Communication Systems KTH Royal Institute of Technology Email / University of Queensland / The University of Queensland / /
IndustryTerm
ubiquitous systems / wide-area applications / average energy consumption / overall network / cellular networks / meaningful energy savings / dramatic energy savings / improved energy efficiency / machine devices / regular monitoring applications / home security applications / overall energy efficiency / communication protocol / link energy efficiency / Wireless Communications / wireless sensor networks / event-driven reporting mode applications / positive results achieving energy savings / wireless microsensor networks / energy savings / considerable energy savings / self-adaptive software / energy / target applications / lte systems / energy consumption / cluster groups multiple machine devices / context-aware applications / machine device / Event-driven applications / higher energy efficiency / machine type communications / context-aware computing / energy efficiency / cellular network / computing / lower energy savings / overall network energy efficiency / higher energy savings / telecommunication network / /
NaturalFeature
Bandwidth Required SNR Channel / /
Organization
Guowang Miao Department of Communication Systems KTH Royal Institute of Technology Email / University of Queensland / NOAA’s National Climatic Data Center / /
Person
K. Jamal N. Al-karaki / Max Transmitting / Javier Mendonc¸a Costa / /
Position
machines and cluster head / cluster head / context-aware archaeological assistant / Major / /
ProvinceOrState
Queensland / Hawaii / /
PublishedMedium
Archaeology / IEEE Intelligent Systems / /
Technology
Quality of Service / Energyefficient communication protocol / Mobile Computing / MAC protocol / Simulation / /