CA Crossbow Inc. / Germany Moteiv Corporation / Intel / /
Facility
University St. Louis / /
IndustryTerm
storage chips / loaded systems / higher power device / energy constraints / simpler chips / platform developer / generation sensor network / chip software stacks / software resource / concurrent network services / software components / given hardware chip / level applications / energy efficient manner / software handles / non-trivial applications / composable high-level services / sensor node software / energy / abstractions as services / energy considerations / mote applications / software stack / energy cost / power management / optimized applications / large applications / hardware devices / radio chip / software initialization / radio software / sensor node operating systems / access to each hardware / sensor systems / recent low power wireless standard / bus protocols / software virtualization / software units consisting / sensor network / /
OperatingSystem
TinyOS / /
Organization
UCLA / OSKI’s Service / UC Berkeley / CA Washington University St. Louis / Stanford University Stanford / /
Person
Jan-Hinrich Hauer / Philip Buonadonnao / Robert Szewczyk / Ben Greenstein / David Cullero / Lama Nachman / Kevin Klues / Philip Levis / Martin Turon / David Gay / Vlado Handziski / Adam Wolisz / Jonathan Huio / Joe Polastre / Cory Sharp / /
Position
TimerMilliC VirtualizeTimerC AlarmToTimerC Scheduler The T2 scheduler / TinyOS scheduler / scheduler for later execution / nonpreemptive scheduler / scheduler / programmer / /
Product
T2 / T2 / a second generation sensor network operating system / TinyOS / /
ProgrammingLanguage
C / /
RadioStation
Radio Flash TDA5250 / /
Technology
15.4 chip / RAM / API / radio chip / given hardware chip / 4 Application Component MicaZ Component Chip / operating system / operating systems / SPI protocol / storage chips / 1.1 Chips / flash system / bus protocols / flash / underlying chips / network protocols / UART / /