Radio Frequency Identification Technologies / Wiley-IEEE Press / Intel / / /
Event
FDA Phase / /
Facility
Libckpt library / University of Massachusetts Amherst Abstract Computational RFIDs / /
IndustryTerm
batteryless persvasive computing / comicant energy / authentication protocol / harvestable energy / execution checkpointing systems / on-line energy measurement / leakage energy reduction / energy-aware checkpoints / per-bit energy consumption / wireless sensor networks / radio energy drops / energy measurement / lower total energy consumption / implantable medical devices / toy algorithm / pervasive applications / energy voltage / energy availability / energy usage / energy / wasted energy / energy costs / hardware-software abstractions / energy-aware execution checkpointing / exTransiently supplying energy / per-bit energy con / implantable medical device / energy consumption / worst-case energy availability circum / energy lifecycle / sensor networks / energy-aware computational checkpoints / energy cost / energy-aware computation / harvested energy / energy-efficient manner / energy estimates / energy measurements / iterative modular exponentiation algorithm / Low-power microcontrollers proinitial energy / energy management / mote-based wireless sensor networks / compile-time energy hints / manufacturing / Sensor networking research / computing / energy harvesting devices / energy-aware strategy / energy store / energy profiling / Low-power devices / Energy efficiency research / Wireless Identification / energy-aware programming language / /
OperatingSystem
UNIX / /
Organization
University of Massachusetts Amherst Abstract Computational RFIDs / National Science Foundation / WISP CRFIDs / U.S. Department of Homeland Security / CVIP Technology Development Fund / WISP’s CPU / Department of Computer Science / IEEE Computer Society / /
Person
Alanson Sample / R. Prasad / A. V. Mamishev / W. H. Maisel / P. Powledge / Wayne Burleson / J. Smith / J. Chae / D. Yeager / K. Fu / D. J. Yeager / W. Morgan / Forward Progress / O. Gervasi / V / John Tuttle / D. Wetherall / T. Kohno / J. R. Smith / M. Brennan / P. S. Powledge / Benjamin Ransford Shane Clark Mastooreh / B. Ransford / Joshua Smith / /
Position
voltage supervisor / supervisor / programmer / /
Product
Mementos / RC5 / /
PublishedMedium
Lecture Notes in Computer Science / /
Technology
authentication protocol / RAM / ADC / UNIX / toy algorithm / operating system / exponentiation algorithm / integrated circuits / underlying RFID protocol / cryptography / flash memory / Mobile Computing / radio frequency / flash / /
Getting Things Done on Computational RFIDs with Energy-Aware Checkpointing and Voltage-Aware Scheduling Benjamin Ransford Shane Clark Mastooreh Salajegheh Kevin Fu {ransford, ssclark, negin, kevinfu}@cs.umass.edu Departm