Successful wireless communication requires that sender and receiver are operational at the
same time. This requirement is difficult to satisfy in battery-free networks, where the energy …

Battery-free and intermittently powered devices offer long lifetimes and enable deployment
in new applications and environments. Unfortunately, develo** sophisticated inference …

The Internet of Batteryless Things Page 1 key insights ˽ As we move toward a future with
trillions of IoT devices, replacing batteries will be both prohibitively expensive and …

Optimizing deep neural networks (DNNs) running on resource-constrained devices, such as
energy harvesting sensor devices, poses unique challenges due to the limited memory and …

Supporting long life, high performance, intermittent computation is an essential challenge in
allowing energy harvesting devices to fulfill the vision of smart dust. Intermittent computation …

We present an architecture for intermittently-powered wireless communication systems that
does not require any changes to the official protocol specification. Our core idea is to save …

Energy-harvesting devices eliminate batteries, instead collecting their operating energy from
environmental sources. A device stores energy into a capacitor, drawing energy to perform …

Energy harvesting systems have emerged as an alternative to battery-operated Internet of
Things (IoT) devices. To deal with frequent power outages in the absence of battery, energy …

Recent innovations in energy harvesting promise extended operational life and reduced
maintenance costs for the next generation of Internet of Things (IoT) platforms. However …

Human-caused climate degradation and the explosion of electronic waste have pushed the
computing community to explore fundamental alternatives to the current battery-powered …