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

IF 12.3 1区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
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
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引用次数: 0

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.

Abstract Image

受乌贼启发的无线可控显示器,用于水生环境中的主动伪装
要在水生环境中达到最佳伪装效果,就必须能够根据周围的遮蔽物和潜在威胁调节透光率。这种适应包括从透明到深蓝色的动态过渡,尤其是在弱光或黑暗环境中。这种策略可以促进与周围环境的无缝同化,使其能够吸收探照灯,从而降低被捕食者发现的风险。因此,必须要有先进的机制来稳定有效地控制透射率,使水生环境中的透明色调和深蓝色调之间能够平稳过渡。本研究介绍了受大自然启发的可编程伪装系统,该系统集成了作为主要透射率变化元件的电致变色显示屏和用于电源和数据传输的无线基础模块。通过机械疲劳实验和定量模拟,这种技术具有坚固灵活的结构,可确保稳定运行。通过定制电路和电源控制软件包,可以在浸入水中时主动控制多个电致变色显示屏。
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来源期刊
CiteScore
17.10
自引率
4.80%
发文量
91
审稿时长
6 weeks
期刊介绍: npj Flexible Electronics is an online-only and open access journal, which publishes high-quality papers related to flexible electronic systems, including plastic electronics and emerging materials, new device design and fabrication technologies, and applications.
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