Living Extremely Flat: The Life of an Automaton; John von Neumann’s Conception of Error of (in)Animate Systems

  • Giora Hon
Part of the Boston Studies In The Philosophy Of Science book series (BSPS, volume 267)


Cellular Automaton Living System Computing Machine Turing Machine Transition Rule 
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  1. Abraham, T. H. (2000). “Microscopic cybernetics: mathematical logic, automata theory, and the formalization of biological phenomena, 1936–1970.” Ph.D. thesis, Institute for the History and Philosophy of Science and Technology, Toronto, Canada: University of Toronto.Google Scholar
  2. Bródy, F. and T. Vámos eds. (1995). The Neumann Compendium. Singapore: World Scientific.Google Scholar
  3. Burks, A. W., H. H. Goldstine and John von Neumann (1946/1963). “Preliminary Discussion of the Logical Design of an Electronic Computing Instrument.” Report prepared for U.S. Army Ordnance Department, 1946. Reprinted in von Neumann 1963, 34–79.Google Scholar
  4. Canguilhem, G. (1978/1991). The Normal and the Pathological. New York: Zones.Google Scholar
  5. Culick, K. II, L. P. Hurd and S. Yu (1990). “Computation Theoretic Aspects of Cellular Automata.” In Gutowitz 1990, 357–378.Google Scholar
  6. Elsasser, W. (1966). Atom and Organism: A New Approach to Theoretical Biology. New Jersey: Princeton University Press.Google Scholar
  7. Goldstine, H. H. and J. von Neumann (1946/1963). “On the Principles of Large Scale Computing Machines.” Unpublished manuscript, printed in von Neumann 1963, 1–32. See also Bródy and Vámos 1995, 494–525.Google Scholar
  8. Gutowitz, H. (1990). Cellular Automata: Theory and Experiment. North Holland. Physica D, 45: 1–3.Google Scholar
  9. Hon, G. (1998). “Exploiting Error.” Studies in History and Philosophy of Science 29: 465–479.CrossRefGoogle Scholar
  10. Hon, G. (2000). “The Limits of Experimental Method: Experimenting on an Entangled System—The Case of Biophysics.” In M. Carrier, G. J. Massey and L. Reutsche eds., Science at Century’s End: Philosophical Questions on the Progress and Limits of Science. Pittsburgh: University of Pittsburgh Press, pp. 284–307.Google Scholar
  11. Hopfield, J. J. (1974). “Kinetic Proofreading: A new Mechanism for Reducing Errors in Biosynthetic Processes Requiring High Specifity.” Proceedings of the National Academy of Science 71: 4135–4139.CrossRefGoogle Scholar
  12. Hopfield, J. J. (1980). “The energy relay: A proofreading scheme based on dynamic cooperativity and lacking all characteristic symptoms of kinetic proofreading in DNA replication and protein sythesis.” Proceedings of the National Academy of Science 77: 5248–5252.CrossRefGoogle Scholar
  13. Hopfield, J. J. (1982). “Neural networks and physical systems with emergent collective computational abilities.” Proceedings of the National Academy of Science 79: 2554–2558.CrossRefGoogle Scholar
  14. Hume, D. (1739–1740/1978). A Treatise of Human Nature. L. A. Selby-Bigge ed., 2nd edition. P. H. Nidditch ed., Oxford: Clarendon Press.Google Scholar
  15. Ilachinski, A. (2001). Cellular Automata: A Discrete Universe. Singapore: World Scientific.Google Scholar
  16. Kendall, P., Jr. and M. J. B. Duff (1984). Modern Cellular Automata: Theory and Applications. New York and London: Plenum Press.Google Scholar
  17. McIntosh, H. V. (1990). “Wolfram’s Class IV Automata and a Good Life.” In Gutowitz 1990, 105–121.Google Scholar
  18. Sutner, K. (1990). “Classifying Circular Cellular Automata.” In Gutowitz 1990, 386–395.Google Scholar
  19. Thatcher, J. W. (1970). “Universality in the von Neumann cellular model.” In A. W. Burks ed., Essays on Cellular Automata. Urbana: University of Illinois Press.Google Scholar
  20. Toffoli, T. and N. H. Margolus (1990). “Invertible Cellular Automata: A Review.” In Gutowitz 1990, 229–253.Google Scholar
  21. Victor, J. D. (1990). “What can Automaton Theory Tell us about the Brain.” In Gutowitz 1990, 205–207.Google Scholar
  22. Von Neumann, J. (1951/1963). “The General and Logical Theory of Automata.” In Cerebral Mechanisms in Behaviour. The Hixon Symposium. New York: Wiley, 1951. Reprinted in von Neumann 1963, 288–328.Google Scholar
  23. Von Neumann, J. (1956/1963). “Probabilistic Logics and the Synthesis of Reliable Organisms From Unreliable Components.” In C. E. Shannon and J. McCarthy eds., Automata Studies. Annals of Mathematics Studies, No. 34. Princeton, N. J.: Princeton University Press, pp. 43–98. Reprinted in von Neumann 1963, 329–378.Google Scholar
  24. Von Neumann, J. (1963). s Collected Works, A. H. Taub ed., vol. 5: Design of Computers, Theory of Automata and Numerical Analysis. New York: Macmillan.Google Scholar
  25. Wolfram, S. (1986). Theory and Applications of Cellular Automata. Singapore: World Scientific.Google Scholar

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© Springer Science+Business Media B.V. 2009

Authors and Affiliations

  • Giora Hon
    • 1
  1. 1.University of HaifaDepartment of PhilosophyIsrael

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