Electrical Engineering University of Washington Seattle / /
IndustryTerm
navigation systems / indoor localization systems / influential location-aware applications / energy harvesting topologies / software algorithm / detection hardware / indoor localization technologies / real-time algorithms / energy harvesting time / communication protocol / digital processing / acoustic systems / Wireless networks / energy / costly infrastructure / net energy cost / acoustic localization systems / energy cost / speed mobile position-aware applications / harvested energy / estimated total energy / energy harvesting capability / wireless power / increased energy budget / localization technologies / computing / conventional acoustic localization systems / location-aware applications / energy harvesting efficiency / Wireless Propagation Letters / energy harvester / localization systems / /
Organization
Computer Science and Engineering Department / TDoA RSSI / Yi Zhao Joshua R. Smith Department / European Patent Court / EPC / Department of Computer Science / Electrical Engineering University of Washington Seattle / Ambient Intelligence / Center for Pervasive Computing / /
Person
Ben Ransford / A. V. Mamishev / V. Talla / T. Jiang / James Youngquist / D. D. Arumugam / D. J. Yeager / Joshua Griffin / J. R. Smith / P. S. Powledge / Aaron Parks / A. P. Sample / Washington Seattle / Joshua R. Smith / /
Position
extra spy / spy / representative / /
ProvinceOrState
Washington / Florida / /
Technology
EPC protocol / Information Technology / GPS / ultrasound / Localization technologies / Microwave / RFID EPC Gen2 protocol / MEMS / software algorithm / frequency hopping / indoor localization technologies / RFID protocol / NTRODUCTION Outdoor localization technologies / Mobile computing / real-time algorithms / ISP / Radio Frequency / RFID communication protocol / RFID technology / EPC Gen2 RFID protocol / Integrated Circuit / /
A battery-free RFID-based indoor acoustic localization platform Yi Zhao Joshua R. Smith