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How synapses can enhance sensibility of a neural network

Author

Listed:
  • Protachevicz, P.R.
  • Borges, F.S.
  • Iarosz, K.C.
  • Caldas, I.L.
  • Baptista, M.S.
  • Viana, R.L.
  • Lameu, E.L.
  • Macau, E.E.N.
  • Batista, A.M.

Abstract

In this work, we study the dynamic range in a neural network modelled by cellular automaton. We consider deterministic and non-deterministic rules to simulate electrical and chemical synapses. Chemical synapses have an intrinsic time-delay and are susceptible to parameter variations guided by learning Hebbian rules of behaviour. The learning rules are related to neuroplasticity that describes change to the neural connections in the brain. Our results show that chemical synapses can abruptly enhance sensibility of the neural network, a manifestation that can become even more predominant if learning rules of evolution are applied to the chemical synapses.

Suggested Citation

  • Protachevicz, P.R. & Borges, F.S. & Iarosz, K.C. & Caldas, I.L. & Baptista, M.S. & Viana, R.L. & Lameu, E.L. & Macau, E.E.N. & Batista, A.M., 2018. "How synapses can enhance sensibility of a neural network," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 492(C), pages 1045-1052.
  • Handle: RePEc:eee:phsmap:v:492:y:2018:i:c:p:1045-1052
    DOI: 10.1016/j.physa.2017.11.034
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