Ford / AT&T / Radio Networks Timothy J. Shepard BBN Systems / /
Facility
station D / Station A / Stanford University / Massachusetts Institute of Technology / Station B. / /
IndustryTerm
minimum-energy routing / packet radio systems / large systems / signal processing capabilities / actual network / power control algorithm / local-area networks / high processing gain / packet radio network / spread-spectrum processing gain / large-scale metropolitan-area packet radio network / large networks / Minimum-energy routes / large-scale packet radio systems / minimum-energy route / self-organizing packet radio network / connected network / large-scale packet radio network / packet radio network technology / minimum-energy / particular transmitter hardware / energy / /
MusicGroup
UHF / /
NaturalFeature
Shannon / /
Organization
AT&T Foundation / Advanced Research Projects Agency / Stanford University / eta / Massachusetts Institute of Technology / /
Person
Here / David Mills / /
Position
author / model / designer / model for communication / head / designer of channel access schemes / model of communication / /
ProvinceOrState
California / Massachusetts / /
SportsLeague
Stanford University / /
Technology
Ethernet / radiation / 1 Introduction Multihop packet radio network technology / GPS / power control algorithm / random access / simulation / routing algorithm / /