receiver centric transport protocols / queue management / open source operating systems / chosen web sites / Internet link / receivercentric transport protocols / web browsing / real time / appropriate congestion control algorithms / Web Transport Protocol / receiver-driven transport protocols / possible solutions / web experiment / congestion control algorithm / sender-centric protocols / sendercentric protocols / wireless networks / web-browsing simulation scenario / web-servers / receiver-centric protocols / wireless random losses / bandwidth-delay product / wireless environments / wireless web browsing / wireless errors / transport protocols / faster web browsing / web-server scenarios / possible solution / power management / web traffic / legitimate background web traffic / receiver-driven protocols / above protocols / optimized congestion control algorithm / wireless links / selfish Internet users / receiver-centric transport protocols / connection management / wireless access / web response times / sender-driven protocols / /
OperatingSystem
DoS / /
Organization
ELN / National Science Foundation / Northwestern University / CS Department / Rice University / /
Person
Edward W. Knightly / Aleksandar Kuzmanovic / /
Position
guard / first author / author / representative / /
Product
A9 / /
Technology
alpha / TFRC protocol / sender-driven protocols / sender-centric protocols / HTTP 1.1 / receiver-centric transport protocols / operating systems / receiver-centric protocols / transport protocols / mobile devices / receiver-driven transport protocols / congestion control algorithm / optimized congestion control algorithm / wireless access / Flow Control / appropriate congestion control algorithms / receivercentric transport protocols / HTTP / receiver-driven protocols / simulation / above protocols / RED-PD router / @rice.edu Abstract Receiver-driven TCP protocols / /