Realization of an Artificial Visual Nervous System using an Integrated Optoelectronic Device Array

Authors
Lee, Tae-JuYun, Kwang-RoKim, Su-KyungKim, Jong-HoJin, JunyoungSim, Kee-BaekLee, Da-HoonHwang, Gyu WeonSeong, Tae-Yeon
Issue Date
2021-12
Publisher
WILEY-V C H VERLAG GMBH
Citation
ADVANCED MATERIALS, v.33, no.51
Abstract
Human behavior (e.g., the response to any incoming information) has very complex forms and is based on the response to consecutive external stimuli entering varied sensory receptors. Sensory adaptation is an elementary form of the sensory nervous system known to filter out irrelevant information for efficient information transfer from consecutive stimuli. As bioinspired neuromorphic electronic system is developed, the functionality of organs shall be emulated at a higher level than the cell. Because it is important for electronic devices to possess sensory adaptation in spiking neural networks, the authors demonstrate a dynamic, real-time, photoadaptation process to optical irradiation when repeated light stimuli are presented to the artificial photoreceptor. The filtered electrical signal generated by the light and the adapting signal produces a specific range of postsynaptic states through the neurotransistor, demonstrating changes in the response according to the environment, as normally perceived by the human brain. This successfully demonstrates plausible biological sensory adaptation. Further, the ability of this circuit design to accommodate changes in the intensity of bright or dark light by adjusting the sensitivity of the artificial photoreceptor is demonstrated. Thus, the proposed artificial photoreceptor circuits have the potential to advance neuromorphic device technology by providing sensory adaptation capabilities.
Keywords
ADAPTATION; MECHANISMS; RECEPTOR; PLASTICITY; EYE; artificial synapses; perovskite patterning; polymer electrolytes; sensory adaptation
ISSN
0935-9648
URI
https://pubs.kist.re.kr/handle/201004/116016
DOI
10.1002/adma.202105485
Appears in Collections:
KIST Article > 2021
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