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Multi-functional imaging inspired by insect stereopsis

Engineering and Technology

Multi-functional imaging inspired by insect stereopsis

K. Kim, K. Jang, et al.

Explore the groundbreaking multi-functional imaging system inspired by insect stereopsis, developed by Kisoo Kim, Kyung-Won Jang, Sang-In Bae, and Ki-Hun Jeong. This innovative system captures distinct images across various distances, providing invaluable insights into both insect vision and compact imaging technology.... show more
Abstract
Insects exhibit intriguing vision capability using fragmented information from arrays of lenses. Visual disparity between lenses or eyelets (also known as stereopsis) helps insects to locate their prey or find landing spots. Here we report a multi-functional imaging system inspired by insect stereopsis using a single ultrathin microlens array camera. Individual channels through tens of microlenses capture distinct images with visual disparities. We demonstrate that reconstruction of these images can provide diverse capabilities, such as simultaneous near-distance microscopic imaging, high speed imaging at far distances and 3D depth imaging at intermediate distances. Our findings offer clues to further understand the vision capability of insects as well as insights for advanced compact functional imaging tools.
Publisher
Communications Engineering
Published On
Nov 30, 2022
Authors
Kisoo Kim, Kyung-Won Jang, Sang-In Bae, Ki-Hun Jeong
DOI
https://doi.org/10.1038/s44172-022-00039-y
Tags
imaging system
insect stereopsis
microlens array
3D depth imaging
microscopic imaging
high-speed imaging
visual disparities

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