Budapest / Connection / Seattle / Boston / Marina Del Rey / Madison / Atlanta / San Diego / /
Company
WLANs Wireless / Local Computer Networks / Fort Collins Co / OPNET Technologies / Introduction Wireless / Multihop Wireless Networks / /
Country
Hungary / Canada / /
Currency
USD / / /
Facility
Experience Building / Computer Science University of Calgary Email / Dartmouth College / University of Calgary / /
IndustryTerm
Internet access / wireless classroom experiment / wireless laptops / technology-literate users / Web Performance Over / wireless home / wireless classroom / Internet infrastructure / Web object payload / communications links / Web object size / wireless Web server / wireless Internet access / Wireless Web Servers / Wireless Fidelity / Wireless LAN / wireless Web access / Web client browsing behaviour / wireless campus / wireless web simulation study / classroom area network / wireless access point / campus-wide wireless network usage / Web client / Web object / modest Web browsing / Internet traffic / Internet protocol performance / wireless environments / wireless Internet evolution / wireless traffic measurement / user-perceived Web response time / wireless Web / Wireless Web Performance The / average Web object size / shared wireless channel / on-line access / simulated Web clients / Web objects / similar user-level Web performance / Web workloads / client web browsing / Internet Web Servers / Internet Protocol / communication protocols / Web server / wireless links / request-response application-layer protocol / prior Web performance measurements / connection-less network-layer protocol / simplistic Web workload / modest Web / classroom area networks / Wireless Measurement / wireless Internet context / wireless channel / wireless network measurements / realistic Web workloads / mobile networking / wireless classroom environment / local area network / connection-oriented transport-layer protocol / Wireless Data Network / user-level Web performance / Web client workloads / Web workload models / wireless network environment / Wireless Network / Web browsers / short-lived wireless ad hoc networks / Web object sizes / standalone wireless Web servers / Web server node / wireless Web traffic / wireless Internet capability / wireless networks / wireless office / Internet applications / communications protocols / Web servers / clientserver applications / client-server Web transactions / wireless network bottleneck / Web browsing model / channel access protocol / wireless network interface / Wireless Internet / Web clients / Wireless Web Performance / in many network / basic Web / Web workload model / metropolitan area network / wireless Internet technologies / /
NaturalFeature
MAC channel / /
Organization
Dartmouth College / Computer Science University of Calgary Email / Natural Sciences and Engineering Research Council of Canada / University of Calgary / /
Person
Rey / Kehinde Oladosu / Web Workloads / Carey Williamson / /
Position
General / Representative / workload model / simple model of Web / browsing model / general Internet access / /
ProvinceOrState
Washington / California / Georgia / Alberta / Wisconsin / Maryland / Massachusetts / /
Technology
TCP Protocol / channel access protocol / communications protocols / three communication protocols / connection-less network-layer protocol / operating system / Physical Layer Convergence Protocol / Wireless access / MAN / Wireless Fidelity / IEEE 802.11b protocol / LAN / HTTP protocol / Hypertext Transfer Protocol / IP / MTU / wireless LAN protocols / TCP/IP / pdf / Ethernet / ISDN / MAC channel access protocol / WLAN / request-response application-layer protocol / X windows system / HTTP / wireless Internet technologies / Simulation / connection-oriented transport-layer protocol / same MAC protocol / Web server / wireless LAN / /
Simulation evaluation of wireless web performance in an IEEE 802.11b classroom area network - Local Computer Networks, 2003. LCN '03. Proceedings. 28th Annual IEEE International Conference on