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Universal Neural Field Computation

In: Neural Fields

Author

Listed:
  • Peter beim Graben

    (Humboldt-Universität zu Berlin, Department of German Studies and Linguistics
    Humboldt-Universität zu Berlin, Bernstein Center for Computational Neuroscience Berlin)

  • Roland Potthast

    (University of Reading, Department of Mathematics and Statistics
    Deutscher Wetterdienst)

Abstract

Turing machines and Gödel numbers are important pillars of the theory of computation. Thus, any computational architecture needs to show how it could relate to Turing machines and how stable implementations of Turing computation are possible. In this chapter, we implement universal Turing computation in a neural field environment. To this end, we employ the canonical symbologram representation of a Turing machine obtained from a Gödel encoding of its symbolic repertoire and generalized shifts. The resulting nonlinear dynamical automaton (NDA) is a piecewise affine-linear map acting on the unit square that is partitioned into rectangular domains. Instead of looking at point dynamics in phase space, we then consider functional dynamics of probability distribution functions (p.d.f.s) over phase space. This is generally described by a Frobenius-Perron integral transformation that can be regarded as a neural field equation over the unit square as feature space Feature space of a Dynamic Field Theory Dynamic field theory (DFT) (DFT). Solving the Frobenius-Perron equation Frobenius-Perron equation yields that uniform p.d.f.s with rectangular support are mapped onto uniform p.d.f.s with rectangular support, again. We call the resulting representation dynamic field automaton.

Suggested Citation

  • Peter beim Graben & Roland Potthast, 2014. "Universal Neural Field Computation," Springer Books, in: Stephen Coombes & Peter beim Graben & Roland Potthast & James Wright (ed.), Neural Fields, edition 127, chapter 0, pages 299-318, Springer.
    • Handle: RePEc:spr:sprchp:978-3-642-54593-1_11
    DOI: 10.1007/978-3-642-54593-1_11
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