Bio-plausible memristive neural components towards hardware implementation of brain-like intelligence

A memristor can comprehensively emulate the neural components rather than imitating a single characteristic superficially due to its analog and hysteretic resistive switching. Bio-plausible mimicry aims to emulate biological working mechanisms to implement the complicated functional character-istics of a neural network for artificial intelligence (AI). Bio-plausible neuromorphic device using memristor is a direct and efficient approach for the emulation of biological systems, contributing to the realization of brain-like intelligence beyond limited AI applications. In this article, we review recent progress in bio-plausible mimicry of neural components using memristive devices. Memristor-based artificial neurons, synapses, and nerve systems are discussed focusing on the analogy in the operation mechanisms. In addition, we explore the neurological and interdisciplinary approaches in neuronal mapping and brain-computer interfaces to place an emphasis on the relationship between memristive neuromorphic system and biological neural network.

Automated summary

This article reviews recent progress in bio-plausible mimicry of neural components using memristive devices, focusing on artificial neurons, synapses, and nerve systems. It also explores the relationship between memristive neuromorphic systems and biological neural networks, highlighting the interdisciplinary approaches in neuronal mapping and brain-computer interfaces.