Skin-integrated wireless haptic interfaces for virtual and augmented reality

Yu, Xinge; Xie, Zhaoqian; Yu, Yang; Lee, Jungyup; Vázquez-Guardado, Abraham; Luan, Haiwen; Ruban, Jasper; Ning, Xin; Akhtar, Aadeel; Li, Dengfeng; Ji, Bowen; Liu, Yiming; Sun, Rujie; Cao, Jingyue; Huo, Qingze; Zhong, Yuncheng; Lee, Chan Mi; Kim, Seung Yeop; Gutruf, Philipp; Zhang, Changxing; Xue, Yeguang; Guo, Qinglei; Chempakasseril, Aditya; Tian, Peilin; Lü, Wei; Jeong, Ji Yoon; Yu, Yong; Cornman, Jesse; Tan, Chee Sim; Kim, Bong Hoon; Lee, Kun Hyuk; Feng, Xue; Huang, Yonggang; Li, Jinghua

doi:10.1038/s41586-019-1687-0

Cited by 652 publications

(582 citation statements)

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%

Progress in wearable electronics/photonics—Moving toward the era of artificial intelligence and internet of things

Shi

Dong

et al. 2020

InfoMat

368

218

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The past few years have witnessed the significant impacts of wearable electronics/photonics on various aspects of our daily life, for example, healthcare monitoring and treatment, ambient monitoring, soft robotics, prosthetics, flexible display, communication, human‐machine interactions, and so on. According to the development in recent years, the next‐generation wearable electronics and photonics are advancing rapidly toward the era of artificial intelligence (AI) and internet of things (IoT), to achieve a higher level of comfort, convenience, connection, and intelligence. Herein, this review provides an opportune overview of the recent progress in wearable electronics, photonics, and systems, in terms of emerging materials, transducing mechanisms, structural configurations, applications, and their further integration with other technologies. First, development of general wearable electronics and photonics is summarized for the applications of physical sensing, chemical sensing, human‐machine interaction, display, communication, and so on. Then self‐sustainable wearable electronics/photonics and systems are discussed based on system integration with energy harvesting and storage technologies. Next, technology fusion of wearable systems and AI is reviewed, showing the emergence and rapid development of intelligent/smart systems. In the last section of this review, perspectives about the future development trends of the next‐generation wearable electronics/photonics are provided, that is, toward multifunctional, self‐sustainable, and intelligent wearable systems in the AI/IoT era.

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Section: Self‐sustainable Wearable Electronics Integrated With Energymentioning

confidence: 99%

Progress in wearable electronics/photonics—Moving toward the era of artificial intelligence and internet of things

Shi

Dong

et al. 2020

InfoMat

368

218

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“…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%

The Ethics of Realism in Virtual and Augmented Reality

Slater

Gonzalez-Liencres

Haggard

et al. 2020

Front. virtual real.

216

136

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“…[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%

Recent progress on flexible nanogenerators toward self‐powered systems

Liu

Wang

Zhao

et al. 2020

InfoMat

Self Cite

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The advances in wearable/flexible electronics have triggered tremendous demands for flexible power sources, where flexible nanogenerators, capable of converting mechanical energy into electricity, demonstrate its great potential. Here, recent progress on flexible nanogenerators for mechanical energy harvesting toward self‐powered systems, including flexible piezoelectric and triboelectric nanogenerator, is reviewed. The emphasis is mainly on the basic working principle, the newly developed materials and structural design as well as associated typical applications for energy harvesting, sensing, and self‐powered systems. In addition, the progress of flexible hybrid nanogenerator in terms of its applications is also highlighted. Finally, the challenges and future perspectives toward flexible self‐powered systems are reviewed.

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Skin-integrated wireless haptic interfaces for virtual and augmented reality

Cited by 652 publications

References 21 publications

Progress in wearable electronics/photonics—Moving toward the era of artificial intelligence and internet of things

Progress in wearable electronics/photonics—Moving toward the era of artificial intelligence and internet of things

The Ethics of Realism in Virtual and Augmented Reality

Recent progress on flexible nanogenerators toward self‐powered systems

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