Austin / Boston / Baltimore / New York / Vancouver / Los Angeles / London / San Jose / /
Company
B. Travel / ACM Wireless Networks / Wireless Sensor Networks / US Army Research Laboratory / I. I NTRODUCTION Wireless / /
Country
United States / Canada / / /
Event
FDA Phase / /
Facility
Electronic Engineering Imperial College / US Army Research Laboratory / /
IndustryTerm
shorter travel delay / realtime routing protocol / travel delay / sensor-actuator networks / source-destination travel delay / routing so that network / large wireless ad hoc network / real-time communication architecture / packet travel time / packet networks / congestion control protocol / implicit prioritized access protocol / Wireless Networks / congestion control algorithms / average travel delay / energy efficient routing / spatiotemporal multicast protocol / real-time communication protocols / on-line classification / sensor networks / reserved wireless frequency / randomized algorithm / packet travel delays / travel delays / travel time / packet travel delay / sensor network / /
NaturalFeature
K. Fall / /
Organization
National Science Foundation / U.S. Government / UK Government / Sensor Networks Erol Gelenbe and Edith C.-H. Ngai Department of Electrical and Electronic Engineering Imperial College London / UK Ministry of Defence / /
Position
mathematical model for analyzing the packet travel delay / /
Product
QoS / /
ProvinceOrState
Maryland / California / Massachusetts / /
Technology
proposed RRR algorithm / congestion control protocol / congestion control algorithms / implicit prioritized access protocol / Quality of Service / real-time communication protocols / realtime routing protocol / spatiotemporal multicast protocol / RRR algorithm / Mobile Computing / paging / simulation / routing algorithm / /