Haptic artificial muscle skin for extended reality

Haptic artificial muscle skin for extended reality

Existing haptic actuators are often rigid and limited in their ability to replicate real-world tactile sensations. We present a wearable haptic artificial muscle skin (HAMS) based on fully soft, millimeter-scale, multilayer dielectric elastomer actuators (DEAs) capable of significant out-of-plane de...

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Bibliographische Detailangaben
Hauptverfasser: Guo, Yuxuan, Luo, Yang, Plamthottam, Roshan, Wei, Chen, Pei, Siyou, Han, Ziqing, Fan, Jiacheng, Possinger, Mason, Liu, Kede, Zhu, Yingke, Fei, Zhangqing, Winardi, Isabelle, Hong, Hyeonji, Zhang, Yang, Jin, Lihua, Pei, Qibing
Format: Dataset
Sprache:eng
Schlagworte:
Dielectric elastomer actuators
Extended Reality
FOS: Engineering and technology
Haptics
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Beschreibung
Zusammenfassung:Existing haptic actuators are often rigid and limited in their ability to replicate real-world tactile sensations. We present a wearable haptic artificial muscle skin (HAMS) based on fully soft, millimeter-scale, multilayer dielectric elastomer actuators (DEAs) capable of significant out-of-plane deformation, a capability that typically requires rigid or liquid biasing. The DEAs utilize a thickness-varying multilayer structure to achieve large out-of-plane displacement and force, maintaining comfort and wearability. Experimental results demonstrate that HAMS can produce complex tactile feedback with high perception accuracy. Moreover, we show that HAMS can be integrated into extended reality (XR) systems, enhancing immersion and offering potential applications in entertainment, education, and assistive technologies.
DOI:10.5061/dryad.wwpzgmssz