Brain Sciences (Jan 2022)

Evaluation of the Effect of the Dynamic Behavior and Topology Co-Learning of Neurons and Synapses on the Small-Sample Learning Ability of Spiking Neural Network

  • Xu Yang,
  • Yunlin Lei,
  • Mengxing Wang,
  • Jian Cai,
  • Miao Wang,
  • Ziyi Huan,
  • Xialv Lin

DOI
https://doi.org/10.3390/brainsci12020139
Journal volume & issue
Vol. 12, no. 2
p. 139

Abstract

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Small sample learning ability is one of the most significant characteristics of the human brain. However, its mechanism is yet to be fully unveiled. In recent years, brain-inspired artificial intelligence has become a very hot research domain. Researchers explored brain-inspired technologies or architectures to construct neural networks that could achieve human-alike intelligence. In this work, we presented our effort at evaluation of the effect of dynamic behavior and topology co-learning of neurons and synapses on the small sample learning ability of spiking neural network. Results show that the dynamic behavior and topology co-learning mechanism of neurons and synapses presented in our work could significantly reduce the number of required samples, while maintaining a reasonable performance on the MNIST data-set, resulting in a very lightweight neural network structure.

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