BBC news / X5 / ESPN / Microsoft Press / Citrix / New Riders Publishing / CNN / Dell / IBM / 3Com / pTHINC PDA / Lucent / Google / ICA / X51v PDAs / Intel / /
Country
United Kingdom / Scotland / / /
Facility
Opera Mini Browser / Computer Science Columbia University / Opera Mini / Terminal Server Edition / /
IndustryTerm
pervasive web access / simpler devices / web brows6 / heterogeneous devices / web applications / client devices / thinclient solution / Wireless PDAs / persistent web session model / latency accounting / uninterrupted web browsing experience / display rotation mechanism / faster web browsing performance / web browsing session / mobile wireless handheld devices / media content / desktop computing environment / crucial browser helper applications / web environment / screen real estate / web browsing / web browser / Web Conference / wire protocol / web browsing benchmark / ineffective and expensive compression algorithms / persistent web session / subsecond web page latencies / remote display protocol / helper applications / faster server hardware / display devices / wireless access point / video hardware / client processing time / mobile computing / web sessions / display-intensive web helper applications / heterogenous ecommerce environments / web session / richer web experience / energy consumption / mobile wireless devices / thin-client systems / web page banners / web browsing environments / web browser logic / tuned web browser / mobile devices / hardware/software environment / software investments / web server / wireless links / lowest average web browsing latency / slower average web page latencies / client/ server / desktop web applications / native web applications / mobile wireless web / mobile handheld devices / native web browsers / web content / desktop computing / wireless connection / fullscreen display / wireless network / web browsers / subsecond web page download latencies / watch sports highlights / client-side video hardware / web browser modifications / mobile web applications / mobile wireless web applications / window server / client processing costs / thin-client server / display systems / web browser environment / standalone wireless / web application benchmarks / mobile web users / Wireless Thin-Client Computing / respective remote display protocols / web access / displayed web content / web browsing performance / remote display server / wireless networks / consistent web browsing environment / web browser installation / web interface / desktop browsers / remote server / Web Text Page Load Test / desktop applications / faster networks / mobile wireless web browsing / even search / mobile wireless / display-intensive web applications / web browsing environment / InterNet Computing / web experiments / wireless networking / client processing / pervasive web / window systems / balance between client and server / Wireless Web Joeng Kim / client device / phone devices / greater web browsing functionality / web-related applications / Web Usability / handheld devices / form factor devices / web technologies / localized travel guides / Thin-client computing / Internet Explorer / desktop web browsers / thin-client computing system / zoom feature / desktop computing counterparts / /
OperatingSystem
XP / Windows XP / Microsoft Windows / Windows Mobile / Linux / Windows 2003 Server / /
Organization
Columbia University / New York / International World Wide Web Conference Committee / Jason Nieh Department / National Science Foundation / /
Person
B. Bohra / V / Ricardo A. Baratto / Jason Nieh / /
Position
video player / device driver / General / native player / driver / preemptive update scheduler / simple virtual display driver / /
Product
Fant / Mozilla Firefox 1.0.4 / Pocket PC PDAs / YV12 / /
ProgrammingLanguage
JavaScript / HTML / /
ProvinceOrState
Washington / Manitoba / /
Technology
RAM / ineffective and expensive compression algorithms / Linux / API / HTML / mobile devices / MPEG-1 / WAP / wireless access / resampling algorithm / Terminal Server / PDA / flash / remote display protocol / JPEG / wireless devices / client/ server / respective remote display protocols / streaming video / operating systems / Wi-Fi / ISDN / cellular telephone / GIF / wire protocol / thin client / web technologies / X Window System / mobile computing / http / caching / web server / Remote Desktop Protocol / /
pTHINC: A Thin-Client Architecture for Mobile Wireless Web Joeng Kim, Ricardo A. Baratto, and Jason Nieh Department of Computer Science Columbia University, New York, NY, USA {jk2438,