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Spike Encoding with Optic Sensory Neurons Enable a Pulse Coupled Neural Network for Ultraviolet Image Segmentation

Quantan Wu, Bingjie Dang, Congyan Lu, Guangwei Xu, Guanhua Yang, Jiawei Wang, Xichen Chuai, Nianduan Lu, Di Geng, Hong Wang, Ling Li

2020Nano Letters119 citationsDOI

Abstract

Drawing inspiration from biology, neuromorphic systems are of great interest in direct interaction and efficient processing of analogue signals in the real world and could be promising for the development of smart sensors. Here, we demonstrate an artificial sensory neuron consisting of an InGaZnO 4 (IGZO 4 )-based optical sensor and NbO x -based oscillation neuron in series, which can simultaneously sense the optical information even beyond the visible light region and encode them into electrical impulses. Such artificial vision sensory neurons can convey visual information in a parallel manner analogous to biological vision systems, and the output spikes can be effectively processed by a pulse coupled neural network, demonstrating the capability of image segmentation out of a complex background. This study could facilitate the construction of artificial visual systems and pave the way for the development of light-driven neurorobotics, bioinspired optoelectronics, and neuromorphic computing.

Topics & Concepts

Neuromorphic engineeringComputer scienceArtificial neural networkSensory systemSpike (software development)SegmentationArtificial visionEncoding (memory)Artificial intelligenceENCODEBiomimeticsComputer visionNeuroscienceBiologySoftware engineeringGeneBiochemistryAdvanced Memory and Neural ComputingNeural Networks and Reservoir ComputingPhotoreceptor and optogenetics research