Portland State University Systems / ACM Press / GAF / /
Country
Italy / / /
IndustryTerm
high communications latency / wireless powersaving mechanisms / wind energy / energy conservation / mac protocol / Self-tuning power management / video sensor networks / time division multiple access protocol / in-kernel solution / unmodified commodity wireless hardware / wireless network / software-based real-time ethernet protocol / real time / Wireless TDMA Protocols / wireless sensor networks / security surveillance applications / ad hoc networking environment / pure application-layer solution / low-power access protocols / Wireless Networks / energy savings / considerable communications latency / Lower communications latency / energy / control algorithm / wireless lan systems / time-sensitive applications / energy consumption / sensor networks / ad hoc networks / Self-tuning wireless network power management / wireless network interface / video sensor network / wireless ad hoc networks / Wireless Rether / media-access / similar protocols / multi-hop networks / commodity hardware / energy conserving media / computing / low-power video sensor networking technologies / token ring protocol / Geography-informed energy conservation / wireless network scenario / wireless network interfaces / energy-efficient mac protocol / /
OperatingSystem
Linux / /
Organization
Portland State University / National Science Foundation / USC/Information Sciences Institute / DCF PSM / IEEE Computer Society / PCF PSM / /
Person
Martin Nilsson / James C Chen / Jonathan Walpole / Krishna M. Sivalingam / Gang Peng / Manish Anand / Chris Friesen / Jyh-Cheng Chen / Jim Snow / Paul J.M. Havinga / Jason Flinn / Ashvin Goel / Ya Xu / Charles Krasic / Srikant Sharma / Wei Ye / Mike Shea / Prathima Agrawal / Louis Bavoil / John Heidemann / Laura Marie Feeney / Jeffrey M Gilbert / Luca Abeni / Suresh Singh / Gerard J.M. Smit / Deborah Estrin / Mani B. Srivastava / C.S. Raghavendra / Brian Code / / /