Budapest / New York / Reading / Nagoya / Chicago / /
Company
Prentice-Hall / Computer Sciences / Analog Devices / IETF Unidirectional Link Routing Working Group / Micro ElectroMechanical Systems / Micro ElectroMechanica1 Systems / Compaq Palo Alto Western Research Laboratory / Radio Networks / /
Country
France / Japan / /
Currency
USD / /
Event
Bankruptcy / /
Facility
Compaq Palo Alto Western Research Laboratory / Multi-Sensor Behavior Building / University of California / /
IndustryTerm
communications capability / Beam-steering algorithms / Wireless Infrared System / candidate communication technologies / mobile networking / passive communications / Wireless Personal Communication Systems / mobile networking community / average transmitted energy / communications subsystemis / desktop computing / free-space optical network / energy-consuming / Wireless Sensor Project / pixel imaging array / active peer-to-peer communications / low power sensing devices / machinery / distributed sensor networks / feasible network / wireless communications / Wireless sensor networks / active communications / lower energy / optical technologies / imaging / signal-processing / multi-hop wireless networking protocol / energy / wireless sensors / stored energy / potential applications / satellite networks / intelligent processor / energy storage / Even modifying existing algorithms / Sensor networks / portable device / optical reflector technology / mobile networking protocols / compact imaging receiver / semiconductor processing chambers / millimeter-scale device / communications viewpoint / detection energy budget / important applications / communications architecture / communications systems / communications structure / emergent technology / radical new technology / highbandwidth satellite link / cellular network / passive communications techniques / approachesto traditional networking problems / hardware technology / Wireless Integrated Network / intelligent processing / insufficient energy / battery technology / low-complexity ad hoc multihop routing algorithms / slow-speed telephone links / prototype devices / free-space optical networks / sensor network / transmit passively using novel optical reflector technology / /
Organization
UCLA / MIT / University of California / Berkeley / K. S. J. Pister Department of Electrical Engineering and Computer Sciences / /
Person
Addison-Wesley Longman / Professors Pister / /
Product
Expedition / MEMSbaseddevices / /
ProgrammingLanguage
Joule / /
ProvinceOrState
New Jersey / New York / California / Massachusetts / /
Technology
semiconductor / optical reflector technology / radiation / peer-to-peer / Information Technology / CDMA / wireless communications / candidate communication technologies / low-complexity ad hoc multihop routing algorithms / MEMS technology / 1131 Unidirectional Link Routing Protocol / Random access / hardware technology / html / multi-hop wireless networking protocol / mobile networking protocols / time-division multiplexing / laser / lasers / 2 Smart Dust Technology / Even modifying existing algorithms / Beam-steering algorithms / battery technology / radio frequency / paging / emergent technology / TDMA / three key technologies / Network Protocols / integrated circuit / MAC protocols / /
Next Century Challenges: Mobile Networking for “Smart Dust” J. M. Kahn, R. H. Katz (ACM Fellow), K. S. J. Pister Department of Electrical Engineering