–242.
  13. Bianconi, Eva, Allison Piovesan, Federica Facchin, Alina Beraudi, Raffaella Casadei, Flavia Frabetti, Lorenza Vitale, Maria Chiara Pelleri, Simone Tassani, and Francesco Piva. 2013. “An Estimation of the Number of Cells in the Human Body.” Annals of Human Biology 40 (6): 463–471.
  14. Bissell, Chris. 2007. Historical Perspectives: The Moniac A Hydromechanical Analog Computer of the 1950s. IEEE Control Systems Magazine 27 (1): 69–74.
  15. Blakemore, Colin, and Grahame F. Cooper. 1970. “Development of the Brain Depends on the Visual Environment.” Nature 228 (5270): 477–478.
  16. Bliss, T. V., and G. L. Collingridge. 1993. “A Synaptic Model of Memory: Long-Term Potentiation in the Hippocampus.” Nature 361 (6407): 31–39.
  17. Bliss, T. V., and Terje Lømo. 1973. “Long‐Lasting Potentiation of Synaptic Transmission in the Dentate Area of the Anaesthetized Rabbit Following Stimulation of the Perforant Path.” Journal of Physiology 232 (2): 331–356.
  18. Blumer, A., A. Ehrenfeucht, D. Haussler, and M. Warmuth. 1987. “Occam’s Razor.” Information Processing Letters 24 (6): 377–380.
  19. Blumer, A., and R. L. Rivest. 1988. Training a 3-Node Neural Net Is NP-Complete. Advances in Neural Information Processing Systems suppl. 1:494–501.
  20. Boas, David A., Anders M. Dale, and Maria Angela Franceschini. 2004. “Diffuse Optical Imaging of Brain Activation: Approaches to Optimizing Image Sensitivity, Resolution, and Accuracy.” Neuroimage 23 (suppl. 1): S275–S288.
  21. Bock, Davi D., Wei-Chung Allen Lee, Aaron M. Kerlin, Mark L. Andermann, Greg Hood, Arthur W. Wetzel, Sergey Yurgenson, et al. 2011. “Network Anatomy and In Vivo Physiology of Visual Cortical Neurons.” Nature 471 (7337): 177–182.
  22. Borůvka, O. 1926. “O Jistém Problému Minimálniım.” Praca Moravske Prirodovedecke Spolecnosti, no. 3: 37–58.
  23. Bostrom, Nick. 2014. Superintelligence: Paths, Dangers, Strategies. Oxford University Press.
  24. Boyden, Edward S., Feng Zhang, Ernst Bamberg, Georg Nagel, and Karl Deisseroth. 2005. “Millisecond-Timescale, Genetically Targeted Optical Control of Neural Activity.” Nature Neuroscience 8 (9): 1263–1268.
  25. Breiman, Leo, Jerome Friedman, Charles J. Stone, and Richard A. Olshen. 1984. Classification and Regression Trees. CRC Press.
  26. Brin, S., and L. Page. 1998. “The Anatomy of a Large-Scale Hypertextual Web Search Engine.” In Proceedings of the Seventh International World Wide Web Conference. Elsevier.
  27. Brocks, Jochen J., Graham A. Logan, Roger Buick, and Roger E. Summons. 1999. “Archean Molecular Fossils and the Early Rise of Eukaryotes.” Science 285 (5430): 1033–1036.
  28. Brodmann, K. 1909. Vergleichende Lokalisationslehre der Groshirnrinde. Barth.
  29. Brownell, Gordon L., and William H. Sweet. 1953. “Localization of Brain Tumors with Positron Emitters.” Nucleonics 11 (11): 40–45.
  30. Bugalho, Miguel M. F., and Arlindo L. Oliveira. 2008. “An Evaluation of the Impact of Side Chain Positioning on the Accuracy of Discrete Models of Protein Structures.” Advances in Bioinformatics and Computational Biology 5167: 23–34.
  31. Caton, Richard. 1875. The Electric Currents of the Brain. British Medical Journal 2:278–278.
  32. Charlesworth, Brian, and Deborah Charlesworth. 2009. “Darwin and Genetics.” Genetics 183 (3): 757–766.
  33. Church, Alonzo. 1936. “An Unsolvable Problem of Elementary Number Theory.” American Journal of Mathematics 58 (2): 345–363.
  34. Clancy, B., R. B. Darlington, and B. L. Finlay. 2001. “Translating Developmental Time across Mammalian Species.” Neuroscience 105 (1): 7–17.
  35. Clarke, Arthur C. 1968. A Space Odyssey. Hutchinson.
  36. Cohen, David. 1968. “Magnetoencephalography: Evidence of Magnetic Fields Produced by Alpha-Rhythm Currents.” Science 161 (3843): 784–786.
  37. Compeau, Phillip E. C., Pavel A. Pevzner, and Glenn Tesler. 2011. “How to Apply de Bruijn Graphs to Genome Assembly.” Nature Biotechnology 29 (11): 987–991.
  38. Cook, S. A. 1971. “The Complexity of Theorem-Proving Procedures.” In Proceedings of the Third Annual ACM Symposium on Theory of Computing. ACM.
  39. Cooke, S. F., and T. V. Bliss. 2006. Plasticity in the Human Central Nervous System. Brain 129 (7): 1659–1673.
  40. Cooper, Geoffrey M., and Robert E. Hausman. 2000. The Cell. Sinauer.
  41. Craik, Kenneth James Williams. 1967. The Nature of Explanation. Cambridge University Press.
  42. Crick, Francis, Leslie Barnett, Sydney Brenner, and Richard J. Watts-Tobin. 1961. “General Nature of the Genetic Code for Proteins.” Nature 192 (4809): 1227–1232.
  43. Crombie, Alistair Cameron. 1959. Medieval and Early Modern Science., volume II. Harvard University Press.
  44. Crosby, Peter A., Christopher N. Daly, David K. Money, James F. Patrick, Peter M. Seligman, and Janusz A. Kuzma. 1985. Cochlear Implant System for an Auditory Prosthesis. US Patent 4532930.
  45. Crosson, Bruce, Anastasia Ford, Keith M. McGregor, Marcus Meinzer, Sergey Cheshkov, Xiufeng Li, Delaina Walker-Batson, and Richard W. Briggs. 2010. “Functional Imaging and Related Techniques: An Introduction for Rehabilitation Researchers.” Journal of Rehabilitation Research and Development 47 (2): vii–xxxiv.
  46. Darwin, Charles. 1859. On the Origin of Species by Means of Natural Selection. Murray.
  47. Davidson, Donald. 1987. Knowing One’s Own Mind. Proceedings and Addresses of the American Philosophical Association 60 (3): 441–458.
  48. Davis, Martin, Yuri Matiyasevich, and Julia Robinson. 1976. Hilbert’s Tenth Problem: Diophantine Equations: Positive Aspects of a Negative Solution. Proceedings of Symposia in Pure Mathematics 28:323–378.
  49. Davis, Martin, Hilary Putnam, and Julia Robinson. 1961. The Decision Problem for Exponential Diophantine Equations. Annals of Mathematics 74 (3): 425–436.
  50. Dawkins, Richard. 1976. The Selfish Gene. Oxford University Press.
  51. Dawkins, Richard. 1986. The Blind Watchmaker: Why the Evidence of Evolution Reveals a Universe without Design. Norton.
  52. Dawkins, Richard. 2010. The Ancestor’s Tale: A Pilgrimage to the Dawn of Life. Orion.
  53. Denk, Winfried, and Heinz Horstmann. 2004. Serial Block-Face Scanning Electron Microscopy to Reconstruct Three-Dimensional Tissue Nanostructure. PLoS Biology 2 (11): e329.
  54. Dennett, Daniel C. 1991. Consciousness Explained. Little, Brown.
  55. Dennett, Daniel C. 1995. Darwin’s Dangerous Idea. Simon and Schuster.
  56. Dennett, Daniel C. 2003. Freedom Evolves. Penguin.
  57. Descartes, René. 1641. Meditationes de Prima Philosophia.
  58. Diamond, Jared. 1997. Guns, Germs, and Steel. Norton.
  59. Diamond, Jared. 2005. Collapse: How Societies Choose to Fail or Succeed. Penguin.
  60. Dias, A., M. Bianciardi, S. Nunes, R. Abreu, J. Rodrigues, L. M. Silveira, L. L. Wald, and P. Figueiredo. 2015. “A New Hierarchical Brain Parcellation Method Based on Discrete Morse Theory for Functional MRI Data.” In IEEE 12th International Symposium on Biomedical Imaging.
  61. Dijkstra, Edsger W. 1959. “A Note on Two Problems in Connexion with Graphs.” Numerische Mathematik 1 (1): 269–271.
  62. Dobelle, William H., M. G.Mladejovsky, and J. P. Girvin. 1974. “Artificial Vision for the Blind: Electrical Stimulation of Visual Cortex Offers Hope for a Functional Prosthesis.” Science 183 (4123): 440–444.
  63. Domingos, Pedro. 1999. “The Role of Occam’s Razor in Knowledge Discovery.” Data Mining and Knowledge Discovery 3 (4): 409–425.
  64. Domingos, Pedro. 2015. The Master Algorithm: How the Quest for the Ultimate Learning Machine Will Remake Our World. Basic Books.
  65. Domingos, Pedro, and Michael Pazzani. 1997. “On the Optimality of the Simple Bayesian Classifier under Zero-One Loss.” Machine Learning 29 (2–3): 103–130.
  66. Drexler, K. Eric. 1986. Engines of Creation: The Coming Era of Nanotechnology. Anchor.
  67. Drubach, Daniel. 2000. The Brain Explained. Prentice-Hall.
  68. Edmondson, James C., and Mary E. Hatten. 1987. “Glial-Guided Granule Neuron Migration in Vitro: A High-Resolution Time-Lapse Video Microscopic Study.” Journal of Neuroscience 7 (6): 1928–1934.
  69. Egan, Greg. 2010a. Permutation City. Hachette.
  70. Egan, Greg. 2010b. Zendegi. Hachette.
  71. Einstein, Albert. 1905a. Über die von der Molekularkinetischen Theorie der Wärme geforderte Bewegung von in ruhenden Flüssigkeiten suspendierten Teilchen. Annalen der Physik 17 (8): 549–560.
  72. Einstein, Albert. 1905b. Über einen die Erzeugung und Verwandlung des Lichtes betreffenden heuristischen Gesichtspunkt. Annalen der Physik 17 (6): 132–148.
  73. Einstein, Albert. 1905c. Zur Elektrodynamik bewegter Körper. Annalen der Physik 17 (10): 891–921.
  74. Einstein, Albert, Boris Podolsky, and Nathan Rosen. 1935. “Can Quantum-Mechanical Description of Physical Reality Be Considered Complete?” Physical Review 47 (10): 777–780.
  75. Feynman, Richard Phillips. 1985. QED: The Strange Theory of Light and Matter. Princeton University Press.
  76. Fiers, Walter, Roland Contreras, Fred Duerinck, Guy Haegeman, Dirk Iserentant, Jozef Merregaert, W. Min Jou, et al. 1976. “Complete Nucleotide Sequence of Bacteriophage MS2 RNA: Primary and Secondary Structure of the Replicase Gene.” Nature 260 (5551): 500–507.
  77. Fischl, Bruce, David H. Salat, Evelina Busa, Marilyn Albert, Megan Dieterich, Christian Haselgrove, Andre van der Kouwe, et al. 2002. “Whole Brain Segmentation: Automated Labeling of Neuroanatomical Structures in the Human Brain.” Neuron 33 (3): 341–355.
  78. Fisher, Ronald A. 1936. “Has Mendel’s Work Been Rediscovered?” Annals of Science 1 (2): 115–137.
  79. Fleischner, Herbert. 1990. Eulerian Graphs and Related Topics. Elsevier.
  80. Floyd, Robert W. 1962. Algorithm 97: Shortest Path. Communications of the ACM 5 (6): 345.
  81. Franklin, Allan, A. W. F. Edwards, Daniel J. Fairbanks, and Daniel L. Hartl. 2008. Ending the Mendel-Fisher Controversy. University of Pittsburgh Press.
  82. Friedman, Jerome, Trevor Hastie, and Robert Tibshirani. 2001. The Elements of Statistical Learning. Springer.
  83. Fuller, Richard Buckminster, and John McHale. 1967. World Design Science Decade, 1965–1975. World Resources Inventory.
  84. Garey, Michael R., and David S. Johnson. 1979. Computers and Intractability: A Guide to NP-Completeness. Freeman.
  85. Gaur, Albertine. 1992. A History of Writing. University of Chicago Press.
  86. Glover, Paul, and Sir Peter Mansfield. 2002. “Limits to Magnetic Resonance Microscopy.” Reports on Progress in Physics 65 (10): 1489–1511.
  87. Gödel, Kurt. 1931. Über formal unentscheidbare Sätze der Principia Mathematica und verwandter Systeme I. Monatshefte für Mathematik und Physik 38 (1): 173–198.
  88. Good, Irving John. 1965. “Speculations Concerning the First Ultraintelligent Machine.” Advances in Computers 6 (99): 31–83.
  89. Goudsblom, Johan. 1992. Fire and Civilization. Viking.
  90. Gould, Stephen Jay. 1996. Full House: The Spread of Excellence from Plato to Darwin. Harmony Books.
  91. Gratton, Gabriele, and Monica Fabiani. 2001. “Shedding Light on Brain Function: The Event-Related Optical Signal.” Trends in Cognitive Sciences 5 (8): 357–363.
  92. Grosberg, Richard K., and Richard R. Strathmann. 2007. “The Evolution of Multicellularity: A Minor Major Transition?” Annual Review of Ecology, Evolution, and Systematics 38 (1): 621–654.
  93. Gusfield, Dan. 1997. Algorithms on Strings, Trees, and Sequences: Computer Science and Computational Biology. Cambridge University Press.
  94. Hagmann, Patric, Leila Cammoun, Xavier Gigandet, Reto Meuli, Christopher J. Honey, Van J. Wedeen, and Olaf Sporns. 2008. Mapping the Structural Core of Human Cerebral Cortex. PLoS Biology 6 (7): e159.
  95. Hagmann, Patric, Lisa Jonasson, Philippe Maeder, Jean-Philippe Thiran, Van J. Wedeen, and Reto Meuli. 2006. “Understanding Diffusion MR Imaging Techniques: From Scalar Diffusion-Weighted Imaging to Diffusion Tensor Imaging and Beyond 1.” Radiographics 26 (suppl. 1): S205–S223.
  96. Hanson, Robin. 2008. Economics of the Singularity. IEEE Spectrum 45 (6): 45–50.
  97. Harari, Yuval Noah. 2014. Sapiens: A Brief History of Humankind. Harper.
  98. Harmand, Sonia, Jason E. Lewis, Craig S. Feibel, Christopher J. Lepre, Sandrine Prat, Arnaud Lenoble, Xavier Boës, et al. 2015. “3.3-Million-Year-Old Stone Tools from Lomekwi 3, West Turkana, Kenya.” Nature 521 (7552): 310–315.
  99. Hawrylycz, Michael J., Ed S. Lein, Angela L. Guillozet-Bongaarts, Elaine H. Shen, Lydia Ng, Jeremy A. Miller, and Louie N. van de Lagemaat, et al. 2012. “An Anatomically Comprehensive Atlas of the Adult Human Brain Transcriptome.” Nature 489 (7416): 391–399.
  100. Hebb, Donald Olding. 1949. The Organization of Behavior: A Neuropsychological Theory. Wiley.
  101. Heckemann, Rolf A., Joseph V. Hajnal, Paul Aljabar, Daniel Rueckert, and Alexander Hammers. 2006. “Automatic Anatomical Brain MRI Segmentation Combining Label Propagation and Decision Fusion.” NeuroImage 33 (1): 115–126.
  102. Helmstaedter, Moritz, Kevin L. Briggman, Srinivas C. Turaga, Viren Jain, H. Sebastian Seung, and Winfried Denk. 2013. “Connectomic Reconstruction of the Inner Plexiform Layer in the Mouse Retina.” Nature 500 (7461): 168–174.
  103. Herraez, Angel. 2006. “Biomolecules in the Computer: Jmol to the Rescue.” Biochemistry and Molecular Biology Education 34 (4): 255–261.
  104. Higham, Tom, Katerina Douka, Rachel Wood, Christopher Bronk Ramsey, Fiona Brock, Laura Basell, Marta Camps, Alvaro Arrizabalaga, Javier Baena, and Cecillio Barroso-Ruíz. 2014. “The Timing and Spatiotemporal Patterning of Neanderthal Disappearance.” Nature 512 (7514): 306–309.
  105. Hilbert, David. 1902. “Mathematical Problems.” Bulletin of the American Mathematical Society 8 (10): 437–479.
  106. Hirsch, Helmut V. B., and D. N. Spinelli. 1970. “Visual Experience Modifies Distribution of Horizontally and Vertically Oriented Receptive Fields in Cats.” Science 168 (3933): 869–871.
  107. Hobbes, Thomas. 1651. Leviathan: Or, The Matter, Form, and Power of a Commonwealth Ecclesiastical and Civil. Routledge.
  108. Hodgkin, Alan L, and Andrew F. Huxley. 1952. “A Quantitative Description of Membrane Current and Its Application to Conduction and Excitation in Nerve.” Journal of Physiology 117 (4): 500–544.
  109. Hofstadter, Douglas R., and Daniel C. Dennett. 2006. The Mind’s I: Fantasies and Reflections on Self and Soul. Basic Books.
  110. Hornik, Kurt, Maxwell Stinchcombe, and Halbert White. 1989. “Multilayer Feedforward Networks Are Universal Approximators.” Neural Networks 2 (5): 359–366.
  111. Hounsfield, Godfrey N. 1973. “Computerized Transverse Axial Scanning (Tomography): Part 1. Description of System.” British Journal of Radiology 46 (552): 1016–1022.
  112. Hsieh, Jiang. 2009. Computed Tomography: Principles, Design, Artifacts, and Recent Advances. Wiley.
  113. Hubel, David H. 1988. Eye, Brain, and Vision. Scientific American Library.
  114. Hubel, David H., and Torsten N. Wiesel. 1962. “Receptive Fields, Binocular Interaction and Functional Architecture in the Cat’s Visual Cortex.” Journal of Physiology 160 (1): 106–154.
  115. Hubel, David H., and Torsten N. Wiesel. 1968. “Receptive Fields and Functional Architecture of Monkey Striate Cortex.” Journal of Physiology 195 (1): 215–243.
  116. Hume, David. 1748. An Enquiry Concerning Human Understanding. Millar.
  117. Hunt, Bruce J. 1991. The Maxwellians. Cornell University Press.
  118. Jaynes, Julian. 1976. The Origin of Consciousness in the Breakdown of the Bicameral Mind. Houghton Mifflin.
  119. Kasthuri, Narayanan, Kenneth Jeffrey Hayworth, Daniel Raimund Berger, Richard Lee Schalek, José Angel Conchello, Seymour Knowles-Barley, Dongil Lee, et al. 2015. “Saturated Reconstruction of a Volume of Neocortex.” Cell 162 (3): 648–661.
  120. Kelly, Kevin. 2010. What Technology Wants. Penguin.
  121. Kelso, J. A. Scott. 1997. Dynamic Patterns: The Self-Organization of Brain and Behavior. MIT Press.
  122. Knight, Tom. 2003. Idempotent Vector Design for Standard Assembly of Biobricks. MIT Artificial Intelligence Laboratory.
  123. Knoll, Andrew H., Emmanuelle J. Javaux, D. Hewitt, and P. Cohen. 2006. “Eukaryotic Organisms in Proterozoic Oceans.” Philosophical Transactions of the Royal Society B: Biological Sciences 361 (1470): 102310–38.
  124. Kononenko, Igor. 1993. Inductive and Bayesian Learning in Medical Diagnosis. Applied Artificial Intelligence 7 (4): 317–337.
  125. Kunkel, S., M. Schmidt, J. Eppler, H. Plesser, G. Masumoto, J. Igarashi, S. Ishii, et al. 2014. Spiking Network Simulation Code for Petascale Computers. Frontiers in Neuroinformatics 8 (10): 1–23.
  126. Kurzweil, Ray. 1990. The Age of Intelligent Machines. MIT Press.
  127. Kurzweil, Ray. 2000. The Age of Spiritual Machines: When Computers Exceed Human Intelligence. Penguin.
  128. Kurzweil, Ray. 2005. The Singularity Is Near: When Humans Transcend Biology. Penguin.
  129. Kurzweil, Ray, and Terry Grossman. 2004. Fantastic Voyage: Live Long Enough to Live Forever. Rodale.
  130. Laird, John E., Allen Newell, and Paul S. Rosenbloom. 1987. “SOAR: An Architecture for General Intelligence.” Artificial Intelligence 33 (1): 1–64.
  131. Lander, Eric S., Lauren M. Linton, Bruce Birren, Chad Nusbaum, Michael C. Zody, Jennifer Baldwin, Keri Devon, et al. 2001. “Initial Sequencing and Analysis of the Human Genome.” Nature 409 (6822): 860–921.
  132. Laureyn, W., C. Liu, C. K. O. Sullivan, V. C. Ozalp, O. Nilsson, C. Fermér, K. S. Drese, et al. 2007. “Lab-on-Chip for the Isolation and Characterization of Circulating Tumor Cells.” In Proceedings of the 29th Annual Conference of the IEEE on Engineering in Medicine and Biology Society. IEEE.
  133. Lauterbur, Paul C. 1973. “Image Formation by Induced Local Interactions: Examples Employing Nuclear Magnetic Resonance.” Nature 242 (5394): 190–191.
  134. Le Bihan, Denis, and E Breton. 1985. “Imagerie de Diffusion in-Vivo Par Résonance Magnétique Nucléaire.” Comptes-Rendus de l’Académie des Sciences 93 (5): 27–34.
  135. Leitão, A. C., A. P. Francisco, R. Abreu, S. Nunes, J. Rodrigues, P. Figueiredo, L. L. Wald, M. Bianciardi, and L. M. Silveira. 2015. “Techniques for Brain Functional Connectivity Analysis from High Resolution Imaging.” In Proceedings of the 6th Workshop on Complex Networks. Springer.
  136. Libet, Benjamin, Curtis A. Gleason, Elwood W. Wright, and Dennis K. Pearl. 1983. Time of Conscious Intention to Act in Relation to Onset of Cerebral Activity (Readiness-Potential): The Unconscious Initiation of a Freely Voluntary Act. Brain 106 (3): 623–642.
  137. Lilienfeld, Julius. 1930. Method and Apparatus for Controlling Electric Currents. US Patent 1745175.
  138. Lømo, T. 1966. “Frequency Potentiation of Excitatory Synaptic Activity in Dentate Area of Hippocampal Formation.” Acta Physiologica Scandinavica 68 (suppl. 277): 128.
  139. Lucas, John R. 1961. Minds, Machines and Gödel. Philosophy (London, England) 36 (137): 112–127.
  140. Magee, John F. 1964. “How to Use Decision Trees in Capital Investment.” Harvard Business Review 42 (5): 79–96.
  141. Marasco, Addolorata, Alessandro Limongiello, and Michele Migliore. 2013. “Using Strahler’s Analysis to Reduce up to 200-Fold the Run Time of Realistic Neuron Models.” Scientific Reports 3 (2934): 1–7.
  142. Marchant, Jo. 2008. Decoding the Heavens: A 2,000-Year-Old-Computer—and the Century-Long Search to Discover Its Secrets. Heinemann.
  143. Maxwell, James Clerk. 1865. A Dynamical Theory of the Electromagnetic Field. Philosophical Transactions of the Royal Society of London 155:459–512.
  144. Maxwell, James Clerk. 1873. A Treatise on Electricity and Magnetism. Clarendon.
  145. Mazziotta, J., A. Toga, A. Evans, P. Fox, J. Lancaster, K. Zilles, R. Woods, et al. 2001. A Probabilistic Atlas and Reference System for the Human Brain: International Consortium for Brain Mapping (ICBM). Philosophical Transactions of the Royal Society of London 356 (1412): 1293–1322.
  146. McCulloch, Warren S., and Walter Pitts. 1943. “A Logical Calculus of the Ideas Immanent in Nervous Activity.” Bulletin of Mathematical Biophysics 5 (4): 115–133.
  147. McVean, G. A., and 1000 Genomes Project Consortium. 2012. “An Integrated Map of Genetic Variation from 1,092 Human Genomes.” Nature 491 (7422): 56–65.
  148. Menabrea, Luigi Federico, and Ada Lovelace. 1843. “Sketch of the Analytical Engine Invented by Charles Babbage.” Scientific Memoirs 3: 666–731.
  149. Mendel, Gregor. 1866. “Versuche über Pflanzenhybriden.” Verhandlungen des Naturforschenden Vereines in Brunn 4: 3–47.
  150. Merkle, Ralph C. 1992. “The Technical Feasibility of Cryonics.” Medical Hypotheses 39 (1): 6–16.
  151. Metzker, Michael L. 2010. “Sequencing Technologies—the next Generation.” Nature Reviews Genetics 11 (1): 31–46.
  152. Michalski, Ryszard S., Jaime G. Carbonell, and Tom M. Mitchell. 2013. Machine Learning: An Artificial Intelligence Approach. Springer.
  153. Miedaner, Terrel. 1978. The Soul of Anna Klane: A Novel. Ballantine Books.
  154. Minsky, Marvin. 1961. “Microscopy Apparatus.” US Patent 3013467.
  155. Minsky, Marvin, and Seymour Papert. 1969. Perceptrons. MIT Press.
  156. Modis, Theodore. 2006. “The Singularity Myth.” Technological Forecasting and Social Change 73 (2): 104–112.
  157. Mondragon, A., S. Subbiah, S. C. Almo, M. Drottar, and S. C. Harrison. 1989. “Structure of the Amino-Terminal Domain of Phage 434 Represser at 2.0 Å Resolution.” Journal of Molecular Biology 205 (1): 189–200.
  158. Moore, Gordon E. 1965. “The Density of Transistors Assembled on a Micro Chip Doubles Every 12 Months.” Electronics 38 (8): 114–117.
  159. Myers, Eugene W., Granger G. Sutton, Art L. Delcher, Ian M. Dew, Dan P. Fasulo, Michael J. Flanigan, Saul A Kravitz, et al. 2000. “A Whole-Genome Assembly of Drosophila.” Science 287 (5461): 2196–2204.
  160. Nagel, Georg, Martin Brauner, Jana F. Liewald, Nona Adeishvili, Ernst Bamberg, and Alexander Gottschalk. 2005. “Light Activation of Channelrhodopsin-2 in Excitable Cells of Caenorhabditis elegans Triggers Rapid Behavioral Responses.” Current Biology 15 (24): 2279–2284.
  161. Nagel, Georg, Tanjef Szellas, Wolfram Huhn, Suneel Kateriya, Nona Adeishvili, Peter Berthold, Doris Ollig, et al. 2003. Channelrhodopsin-2, a Directly Light-Gated Cation-Selective Membrane Channel. Proceedings of the National Academy of Sciences of the United States of America 100 (24): 13940–13945.
  162. Nagel, Thomas. 1974. “What Is It Like to Be a Bat?” Philosophical Review 83 (4): 435–450.
  163. NCBI (National Center for Biotechnology Information). 2007. The Cells of Eukaryotes and Prokaryotes. https://commons.wikimedia.org/wiki/File:Celltypes.svg.
  164. Newell, Allen, and Herbert A. Simon. 1956. “The Logic Theory Machine—A Complex Information Processing System.” IRE Transactions on Information Theory 2 (3): 61–79.
  165. Nirenberg, Marshall, and Philip Leder. 1964. “RNA Codewords and Protein Synthesis: The Effect of Trinucleotides upon the Binding of sRNA to Ribosomes.” Science 145 (3639): 1399–1407.
  166. Nørretranders, Tor. 1991. The User Illusion. Penguin.
  167. Ogawa, Seiji, Tso-Ming Lee, Alan R. Kay, and David W. Tank. 1990. Brain Magnetic Resonance Imaging with Contrast Dependent on Blood Oxygenation. Proceedings of the National Academy of Sciences of the United States of America 87 (24): 9868–9872.
  168. Okada, Y. 1983. “Neurogenesis of Evoked Magnetic Fields.” In Biomagnetism: An Interdisciplinary Approach, ed. S. J. Williamson, G.-L. Romani, L. Kaufman, and I. Modena. Springer.
  169. Olazaran, Mikel. 1996. “A Sociological Study of the Official History of the Perceptrons Controversy.” Social Studies of Science 26 (3): 611–659.
  170. Oliveira, Arlindo L. 1994. Inductive Learning by Selection of Minimal Complexity Representations. PhD dissertation, University of California, Berkeley.
  171. Papert, Seymour. 1966. The Summer Vision Project. http://dspace.mit.edu/handle/1721.1/6125.
  172. Parfit, Derek. 1984. Reasons and Persons. Oxford University Press.
  173. Pauling, Linus. Robert B. Corey, and Herman R. Branson. 1951. “The Structure of Proteins: Two Hydrogen-Bonded Helical Configurations of the Polypeptide Chain.” Proceedings of the National Academy of Sciences 37 (4): 205–211.
  174. Penrose, Roger. 1989. The Emperor’s New Mind: Concerning Computers, Minds, and the Laws of Physics. Oxford University Press.
  175. Pevzner, Pavel A., Haixu Tang, and Michael S. Waterman. 2001. “An Eulerian Path Approach to DNA Fragment Assembly.” Proceedings of the National Academy of Sciences 98 (17): 9748–9753.
  176. Phillips, A. William. 1950. Mechanical Models in Economic Dynamics. Economics 17 (67): 283–305.
  177. Pires, Ana M., and João A. Branco. 2010. “A Statistical Model to Explain the Mendel–Fisher Controversy.” Statistical Science 25 (4): 545–565.
  178. Post, Emil L. 1946. “A Variant of a Recursively Unsolvable Problem.” Bulletin of the American Mathematical Society 52 (4): 264–268.
  179. Prim, Robert Clay. 1957. “Shortest Connection Networks and Some Generalizations.” Bell System Technical Journal 36 (6): 1389–1401.
  180. Quinlan, J R. 1986. “Induction of Decision Trees.” Machine Learning 1 (1): 81–106.
  181. Ragan, Timothy, Lolahon R. Kadiri, Kannan Umadevi Venkataraju, Karsten Bahlmann, Jason Sutin, Julian Taranda, Ignacio Arganda-Carreras, et al. 2012. Serial Two-Photon Tomography for Automated Ex Vivo Mouse Brain Imaging. Nature Methods 9 (3): 255–258.
  182. Raichle, Marcus E. 2009. A Paradigm Shift in Functional Brain Imaging. Journal of Neuroscience 29 (41): 12729–12734.
  183. Raichle, Marcus E., and Mark A. Mintun. 2006. “Brain Work and Brain Imaging.” Annual Review of Neuroscience 29: 449–476.
  184. Ramón y Cajal, Santiago. 1904. Textura Del Sistema Nervioso Del Hombre Y de Los Vertebrados. Nicolas Moya.
  185. Ramón y Cajal, Santiago. 1901. Recuerdos de mi vida. Fortanet.
  186. Ranson, Stephen Walter. 1920. The Anatomy of the Nervous System. Saunders.
  187. Reimann, Michael W., Costas A. Anastassiou, Rodrigo Perin, Sean L. Hill, Henry Markram, and Christof Koch. 2013. “A Biophysically Detailed Model of Neocortical Local Field Potentials Predicts the Critical Role of Active Membrane Currents.” Neuron 79 (2): 375–390.
  188. Rich, Elaine. 1983. Artificial Intelligence. McGraw-Hill.
  189. Riedlinger, Reid, Ron Arnold, Larry Biro, Bill Bowhill, Jason Crop, Kevin Duda, Eric S. Fetzer, et al. 2012. “A 32 Nm, 3.1 Billion Transistor, 12 Wide Issue Itanium® Processor for Mission-Critical Servers.” IEEE Journal of Solid-State Circuits 47 (1): 177–193.
  190. Rivest, R. L., A. Shamir, and L. Adleman. 1978. “A Method for Obtaining Digital Signatures and Public-Key Cryptosystems.” Communications of the ACM 21 (2): 120–126.
  191. Rosenblatt, Frank. 1958. “The Perceptron: A Probabilistic Model for Information Storage and Organization in the Brain.” Psychological Review 65 (6): 386–408.
  192. Rougier, Nicolas. 2007. Biological Neuron Schema. https://commons.wikimedia.org/wiki/File:Neuron-figure-fr.svg.
  193. Roy, Ambrish, Alper Kucukural, and Yang Zhang. 2010. “I-TASSER: A Unified Platform for Automated Protein Structure and Function Prediction.” Nature Protocols 5 (4): 725–738.
  194. Rumelhart, David E., Geoffrey E. Hinton, and Ronald J. Williams. 1986. Learning Representations by Back-Propagating Errors. Nature 5 (6088): 533–536.
  195. Rumelhart, David E., James L. McClelland, and the PDP Research Group. 1986. Parallel Distributed Processing, volumes 1 and 2. MIT Press.
  196. Russell, Stuart, and Peter Norvig. 2009. Artificial Intelligence: A Modern Approach. Prentice-Hall.
  197. Samuel, Arthur L. 1959. “Some Studies in Machine Learning Using the Game of Checkers.” IBM Journal of Research and Development 3 (3): 210–229.
  198. Sandberg, Anders, and Nick Bostrom. 2008. Whole Brain Emulation: A Roadmap. Technical Report 2008-3, Future of Humanity Institute.
  199. Sanger, Frederick, Steven Nicklen, and Alan R. Coulson. 1977. “DNA Sequencing with Chain-Terminating Inhibitors.” Proceedings of the National Academy of Sciences 74 (12): 5463–5467.
  200. Scharf, Caleb. 2014. The Copernicus Complex: Our Cosmic Significance in a Universe of Planets and Probabilities. Scientific American / Farrar, Straus and Giroux.
  201. Schleiden, Matthias Jacob. 1838. “Beiträge zur Phytogenesis.” Archiv fur Anatomie, Physiologie und Wissenschaftliche Medicin, 137–176.
  202. Schreyer, Paul. 2000. The Contribution of Information and Communication Technology to Output Growth. Science, Technology and Industry Working Paper 2000/02, OECD.
  203. Schrödinger, Erwin. 1935. “Die gegenwärtige Situation in der Quantenmechanik.” Naturwissenschaften 23 (49): 823–828.
  204. Schultz, Thomas. 2006. “DTI-Sagittal-Fibers.” https://commons.wikimedia.org/wiki/File:DTI-sagittal-fibers.jpg.
  205. Schuster, Stephan C. 2007. “Next-Generation Sequencing Transforms Today’s Biology.” Nature Methods 5 (1): 16–18.
  206. Schwann, Théodore. 1839. Mikroskopische Untersuchungen über die Uebereinstimmung in der Struktur und dem Wachsthum der Thiers und Pflanzen. Reimer.
  207. Searle, John. 1980. Minds, Brains, and Programs. Behavioral and Brain Sciences 3 (03): 417–424.
  208. Searle, John. 2011. “Watson Doesn’t Know It Won on ‘Jeopardy!’” Wall Street Journal, February 23.
  209. Seung, Sebastian. 2012. Connectome: How the Brain’s Wiring Makes Us Who We Are. Houghton Mifflin Harcourt.
  210. Sheffer, Henry Maurice. 1913. “A Set of Five Independent Postulates for Boolean Algebras, with Application to Logical Constants.” Transactions of the American Mathematical Society 14 (4): 481–488.
  211. Shor, Peter W. 1997. “Polynomial-Time Algorithms for Prime Factorization and Discrete Logarithms on a Quantum Computer.” SIAM Journal on Computing 26 (5): 1484–1509.
  212. Silver, David, Aja Huang, Chris J. Maddison, Arthur Guez, Laurent Sifre, George van den Driessche, Julian Schrittwieser, et al. 2016. “Mastering the Game of Go with Deep Neural Networks and Tree Search.” Nature 529 (7587): 484–489.
  213. Sipser, Michael. 1997. Introduction to the Theory of Computation. PWS.
  214. Smullyan, Raymond. 1980. This Book Needs No Title: A Budget of Living Paradoxes. Simon and Schuster.
  215. Söding, Johannes. 2005. Protein Homology Detection by HMM–HMM Comparison. Bioinformatics 21 (7): 951–960.
  216. Solomonoff, R. J. 1964. “A Formal Theory of Inductive Inference,” parts I and II. Information and Control 7 (1): 1–22, 7 (2): 224–254.
  217. Sporns, Olaf. 2011. Networks of the Brain. MIT Press.
  218. Stephenson, Neal. 1995. The Diamond Age: Or, A Young Lady’s Illustrated Primer. Bantam Books.
  219. Stiles, Joan, and Terry L. Jernigan. 2010. “The Basics of Brain Development.” Neuropsychology Review 20 (4): 327–348.
  220. Stross, Charles. 2006. Glasshouse. Penguin.
  221. Stuart, Greg, Nelson Spruston, Bert Sakmann, and Michael Häusser. 1997. “Action Potential Initiation and Backpropagation in Neurons of the Mammalian CNS.” Trends in Neurosciences 20 (3): 125–131.
  222. Sutton, Richard S. 1988. “Learning to Predict by the Methods of Temporal Differences.” Machine Learning 3 (1): 9–44.
  223. Sutton, Richard S., and Andrew G. Barto. 1998. Reinforcement Learning: An Introduction. MIT Press.
  224. Turing, Alan. 1937. On Computable Numbers, with an Application to the Entscheidungsproblem. Proceedings of the London Mathematical Society 2 (42): 230–265.
  225. Turing, Alan. 1950. Computing Machinery and Intelligence. Mind 59 (236): 433–460.
  226. Ulam, Stanislaw. 1958. “Tribute to John von Neumann.” Bulletin of the American Mathematical Society 64 (3): 1–49.
  227. Van Inwagen, Peter. 1983. An Essay on Free Will. Oxford University Press.
  228. Vapnik, Vladimir Naumovich. 1998. Statistical Learning Theory. Wiley.
  229. Venter, J. Craig, Mark D. Adams, Eugene W. Myers, Peter W. Li, Richard J. Mural, Granger G. Sutton, Hamilton O. Smith, et al. 2001. “The Sequence of the Human Genome.” Science 291 (5507): 1304–1351.
  230. Villringer, Arno, J. Planck, C. Hock, L. Schleinkofer, and U. Dirnagl. 1993. “Near Infrared Spectroscopy (NIRS): A New Tool to Study Hemodynamic Changes during Activation of Brain Function in Human Adults.” Neuroscience Letters 154 (1): 101–104.
  231. Vinge, Vernor. 1993. “The Coming Technological Singularity: How to Survive in the Post-Human Era.” In Vision-21: Interdisciplinary Science and Engineering in the Era of Cyberspace. NASA.
  232. von Neumann, John. 1945. First Draft of a Report on the EDVAC. Moore School Library, University of Pennsylvania.
  233. Ward, Peter, and Donald Brownlee. 2000. Rare Earth: Why Complex Life Is Uncommon in the Universe. Copernicus Books.
  234. Watson, James D., and Francis H. C. Crick. 1953. “Molecular Structure of Nucleic Acids.” Nature 171 (4356): 737–738.
  235. Werbos, Paul J. 1988. “Generalization of Backpropagation with Application to a Recurrent Gas Market Model.” Neural Networks 1 (4): 339–356.
  236. Wetterstrand, K. A. 2015. DNA Sequencing Costs: Data from the NHGRI Genome Sequencing Program (GSP). National Human Genome Research Institute. http://www.genome.gov/sequencingcosts/.
  237. Wheeler, Richard. 2011. The Structure of DNA Showing with Detail Showing the Structure of the Four Bases, Adenine, Cytosine, Guanine and Thymine, and the Location of the Major and Minor Groove. https://commons.wikimedia.org/wiki/File:DNA_Structure%2BKey%2BLabelled.pn_NoBB.png.
  238. White, J., E. Southgate, J. Thomson, and S. Brenner. 1986. The Structure of the Nervous System of the Nematode Caenorhabditis elegans. Philosophical Transactions of the Royal Society of London 314 (1165): 1–340.
  239. Witten, Edward. 1995. “String Theory Dynamics in Various Dimensions.” Nuclear Physics B 443 (1): 85–126.
  240. Woese, Carl. 1990. Phylogenetic Tree of Life. Wikimedia Commons. https://commons.wikimedia.org/wiki/File:PhylogeneticTree.png.
  241. Wolpert, David H. 1996. “The Lack of A Priori Distinctions between Learning Algorithms.” Neural Computation 8 (7): 1341–1390.
  242. Wrangham, Richard. 2009. Catching Fire: How Cooking Made Us Human. Basic Books.
  243. Zemelman, Boris V., Georgia A. Lee, Minna Ng, and Gero Miesenböck. 2002. “Selective Photostimulation of Genetically ChARGed Neurons.” Neuron 33 (1): 15–22.