Wireless Sensor Networks / ACM Press / RFID / Automation Laboratory / STMicroelectronics / Intel / LargeGroup / John Wiley & Sons / /
Country
United States / /
Currency
USD / / /
Event
Natural Disaster / /
Facility
University of Washington / Massachusetts Institute of Technology / University of California / /
IndustryTerm
food spoilage / supply chain applications / software-filtering operation / electric power applications / pervasive computing / reader hardware / wireless functioning / communication systems / healthcare applications / machinery / low-level physical-layer communication protocol / energy density / energy use / built-in methods / healthcare / wireless sensing / Wireless Portable Sensors / wireless networks / energy / metal / Wireless Sensors / energy source / conventional sensor networks / sensor networks / battery-free wireless sensors / manufacturing trends / large devices / replacement reader hardware / distributed sensing applications / radio-frequency-identification technology / solar energy / computing / large metal structures / communications purposes / dense sensor networks / wearable device / wireless communication / Wireless Identification / using a simple software-filtering operation / /
Organization
University of Washington / Univ. of Washington / MIT / US government / IEEE and the AAAS / University of California / Santa Barbara / Medical School / Massachusetts Institute of Technology / IEEE / University of Washington iMote / iMote Sensor Board / University of Auburn / EPC / MIT Media Lab / Family / /
Person
Jonathan Lester / Sumit Roy / Alexander Mamishev / Joshua R. Smith / Bing Jiang / / /
Position
staff research scientist / professor of electrical engineering / simple usage model for wisps / assistant professor of electrical engineering and director of the Sensors / Self-Powered Pushbutton Controller / ” Proc / member / staff research scientist at Research Seattle / /
ProvinceOrState
California / Massachusetts / /
PublishedMedium
Scientific American / /
Technology
semiconductor / low-level physical-layer communication protocol / biosensors / radio-frequency-identification technology / ID chips / wisp using Alien Technologies / Operating Systems / existing protocol / pdf / two chips / dielectric / spectroscopy / radio frequency / IC chips / ambient power scavenging.4 / 5 Battery technology / /
E N E R G Y H A R V E S T I N G & C O N S E R VAT I O N Battery-Free Wireless Identification and Sensing Wisps, a class of battery-free wireless sensors, scavenge power from