Sensor networks with battery-powered nodes can seldom simultaneously meet the design
goals of lifetime, cost, sensing reliability and sensing and transmission coverage. Energy …

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 …

Transiently powered computing devices such as RFID tags, kinetic energy harvesters, and
smart cards typically rely on programs that complete a task under tight time constraints …

Transiently Powered Computers (TPCs) are a new class of battery less embedded systems
that depend solely on energy harvested from external sources for performing computations …

The processors that drive embedded systems are getting smaller; meanwhile, the batteries
used to provide power to those systems have stagnated. If we are to realize the dream of …

In this work we perform the first comprehensive study of physical-layer identification of RFID
transponders. We propose several techniques for the extraction of RFID physical-layer …

Computational RFID (CRFID) tags embed sensing and computation into the physical world.
The operation of the tags is limited by the RF energy that can be harvested from a nearby …

Sensing platforms are becoming batteryless to enable the vision of the Internet of Things,
where trillions of devices collect data, interact with each other, and interact with people …

Transiently Powered Computers (TPCs) are a new class of batteryless embedded systems
that depend solely on energy harvested from external sources for performing computations …

Abstract The UMass Moo is a passively powered computational RFID that harvests RFID
reader energy from the UHF band, communicates with an RFID reader, and processes data …