With the growing number of deployments of Internet of Things (IoT) infrastructure for a wide
variety of applications, the battery maintenance has become a major limitation for the …

The maturation of energy-harvesting technology and ultra-low-power computer systems has
led to the advent of intermittently-powered, batteryless devices that operate entirely using …

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 …

The emergence of energy harvesting devices creates the potential for batteryless sensing
and computing devices. Such devices operate only intermittently, as energy is available …

Energy harvesting computers enable general-purpose computing using energy collected
from their environment. Energy-autonomy of such devices has great potential, but their …

Energy-harvesting devices have the potential to be the foundation of emerging, sensor-rich
application domains where the use of batteries is infeasible, such as in space and civil …

Battery-free, energy-harvesting devices operate using energy collected exclusively from
their environment. Energy-harvesting devices allow maintenance-free deployment in …

As computation scales downward in area, the limitations imposed by the batteries required
to power that computation become more pronounced. Thus, many future devices will forgo …

Tiny energy harvesting battery-free devices promise maintenance free operation for
decades, providing swarm scale intelligence in applications from healthcare to building …

Energy harvesters are being used to power autonomous systems, but their output power is
variable and intermittent. To sustain computation, these systems integrate batteries or …