English

Fully Memristive Spiking-Neuron Learning Framework and its Applications on Pattern Recognition and Edge Detection

Emerging Technologies 2020-05-20 v4

Abstract

Fully memristive spiking-neuron learning framework, which uses drift and diffusion memristor models as axon and dendrite respectively, becomes a hot topic recently with the development of memristor devices. Normally, some other devices like resistor or capacitor are still necessary on recent works of fully memristive learning framework. However, theoretically, one neuron needs axon and dendrite only, which makes technique process simpler and learning framework more similar to biologic brain. In this paper, a fully memristive spiking-neuron learning framework is introduced, in which a neuron structure is just built of one drift and one diffusion memristive models. To verify it merits, a feedforward neural network for pattern recognition and a cellular neural network for edge detection are designed. Experiment results show that compared to other memristive neural networks, our framework's the processing speed is much faster and the hardware resource is saved in pattern recognition due to its simple structure. Further due to the dynamic filtering function of diffusion memristor model in our learning framework, its peak signal noise ratio (PSNR) is much higher than traditional algorithms in edge detection.

Keywords

Cite

@article{arxiv.1901.05258,
  title  = {Fully Memristive Spiking-Neuron Learning Framework and its Applications on Pattern Recognition and Edge Detection},
  author = {Zhiri Tang and Yanhua Chen and Shizhuo Ye and Ruihan Hu and Hao Wang and Jin He and Qijun Huang and Sheng Chang},
  journal= {arXiv preprint arXiv:1901.05258},
  year   = {2020}
}

Comments

Accepted by Neurocomputing

R2 v1 2026-06-23T07:13:18.579Z