University of Massachusetts / Engineering Washington University / /
IndustryTerm
programmable routers / programmable networks / programmable network infrastructure / actual algorithm / aggregation processing / low-power wireless links / software tools / Packet merging algorithm / ubiquitous and pervasive computing / per-port network processors / low power devices / active networking / active and programmable networks / basic algorithm / multicast protocols / multicast routers / pervasive and ubiquitous computing / real-time transport protocol / data processing nodes / interconnection network / end-user applications / active networks / battlefield applications / sensor networks / active networking architectures / packet processing / aggregation algorithm / audio applications / sufficient processing resources / entertainment electronics / active routers / wireless links / low-power devices / programmable network / personal-area network / ad-hoc network / /
NaturalFeature
Three stream / /
OperatingSystem
Linux / NetBSD / /
Organization
Washington University / St. Louis / UC Berkeley / University of Massachusetts / Amherst / Department of Electrical and Computer Engineering / Department of Computer Science / /
Person
W. Pedrycz / Sumi Y. Choi / S. Karnouskos / A. Vasilakos / /
Position
speaker / /
ProgrammingLanguage
Java / /
Technology
semiconductor / network processors / real-time transport protocol / Pentium processors / Linux / Packet merging algorithm / ATM / 365 Aggregation algorithm / operating system / UDP / using multicast routers / operating systems / multicast protocols / actual algorithm / Java / extended algorithm / how real-time transport protocol / per-port network processors / Digital Object Identifier / 363 V. AGGREGATION ALGORITHM / aggregation algorithm / described algorithm / basic algorithm / /