Application-Based Systems / Computer-Communication Networks / General Terms Design Keywords Wireless Sensor Networks / /
Country
United States / /
Currency
USD / / /
IndustryTerm
impact energy consumption / wireless link estimation / energy objective score / energy consumption signature / collaborative energy management / individual software component / sensor network protocols / software monitoring / energy-aware fashion / sensor network applications / energy load / energy decisionmaking process / energy profiles / network energy / energy bottleneck / continuous energy drain / pure energy objective / offline optimal systems / distributed energy goals / energy goals / energy-harvesting hardware / equal initial energy availability / estimated energy load / network-wide energy decision making / energy impact / Energy harvesting capabilities / projected future energy load / large networks / node network / energy awareness / software components / distributed table allowing energy information / Wireless Sensor Networks / nearby energy conditions / application-defined energy objective function / dense networks / energy information / energy-aware routing cases / energy measure / distributed energy management / energy inputs / energy-aware and non-energy-aware routing trees / Energy tracking / poor energy distribution / local energy minimization / energy availability / message advertising / energy usage / energy / energy load vector / energy optimization goals / wasted energy / Energy mismanagement / energy consumption model / estimated energy impact / energy tuning / least energy / stored energy / energy-aware tuning / energy consumption / sensor networks / greedy node energy minimization / energy-aware components / Sensor network software components / application components producing energy load / offline solution / match energy availability / distributed energy awareness / energy-aware routes / energy objective functions / energy efficiency possible / node wireless sensor network / distributed energy management task / less energy / energy-harvesting properties / sensor energy costs / energy efficiency / improved overall energy efficiency / energy harvesting / energy-aware application / static parameter solution / energy changes / death energy objective function / collected energy / similar energy consumption patterns / time synchronization protocol / battery technology / distributed energy information / energy data distribution / distributed energy impact / network energy management / energy distribution / energy harvesting technique / Network-wide solutions / service uniting energy monitoring / higher energy costs / sensor network / less total energy / energy objective function / addressed reducing the energy usage / /
OperatingSystem
TinyOS / L3 / Contiki / /
Organization
School of Engineering and Applied Sciences Harvard University Cambridge / /
Person
Matt Welsh / Jason Waterman / Geoffrey Werner Challen / /
Position
radio model for our simulations / t0 t0 Rt / left end / /