Battery-less wireless sensors powered directly by miniaturized energy harvesters can be appealing only if communication between nodes is realized without wasting energy. In devices that implement intermittent computing, efficient communications remain an open challenge. Transmitters should be aware of unavailable receivers to prevent packet losses due to power failures. Backscatter transmissions can be used to propagate the energy state almost for free in the surrounding. This paper presents a backscatter radio mechanism and a protocol that regulates the communication between nodes, guaranteeing packet transmissions only if sufficient energy is stored in the transmitter and the receiver. Simulation results demonstrate our approach's effectiveness and show the performance of this new type of intermittent communication.
Torrisi, A., Brunelli, D., Yildirim, K.S. (2020). Zero Power Energy-Aware Communication for Transiently-Powered Sensing Systems. NEW YORK, NY : Association for Computing Machinery [10.1145/3417308.3430269].
Zero Power Energy-Aware Communication for Transiently-Powered Sensing Systems
Brunelli, Davide;
2020
Abstract
Battery-less wireless sensors powered directly by miniaturized energy harvesters can be appealing only if communication between nodes is realized without wasting energy. In devices that implement intermittent computing, efficient communications remain an open challenge. Transmitters should be aware of unavailable receivers to prevent packet losses due to power failures. Backscatter transmissions can be used to propagate the energy state almost for free in the surrounding. This paper presents a backscatter radio mechanism and a protocol that regulates the communication between nodes, guaranteeing packet transmissions only if sufficient energy is stored in the transmitter and the receiver. Simulation results demonstrate our approach's effectiveness and show the performance of this new type of intermittent communication.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
