通过计算机视觉方法实现皮肤表面电子器件中的耦合力学

Soft science Pub Date : 2024-02-21 DOI:10.20517/ss.2023.50
Jin-Tae Kim, L. Chamorro
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引用次数: 0

摘要

材料和机械方面的最新进展为将刚性电路转化为柔性电子器件铺平了道路。由于它们能够贴合皮肤,因此开发出了皮肤表面电子器件,包括机械声传感器和触觉系统。然而,皮肤与皮肤表面电子器件之间的耦合力学所带来的挑战,要求我们进一步了解生物力学、生物电子学及其相互作用。这篇视角文章强调了一种新兴趋势,即通过表征相关的生物力学来利用计算机视觉方法优化下一代肤面电子设备,反之亦然。循环研究过程包括开发软电子器件、识别耦合力学以及使用计算机视觉方法对其进行量化。文章介绍了最先进的皮肤界面电子学计算机视觉技术及其在其他形式软电子学中的潜在应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Coupled mechanics in skin-interfaced electronics via computer vision methods
Recent advancements in materials and mechanics have paved the way for transforming rigid circuits into flexible electronics. Their ability to laminate onto the skin has led to the development of skin-interfaced electronics, including mechano-acoustic sensors and haptic systems. However, the challenges of the coupled mechanics between the skin and skin-interfaced electronics call for further understanding of biomechanics, bioelectronics, and their interactions. This perspective article highlights the emerging trend of employing computer vision methods to optimize the next generation of skin-interfaced electronics by characterizing associated biomechanics and vice versa. The cyclic research process involves the development of soft electronics, the identification of coupled mechanics, and their quantification using computer vision methods. The article describes state-of-the-art computer vision techniques in the context of skin-interfaced electronics and their potential applications in other forms of soft electronics.
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