用于恢复生物医学触觉的柔性电触觉设备的研究进展

Yunxia Jin;Zixiong Wu;Yusheng Zhang;Jiaming Qi;Chwee Teck Lim
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引用次数: 0

摘要

触觉技术通常使用电气或机械方法刺激皮肤机械感受器,产生触觉,从而增强辅助技术和虚拟现实或增强现实的体验。其中一种方法是利用纤薄的类肤技术创建可向皮肤传递时空感觉的平台,从而最大限度地减少用户的不适感。本综述重点介绍了参与感知的神经系统的生物学基础以及电触觉设备的基本原理,这些设备以适合与皮肤集成的形式促进触觉感知。它讨论了人类感觉和电刺激的原理以及材料要求,旨在让人们全面了解电触觉技术的可能性及其在特定生物医学触觉应用中的性能,在这些应用中,其他触觉技术并不那么有效。此外,还介绍了当前工作的潜力、挑战和相关机遇。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Advances in Flexible Electrotactile Devices for Restoration of Biomedical Haptic Sensation
Haptic technology often uses electrical or mechanical methods to stimulate skin mechanoreceptors, creating touch sensations that will enhance experiences in assistive technologies and virtual or augmented reality. One approach involves creating platforms that deliver spatiotemporal sensation to the skin by using thin, skin-like technologies, thus minimizing user discomfort. This review highlights the biological basis for nervous system involved in sensing and the fundamentals of electrotactile devices which facilitate tactile perception in forms suitable for integration with the skin. It discusses principles of human sensation and electrical stimulation, along with materials requirement, aiming to provide a comprehensive understanding of the possibilities of electrotactile techniques and its performance in enabling specific biomedical haptic applications where other haptic technologies are less effective. The potential of current efforts, along with challenges and associated opportunities are also presented.
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