Product Issues / Product Recall / Force Majeure / /
Facility
Computer Science The University of Michigan / /
IndustryTerm
packet-detection algorithm / preamble encoding/detection algorithm / less energy cost / times more energy / energy level / metal/wood shelves / approximation algorithm / software radio platform / energy-saving / software radio / Web browsing / real-time applications / address sharing algorithms / carrier-sensing wireless / overall energy saving / address allocation algorithm / linear-time algorithm / Wireless Communications / mobile software radio systems / real wireless environment / energy detection threshold / baseband processor / packet detection algorithm / wireless networks / Energy savings / energy / preamble-based carrier sensing / wireless transceivers / idle network / energy consumption / real-world wireless networks / energy-efficiency / synthesizer processor / address sharing algorithm / energy-consumption / energy cost / sleep-scheduling protocols / average energy level*/ / large network / radio hardware / energy sensing / software radio devices / approximate solution / sleep scheduling protocols / carrier sensing / software radios / average energy level / sleep energy / energy saving / energy consumer / energy profile / Energy efficiency / detection algorithm / actual baseband signal processor / web browsing application / energy-inefficiency / high energy-efficiency / outage-prediction algorithm / ambient networks / physical-layer technologies / energy-saving ratio / negligible energy cost / real wireless environment subject / carrier sensing purpose / /
NaturalFeature
s channel / /
Organization
U.S. Securities and Exchange Commission / Wireless Networks Xinyu Zhang and Kang G. Shin Department of Electrical Engineering / Odoc SRID / The University of Michigan / /
Person
Kang G. Shin / / /
Position
Prime Minister / Network Protocols General / comparable Pm / static Pm / ath5k driver / sleep scheduler / /