Reliable communication and synchronization for transiently-powered batteryless sensors are still open challenges. This paper presents a method to synchronize and ensure reliable communication over batteryless sensors with zero energy cost requirements. Our preliminary design combines visible light communication (VLC) and radio-frequency (RF) backscatter into a self-powered autonomous circuit. We enable energy status sharing and communication scheduling services, which provide the fundamental building blocks for future batteryless communication protocols.
Torrisi, A., Yildirim, K.S., Brunelli, D. (2021). Autonomous Energy Status Sharing and Synchronization for Batteryless Sensor Networks. New York, NY : Association for Computing Machinery, Inc [10.1145/3485730.3493360].
Autonomous Energy Status Sharing and Synchronization for Batteryless Sensor Networks
Brunelli, DavideSupervision
2021
Abstract
Reliable communication and synchronization for transiently-powered batteryless sensors are still open challenges. This paper presents a method to synchronize and ensure reliable communication over batteryless sensors with zero energy cost requirements. Our preliminary design combines visible light communication (VLC) and radio-frequency (RF) backscatter into a self-powered autonomous circuit. We enable energy status sharing and communication scheduling services, which provide the fundamental building blocks for future batteryless communication protocols.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.



