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Auteurs principaux: Cui, Ziang, Wang, Shanyong, Zhao, Yining, Wang, Yiran, Wen, Xingming, Chen, Siyuan, Xiong, Ze
Format: Preprint
Publié: 2025
Sujets:
Accès en ligne:https://arxiv.org/abs/2511.20578
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author Cui, Ziang
Wang, Shanyong
Zhao, Yining
Wang, Yiran
Wen, Xingming
Chen, Siyuan
Xiong, Ze
author_facet Cui, Ziang
Wang, Shanyong
Zhao, Yining
Wang, Yiran
Wen, Xingming
Chen, Siyuan
Xiong, Ze
contents Haptic feedback is essential for human-machine interaction, as it bridges physical and digital experiences and enables immersive engagement with virtual environments. However, current haptic devices are frequently tethered, lack portability and flexibility. They also have limited ability to deliver fine-grained, multi-dimensional feedback. To address these challenges, we present a flexible, ultra-thin, and user-customized electro-haptic device fabricated with soft materials and printable liquid metal ink. Its highly integrated and lightweight design minimizes interference with natural hand movements while maintaining reliable skin contact. By delivering finely controlled electrical stimulation through 15 electrodes, it can evoke a wide range of tactile sensations that cover diverse interaction scenarios. Our user study demonstrates that the device is comfortable to wear and capable of generating tunable, precise electro-haptic feedback, thereby significantly enhancing immersion and realism in human-machine interactions.
format Preprint
id arxiv_https___arxiv_org_abs_2511_20578
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A User-customized and Untethered Electro-haptic Device for Immersive Human-Machine Interaction
Cui, Ziang
Wang, Shanyong
Zhao, Yining
Wang, Yiran
Wen, Xingming
Chen, Siyuan
Xiong, Ze
Human-Computer Interaction
Haptic feedback is essential for human-machine interaction, as it bridges physical and digital experiences and enables immersive engagement with virtual environments. However, current haptic devices are frequently tethered, lack portability and flexibility. They also have limited ability to deliver fine-grained, multi-dimensional feedback. To address these challenges, we present a flexible, ultra-thin, and user-customized electro-haptic device fabricated with soft materials and printable liquid metal ink. Its highly integrated and lightweight design minimizes interference with natural hand movements while maintaining reliable skin contact. By delivering finely controlled electrical stimulation through 15 electrodes, it can evoke a wide range of tactile sensations that cover diverse interaction scenarios. Our user study demonstrates that the device is comfortable to wear and capable of generating tunable, precise electro-haptic feedback, thereby significantly enhancing immersion and realism in human-machine interactions.
title A User-customized and Untethered Electro-haptic Device for Immersive Human-Machine Interaction
topic Human-Computer Interaction
url https://arxiv.org/abs/2511.20578