2019
DOI: 10.1038/s41586-019-1687-0
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Skin-integrated wireless haptic interfaces for virtual and augmented reality

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Cited by 766 publications
(657 citation statements)
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References 21 publications
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“…With more and more distributed sensor nodes and functional units, interactions between human and machines are becoming inevitable and increasingly intimate in daily life, such as in the scenarios of healthcare, 238‐240 disabled aids, 241,242 robotics, 243‐245 entertainment, 246,247 gaming, 248 VR/AR, 219,249,250 and so on. As mentioned in the previous section, using self‐powered functional components in the whole system can effectively reduce the overall power consumption.…”
Section: Self‐sustainable Wearable Electronics Integrated With Energymentioning
confidence: 99%
“…With more and more distributed sensor nodes and functional units, interactions between human and machines are becoming inevitable and increasingly intimate in daily life, such as in the scenarios of healthcare, 238‐240 disabled aids, 241,242 robotics, 243‐245 entertainment, 246,247 gaming, 248 VR/AR, 219,249,250 and so on. As mentioned in the previous section, using self‐powered functional components in the whole system can effectively reduce the overall power consumption.…”
Section: Self‐sustainable Wearable Electronics Integrated With Energymentioning
confidence: 99%
“…However, there is still a massive way to go with haptic rendering; handshakes and light touches on the shoulder can be done, but not in a way that is going to be available to consumers in the near future. Advances in recent years have included air vortex generation to produce tactile feedback from a distance (Sodhi et al, 2013) and skin integrated wireless interfaces that present a potentially remarkable advance in tactile feedback (Yu et al, 2019). However, tactile feedback is only one half of the haptic interface.…”
Section: High-quality Sensory Feedbackmentioning
confidence: 99%
“…[11][12][13] Recently, soft, and skin-integrated electronics, sometime also known as "epidermal electronics" have been of great interest due to their flexibility, stretchability, and lightweight. [14][15][16][17] In the past several years, integration of functional materials into a flexible platform has become a hot research topic. [18][19][20][21] Owning to the advances in materials science and mechanics, construction of piezoelectric materials in flexible and stretchable formats provides the foundations for numerous applications in wearable and implantable systems.…”
Section: Flexible Pengmentioning
confidence: 99%