Squid-inspired and wirelessly controllable display for active camouflage in aquatic-environment

Doyoung Kim; Seung Won Seon; Minkyung Shin; Jihwan Kim; Bogeun Kim; Janghoon Joo; Sang Uk Park; Wooseok Kim; Hee Kyu Lee; Byeong Woon Lee; Se Gi Lee; Su Eon Lee; Ji Hun Seo; Seung Ho Han; Bong Hoon Kim; Sang Min Won

doi:10.1038/s41528-024-00292-5

Squid-inspired and wirelessly controllable display for active camouflage in aquatic-environment

Doyoung Kim, Seung Won Seon, Minkyung Shin, Jihwan Kim, Bogeun Kim, Janghoon Joo, Sang Uk Park, Wooseok Kim, Hee Kyu Lee, Byeong Woon Lee, Se Gi Lee, Su Eon Lee, Ji Hun Seo, Seung Ho Han, Bong Hoon Kim, Sang Min Won

Department of Materials Science and Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

Achieving optimal camouflage in an aquatic environment necessitates the ability to modulate transmittance in response to the surrounding obscurity and potential threats. This adaptation involves a dynamic transition from transparency to a deep-blue color, especially in low-light or dark situations. Such a strategy promotes a seamless assimilation with the surroundings, enabling the absorption of searchlights and, subsequently, diminishing the risk of detection by predators. Therefore, the presence of sophisticated mechanisms that facilitates stable and efficient control of transmittance is imperative, enabling smooth transition between transparent and deep-blue hues within the aquatic environment. This study presents nature-inspired programmable camouflage system that integrates an electrochromic display as the primary transmittance change element and a wireless base module for power and data transmission. Such technology offers a robust and flexible construction, ensuring stable operation as demonstrated through mechanical-fatigue experiments and quantitative simulation. A custom circuit and a power-control software package enable active control of multiple electrochromic displays while submerged in water.

Original language	English
Article number	7
Journal	npj Flexible Electronics
Volume	8
Issue number	1
DOIs	https://doi.org/10.1038/s41528-024-00292-5
Publication status	Published - 2024 Mar 5

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Publisher Copyright:
© The Author(s) 2024.

ASJC Scopus subject areas

General Materials Science
Electrical and Electronic Engineering

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title = "Squid-inspired and wirelessly controllable display for active camouflage in aquatic-environment",

abstract = "Achieving optimal camouflage in an aquatic environment necessitates the ability to modulate transmittance in response to the surrounding obscurity and potential threats. This adaptation involves a dynamic transition from transparency to a deep-blue color, especially in low-light or dark situations. Such a strategy promotes a seamless assimilation with the surroundings, enabling the absorption of searchlights and, subsequently, diminishing the risk of detection by predators. Therefore, the presence of sophisticated mechanisms that facilitates stable and efficient control of transmittance is imperative, enabling smooth transition between transparent and deep-blue hues within the aquatic environment. This study presents nature-inspired programmable camouflage system that integrates an electrochromic display as the primary transmittance change element and a wireless base module for power and data transmission. Such technology offers a robust and flexible construction, ensuring stable operation as demonstrated through mechanical-fatigue experiments and quantitative simulation. A custom circuit and a power-control software package enable active control of multiple electrochromic displays while submerged in water.",

author = "Doyoung Kim and Seon, {Seung Won} and Minkyung Shin and Jihwan Kim and Bogeun Kim and Janghoon Joo and Park, {Sang Uk} and Wooseok Kim and Lee, {Hee Kyu} and Lee, {Byeong Woon} and Lee, {Se Gi} and Lee, {Su Eon} and Seo, {Ji Hun} and Han, {Seung Ho} and Kim, {Bong Hoon} and Won, {Sang Min}",

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doi = "10.1038/s41528-024-00292-5",

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AU - Kim, Doyoung

AU - Seon, Seung Won

AU - Shin, Minkyung

AU - Kim, Jihwan

AU - Kim, Bogeun

AU - Joo, Janghoon

AU - Park, Sang Uk

AU - Kim, Wooseok

AU - Lee, Hee Kyu

AU - Lee, Byeong Woon

AU - Lee, Se Gi

AU - Lee, Su Eon

AU - Seo, Ji Hun

AU - Han, Seung Ho

AU - Kim, Bong Hoon

AU - Won, Sang Min

PY - 2024/3/5

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AB - Achieving optimal camouflage in an aquatic environment necessitates the ability to modulate transmittance in response to the surrounding obscurity and potential threats. This adaptation involves a dynamic transition from transparency to a deep-blue color, especially in low-light or dark situations. Such a strategy promotes a seamless assimilation with the surroundings, enabling the absorption of searchlights and, subsequently, diminishing the risk of detection by predators. Therefore, the presence of sophisticated mechanisms that facilitates stable and efficient control of transmittance is imperative, enabling smooth transition between transparent and deep-blue hues within the aquatic environment. This study presents nature-inspired programmable camouflage system that integrates an electrochromic display as the primary transmittance change element and a wireless base module for power and data transmission. Such technology offers a robust and flexible construction, ensuring stable operation as demonstrated through mechanical-fatigue experiments and quantitative simulation. A custom circuit and a power-control software package enable active control of multiple electrochromic displays while submerged in water.

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Squid-inspired and wirelessly controllable display for active camouflage in aquatic-environment

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ASJC Scopus subject areas

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