Surface++: A Scalable and Self-sustainable Wireless Sound Sensing Surface

Proceedings of the 17th Annual International Conference on Mobile Systems, Applications, and Services(2019)

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摘要
We present Surface++, which leverages our previous work SATURN, a self-powered flexible acoustic sensor, and ZEUSSS, a passive wireless sound communication technique using analog backscatter, to create a scalable and self-sustainable wireless sound sensing surface. Our new prototype allows for large area acoustic sensing using modular fabrication techniques with the promise of being fully printable. A single small Surface++ patch can be used to extend voice and gesture input for everyday surfaces, while our more sensitive Surface++ modular array allows for large-area context sensing and localization.
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关键词
acoustic localization, backscatter communication, flexible electronics, interaction and control, low-power, self-sustainable, sensing, sound, triboelectric nanogenerator, vibration
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