A. Hardware / WISPCam / Texas Instruments / Power Electronics / /
Country
United States / Canada / /
Event
FDA Phase / /
Facility
Engineering Department University of Washington / Python LLRP library / Python library / /
IndustryTerm
airline maintenance plans / large-scale energy storage / energy harvesting wireless sensor nodes / energy intensive / energy limitations / energy capacity / battery-free sensor solutions / real time / detection applications / energy-storage goal / high-energy loads / charge storage device / wireless multichannel / leakage energy / frame energy consumption vs frame readout / energy harvesting systems / industrial gas cylinder / charge-storage devices / energy / real-world applications / gas tanks / energy-harvesting platform supporting complex sensing / energy-scavenging platform / potential applications / load energy requirement / sensor networks / less overall energy wastage / communication infrastructure / energy dissipation / research-grade systems / energy conversion / harvested energy / surveillance systems / energy requirements / energy-harvesting devices / impedance matching network / energy requirement / energy storage component / memory technology / applicable battery-free sensing systems / Energy efficiency / energy harvesting / firmware/software / on-board energy storage / battery-free imaging / chemical / supercapacitor-based sub-watt energy harvesters / software libraries / 64KB on-chip / transfer systems / usable energy / energy scavenging / energy-harvesting scenarios / brake temperature systems / active mode capacitor leakage energy / battery-free devices / software interface / energy shortfalls / transfer protocol / atomic imaging / Wireless Identification / Wireless Symposium / require expending more energy / /
Organization
ASIC / EPC / Source Measure Unit / University of Washington / Seattle / Electrical Engineering Department / /
Person
R. Prasad / D. J. Yeager / Netw / D. Wetherall / J. R. Smith / P. S. Powledge / /