Quantum Neuro-Computation principle and Its Networks

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  • MATSUURA Hiroyuki
    Dep. of Gelontechnology, National Center for Geriatrics and Gerontology
  • NAKANO Masahiro
    University of Occupational and Environmental Health
  • Koide Kazuharu
    Dep. of Gelontechnology, National Center for Geriatrics and Gerontology
  • YAMANAKA Makoto
    Dep. of Gelontechnology, National Center for Geriatrics and Gerontology
  • NEMOTO Tetsuya
    Dep. of Gelontechnology, National Center for Geriatrics and Gerontology
  • ITO Yasumi
    Dep. of Gelontechnology, National Center for Geriatrics and Gerontology

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Other Title
  • 量子ニューロ計算とその回路網
  • リョウシ ニューロ ケイサン ト ソノ カイロモウ

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We have qantization method, which is based on Feynman path integral rule. Amplitudes of particles were defined by using both propagators and Gaussian slits. According to that calculating method, we attempted to rewrite the classical AND, OR and NOT gate into quantum expressions named as q-AND, q-OR and q-NOT. Those classical switches were quantized as operators, and general Hamiltonian of switch system were given for basic gates. Logic of switch operators was different from theory of crisp numbers or fuzzy set theory. We showed that the logic of q-switches satisfies with excluded middle, however, the law of contradictoin does not hold true.

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