EECS Department Intel Research Berkeley CSAIL University of California / building TinyOS / University of Southern California / /
IndustryTerm
intranetwork routing algorithms / chip-to-chip / basic algorithms / hardware/software boundary / multi-hop protocols / embedded sensor networks / personal area wireless networks / ad-hoc multi-hop routing algorithms / reactive processing / software components / Grey components abstract hardware / closed-loop network / desktop systems / higher level applications / basic networking primitive / multi-hop networking / ad hoc protocols / onboard sensor hardware / energy / idle listening energy savings / software structure / communication device / stationary networks / successive protocols / low-level carrier sensing / purpose systems / energy consumption / software services / epidemic algorithm / mature routing protocols / sensor networks / hard real time requirements / epidemic protocols / energy cost / power management / large network / neighborhood management / experimental devices / carrier-sense / network applications / Internet-based systems / sensor fusion applications / microcontroller chip / information technology / low-level hardware / high energy utilization / mica hardware / control innetwork processing / multi-hop networking implementations / energy budget / default media / multi-hop routing protocols / Parent selection algorithms / Internet usage / still allowing applications / network hardware/software boundary / active messages networking abstraction / message-based networking abstraction / low-power networking / localization systems / sensor network / /
NaturalFeature
Great Duck Island / /
OperatingSystem
TinyOS / /
Organization
UCLA / MIT / UC Berkeley / University of California / Berkeley / U.S. Securities and Exchange Commission / Nuclear Regulatory Commission / University of Southern California / DED / /
Person
Localization / Robert Szewczyk / Sam Madden / David Culler / Alec Woo / David Gay / Joseph Polastre / James Reserve / /