Bio-inspired visual systems based on curved image sensors and synaptic devices

Materials Today Electronics Pub Date : 2023-10-19 DOI:10.1016/j.mtelec.2023.100071

Zhenghao Long , Yucheng Ding , Swapnadeep Poddar , Leilei Gu , Qianpeng Zhang , Zhiyong Fan

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Abstract

Vision is our dominant sense and is also highly desired in artificial systems. In this article, we provide an overview of bio-inspired visual systems that utilize curved image sensors and/or photonic synapses. The use of curved detector geometry ensures clear image sensing abilities with fewer optical elements, which has the potential to lead to miniaturization. Additionally, photonic synapses that integrate light sensing and neuromorphic preprocessing can reduce redundant modules and signal communications. This results in decreased device size and energy consumption. In this review, we begin by summarizing the fabrication processes of curved image sensors, followed by a review of typical bionic eye systems. Next, we discuss the materials and device structures of typical photonic synapses and related imaging systems. We also review the combinations of curved image sensors and photonic synapses. Finally, we summarize the key advantages and challenges of current bio-inspired visual systems.

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基于曲面图像传感器和突触装置的仿生视觉系统

视觉是我们的主导感官，也是人工系统非常需要的。在这篇文章中，我们提供了利用弯曲图像传感器和/或光子突触的仿生视觉系统的概述。弯曲探测器几何结构的使用确保了清晰的图像传感能力，光学元件较少，这有可能导致小型化。此外，集成光传感和神经形态预处理的光子突触可以减少冗余模块和信号通信。这样可以减小设备的尺寸和能耗。在这篇综述中，我们首先总结了弯曲图像传感器的制造过程，然后回顾了典型的仿生眼系统。接下来，我们讨论了典型光子突触的材料和器件结构以及相关的成像系统。我们也回顾了弯曲图像传感器与光子突触的结合。最后，我们总结了当前仿生视觉系统的主要优势和挑战。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Materials Today Electronics

CiteScore

2.10

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0.00%

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