Active electronic skin: an interface towards ambient haptic feedback on physical surfaces

IF 12.3 1区材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

npj Flexible Electronics Pub Date : 2024-05-02 DOI:10.1038/s41528-024-00311-5

Yuan Guo, Yun Wang, Qianqian Tong, Boxue Shan, Liwen He, Yuru Zhang, Dangxiao Wang

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Abstract

In the era of ubiquitous computing with flourished visual displays in our surroundings, the application of haptic feedback technology still remains in its infancy. Bridging the gap between haptic technology and the real world to enable ambient haptic feedback on various physical surfaces is a grand challenge in the field of human-computer interaction. This paper presents the concept of an active electronic skin, characterized by three features: richness (multi-modal haptic stimuli), interactivity (bi-directional sensing and actuation capabilities), and invisibility (transparent, ultra-thin, flexible, and stretchable). By deploying this skin on physical surfaces, dynamic and versatile multi-modal haptic display, as well as tactile sensing, can be achieved. The potential applications of this skin include two categories: skin for the physical world (such as intelligent home, intelligent car, and intelligent museum), and skin for the digital world (such as haptic screen, wearable device, and bare-hand device). Furthermore, existing skin-based haptic display technologies including texture, thermal, and vibrotactile feedback are surveyed, as well as multidimensional tactile sensing techniques. By analyzing the gaps between current technologies and the goal of ambient haptics, future research topics are proposed, encompassing fundamental theoretical research on the physiological and psychological perception mechanisms of human skin, spatial-temporal registration among multimodal haptic stimuli, integration between sensing and actuation, and spatial-temporal registration between visual and haptic display. This concept of active electronic skin is promising for advancing the field of ambient haptics, enabling seamless integration of touch into our digital and physical surroundings.

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有源电子皮肤：实现物理表面环境触觉反馈的界面

在无处不在的计算时代，我们周围的视觉显示已经非常发达，但触觉反馈技术的应用仍处于起步阶段。如何弥合触觉技术与现实世界之间的差距，在各种物理表面上实现环境触觉反馈，是人机交互领域的一大挑战。本文提出了有源电子皮肤的概念，它具有三个特点：丰富性（多模态触觉刺激）、交互性（双向传感和执行能力）和隐蔽性（透明、超薄、柔韧和可伸缩）。通过在物理表面部署这种皮肤，可以实现动态和多功能的多模态触觉显示以及触觉传感。这种皮肤的潜在应用包括两类：物理世界的皮肤（如智能家居、智能汽车和智能博物馆）和数字世界的皮肤（如触觉屏幕、可穿戴设备和裸手设备）。此外，还调查了现有的基于皮肤的触觉显示技术，包括纹理、热和振动反馈，以及多维触觉传感技术。通过分析现有技术与环境触觉目标之间的差距，提出了未来的研究课题，包括人类皮肤生理和心理感知机制的基础理论研究、多模态触觉刺激之间的时空注册、传感与执行之间的整合，以及视觉与触觉显示之间的时空注册。这种有源电子皮肤概念有望推动环境触觉领域的发展，使触觉与我们的数字和物理环境无缝融合。

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

npj Flexible Electronics Multiple-

CiteScore

17.10

自引率

4.80%

发文量

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.