Electronic Skin: Opportunities and Challenges in Convergence with Machine Learning.

IF 12.8 1区工程技术 Q1 ENGINEERING, BIOMEDICAL Annual Review of Biomedical Engineering Pub Date : 2024-07-01 DOI:10.1146/annurev-bioeng-103122-032652

Ja Hoon Koo, Young Joong Lee, Hye Jin Kim, Wojciech Matusik, Dae-Hyeong Kim, Hyoyoung Jeong

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Abstract

Recent advancements in soft electronic skin (e-skin) have led to the development of human-like devices that reproduce the skin's functions and physical attributes. These devices are being explored for applications in robotic prostheses as well as for collecting biopotentials for disease diagnosis and treatment, as exemplified by biomedical e-skins. More recently, machine learning (ML) has been utilized to enhance device control accuracy and data processing efficiency. The convergence of e-skin technologies with ML is promoting their translation into clinical practice, especially in healthcare. This review highlights the latest developments in ML-reinforced e-skin devices for robotic prostheses and biomedical instrumentations. We first describe technological breakthroughs in state-of-the-art e-skin devices, emphasizing technologies that achieve skin-like properties. We then introduce ML methods adopted for control optimization and pattern recognition, followed by practical applications that converge the two technologies. Lastly, we briefly discuss the challenges this interdisciplinary research encounters in its clinical and industrial transition.

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电子皮肤：与机器学习融合的机遇与挑战。

软电子皮肤（e-skin）领域的最新进展促使人们开发出能够再现皮肤功能和物理属性的类人设备。人们正在探索将这些设备应用于机器人假肢，以及收集生物电位用于疾病诊断和治疗，生物医学电子皮肤就是一个很好的例子。最近，机器学习（ML）已被用于提高设备控制精度和数据处理效率。电子皮肤技术与 ML 的融合正在促进它们转化为临床实践，特别是在医疗保健领域。本综述重点介绍了用于机器人假肢和生物医学仪器的 ML 强化电子皮肤设备的最新发展。我们首先介绍了最先进的电子皮肤设备的技术突破，强调了实现类皮肤特性的技术。然后，我们介绍了用于控制优化和模式识别的 ML 方法，接着介绍了将这两种技术融合在一起的实际应用。最后，我们简要讨论了这一跨学科研究在临床和工业转型中遇到的挑战。

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

Annual Review of Biomedical Engineering 工程技术-工程：生物医学

CiteScore

18.80

自引率

0.00%

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期刊介绍： Since 1999, the Annual Review of Biomedical Engineering has been capturing major advancements in the expansive realm of biomedical engineering. Encompassing biomechanics, biomaterials, computational genomics and proteomics, tissue engineering, biomonitoring, healthcare engineering, drug delivery, bioelectrical engineering, biochemical engineering, and biomedical imaging, the journal remains a vital resource. The current volume has transitioned from gated to open access through Annual Reviews' Subscribe to Open program, with all articles published under a CC BY license.