Cambridge University Press / Distributed Computing Systems / Advanced Telecommunications / McGraw-Hill / /
Country
United Kingdom / / /
Event
Man-Made Disaster / /
Facility
University of York / College Park / / /
IndustryTerm
resource-constrained wireless nodes / sleep protocol / maximal energy efficiency / hop energy / non-trivial protocols / sensornet hardware / Energy aware wireless microsensor networks / given simulated network / lower energy consumption state / energy metrics / extant protocol / energy properties / energy-ignorant protocols / online models / high energy consumption / irrelevant communications / non-geographical routing protocols / Maximum lifetime energy routing protocols / coordinated radio state management / sensornet applications / Minimum transmitted energy protocols / Mean energy / well-understood energy-ignorant protocols / Wireless Communications / wireless sensor networks / radio state management / energy-aware networking protocols / wireless medium / mobile ad hoc network / low-power wireless sensor networks / mobile wireless networks / improved energy management efficiency / Wireless Networks / Energy savings / node energy / aggressive energy management policies / energy / energy-performance tradeoff / given network / Lightweight protocols / given networking protocol / energy efficient routing / observed energy consumption / sub-optimal energy consumption / project web pages / energy resources / energy-ignorant and energy-aware protocols / energy-aware design / energy consumption / sensor networks / state management / energy-efficiency protocols / energy efficiency improvement / ad hoc networks / average energy / energy consumption state / potential energy savings rh / method to other lightweight sensornet protocols / wireless motes / finite energy capacity / wireless ad hoc networks / Radio networking components / minimal energy / implement energy load-balancing / sample networks / optimally-configured gossiping protocol / typical energy-ignorant network routing protocol / favourable solutions / tuned gossiping protocol / similar protocols / quiet networks / energy consumer / energy consumption profile / energy management / mobile ad hoc networks / recent and more sophisticated alternative protocols / less energy / stateless protocols / wireless sensor network lifetime / higher energy consumption level / hardware technology / energy-efficient tunings / dissimilar simulated network / energy-efficient networking protocol configurations / radio communications / similar networks / higher-energy / not only reducing the energy consumption / /
Organization
UCLA / Cambridge University / University of York / ENERGY EFFICIENCY OF SENSORNETS J. Tate / I. Bate and S. Poulding Department of Computer Science / /
TUNING PROTOCOLS TO IMPROVE THE ENERGY EFFICIENCY OF SENSORNETS J. Tate, I. Bate and S. Poulding Department of Computer Science, University of York, York, YO10 5DD, United Kingdom {jt | iain.bate | smp}@cs.york.ac.uk