Sensory Fiber-Based Electronic Device as Intelligent and Natural User Interface

Xiao Wei; Shengxin Xiang; Chongguang Meng; Zhishui Chen; Shuze Cao; Jianlong Hong; Shengshun Duan; Lei Liu; Huiyun Zhang; Qiongfeng Shi; Guozhen Shen; Jun Wu

doi:10.1007/s42765-025-00524-x

Sensory Fiber-Based Electronic Device as Intelligent and Natural User Interface

Xiao Wei, Shengxin Xiang, Chongguang Meng, Zhishui Chen, Shuze Cao, Jianlong Hong, Shengshun Duan, Lei Liu, Huiyun Zhang, Qiongfeng Shi^*, Guozhen Shen^*, Jun Wu^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

A natural user interface (NUI) with ample information perception capability is a crucial element for the next-generation human–machine interaction and the development of the intelligent era. However, significant challenges remain to be solved in developing intelligent and natural interfaces with satisfactory smart sensing performance. Here, we report an NUI based on an intelligent fabric bracelet empowered with wide-range pressure detectability, enabling invisible and efficient human–machine interaction. The wide-range pressure-sensing ability of the fiber-based pressure sensor can be attributed to the coupling mechanism of contact resistance change and quantum tunneling effect. The fiber-based sensor array is then integrated with a miniaturized wireless flexible printed circuit board, forming an intelligent and compact fabric bracelet system for natural interactive applications in wireless smart home control and virtual reality. It is envisioned that the NUI based on the pressure-sensitive and intelligent fabric bracelet will significantly contribute to the development of next-generation NUIs for more diversified control and interactive applications.

Original language	English
Article number	100340
Pages (from-to)	827-840
Number of pages	14
Journal	Advanced Fiber Materials
Volume	7
Issue number	3
DOIs	https://doi.org/10.1007/s42765-025-00524-x
Publication status	Published - Jun 2025
Externally published	Yes

Keywords

Fiber sensor
Human–machine interaction
Natural user interface
Pressure sensor
Wearable electronics

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10.1007/s42765-025-00524-x

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title = "Sensory Fiber-Based Electronic Device as Intelligent and Natural User Interface",

abstract = "A natural user interface (NUI) with ample information perception capability is a crucial element for the next-generation human–machine interaction and the development of the intelligent era. However, significant challenges remain to be solved in developing intelligent and natural interfaces with satisfactory smart sensing performance. Here, we report an NUI based on an intelligent fabric bracelet empowered with wide-range pressure detectability, enabling invisible and efficient human–machine interaction. The wide-range pressure-sensing ability of the fiber-based pressure sensor can be attributed to the coupling mechanism of contact resistance change and quantum tunneling effect. The fiber-based sensor array is then integrated with a miniaturized wireless flexible printed circuit board, forming an intelligent and compact fabric bracelet system for natural interactive applications in wireless smart home control and virtual reality. It is envisioned that the NUI based on the pressure-sensitive and intelligent fabric bracelet will significantly contribute to the development of next-generation NUIs for more diversified control and interactive applications.",

keywords = "Fiber sensor, Human–machine interaction, Natural user interface, Pressure sensor, Wearable electronics",

author = "Xiao Wei and Shengxin Xiang and Chongguang Meng and Zhishui Chen and Shuze Cao and Jianlong Hong and Shengshun Duan and Lei Liu and Huiyun Zhang and Qiongfeng Shi and Guozhen Shen and Jun Wu",

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year = "2025",

month = jun,

doi = "10.1007/s42765-025-00524-x",

language = "English",

volume = "7",

pages = "827--840",

journal = "Advanced Fiber Materials",

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T1 - Sensory Fiber-Based Electronic Device as Intelligent and Natural User Interface

AU - Wei, Xiao

AU - Xiang, Shengxin

AU - Meng, Chongguang

AU - Chen, Zhishui

AU - Cao, Shuze

AU - Hong, Jianlong

AU - Duan, Shengshun

AU - Liu, Lei

AU - Zhang, Huiyun

AU - Shi, Qiongfeng

AU - Shen, Guozhen

AU - Wu, Jun

N1 - Publisher Copyright: © Donghua University, Shanghai, China 2025.

PY - 2025/6

Y1 - 2025/6

N2 - A natural user interface (NUI) with ample information perception capability is a crucial element for the next-generation human–machine interaction and the development of the intelligent era. However, significant challenges remain to be solved in developing intelligent and natural interfaces with satisfactory smart sensing performance. Here, we report an NUI based on an intelligent fabric bracelet empowered with wide-range pressure detectability, enabling invisible and efficient human–machine interaction. The wide-range pressure-sensing ability of the fiber-based pressure sensor can be attributed to the coupling mechanism of contact resistance change and quantum tunneling effect. The fiber-based sensor array is then integrated with a miniaturized wireless flexible printed circuit board, forming an intelligent and compact fabric bracelet system for natural interactive applications in wireless smart home control and virtual reality. It is envisioned that the NUI based on the pressure-sensitive and intelligent fabric bracelet will significantly contribute to the development of next-generation NUIs for more diversified control and interactive applications.

AB - A natural user interface (NUI) with ample information perception capability is a crucial element for the next-generation human–machine interaction and the development of the intelligent era. However, significant challenges remain to be solved in developing intelligent and natural interfaces with satisfactory smart sensing performance. Here, we report an NUI based on an intelligent fabric bracelet empowered with wide-range pressure detectability, enabling invisible and efficient human–machine interaction. The wide-range pressure-sensing ability of the fiber-based pressure sensor can be attributed to the coupling mechanism of contact resistance change and quantum tunneling effect. The fiber-based sensor array is then integrated with a miniaturized wireless flexible printed circuit board, forming an intelligent and compact fabric bracelet system for natural interactive applications in wireless smart home control and virtual reality. It is envisioned that the NUI based on the pressure-sensitive and intelligent fabric bracelet will significantly contribute to the development of next-generation NUIs for more diversified control and interactive applications.

KW - Fiber sensor

KW - Human–machine interaction

KW - Natural user interface

KW - Pressure sensor

KW - Wearable electronics

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DO - 10.1007/s42765-025-00524-x

M3 - Article

AN - SCOPUS:105000331914

SN - 2524-7921

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SP - 827

EP - 840

JO - Advanced Fiber Materials

JF - Advanced Fiber Materials

IS - 3

M1 - 100340

ER -

Sensory Fiber-Based Electronic Device as Intelligent and Natural User Interface

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Keywords

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