Berkeley Harvard University University of California Intel Corporation / Real networks / TOSSIM / Intel / /
Country
United States / /
Currency
USD / / /
Event
FDA Phase / /
Facility
Berkeley Harvard University University of California Intel Corporation Cambridge / /
IndustryTerm
simulation tools / wireless simulation / sensor network applications / 5x5 grid network / encryption hardware / similar tools / in-network processing / mote hardware / physical protocols / communication protocol / level applications / ad-hoc routing protocol / out-of-network processing / energy usage / communication services / sensor networks / state management / external applications / large network / hop network / densest network / cycle detection algorithm / network protocols / visualization tool / event processing model / separate software handler / larger systems / sensor network / larger applications / low level network protocols / sensor network hardware / real-world network / aggressive cycle detection algorithm / wireless network / integrated layer processing / large networks / wireless sensor networks / simulation-application protocol / non-deterministic systems / actual radio hardware / sensor network systems / mote applications / metal barriers / low-level protocols / software implementation / simulation infrastructure / /
OperatingSystem
TinyOS / Linux / /
Organization
University of California / Harvard University University / UC Berkeley / /
Person
Matt Welsh / Nelson Lee / Philip Levis / /
Position
TinyOS scheduler / TinyOS task scheduler / author / normal TinyOS scheduler / programmer / general network simulator / author / and fixed it / probabilistic bit error model for the network / scheduler / Debugging General / /
TOSSIM: Accurate and Scalable Simulation of Entire TinyOS Applications Philip Levis†‡ , Nelson Lee† , Matt Welsh] , and David Culler†‡ {pal,culler}@cs.berkeley.edu, [removed] † ]