| Document Date: 1998-08-19 15:37:17
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Company IBM / Wireless LANs Wireless / T. J. Watson Research Laboratory / Overlay Networks / / Event FDA Phase / / Facility IBM T. J. Watson Research Laboratory / University of California at Berkeley / Beacon Packet / Soda Hall / / IndustryTerm packet-radio network / cellular wireless network / mobile networking / packet-based radio network / basestation infrastructure / bandwidthdelay product / Link-layer solutions / wireless overlays / higher network / snoop protocol / cellular networks / transport-aware link protocol / wireless bit-errors / ubiquitous computing / wireless connection / wireless access technologies / wireless network / switch between networks / wireless systems / web browsing / infrared in-room networks / network technology / wireless link / wireless losses / real-world networks / in-room and in-building networks / multi-hop wireless network / intolerant applications / lowest cost network / local and global network services / infrastructure services / larger bandwidth-delay product / homogeneous networks / basic solution / web access / Wireless LAN / constituent networks / local network services / ubiquitous localized networking / wireless networks / link-scheduling solution / present several novel solutions / generic solution / adaptive network services / radio-frequency wireless / wireless section / shared wireless / high-bandwidth wireless cells / wide-area data network / wireless interface / wireless hops / real-time video transcoding / Wireless Packet Losses TCP / logical network / base link-layer algorithm / symmetrical wired networks / higher bandwidth-delay product / satellite networks / private network / wireless subnet / bandwidth-delay product / asymmetric networks / distinct upstream and downstream networks / transport protocols / wireless data providers / wide-area networks / conventional wired networks / heterogeneous network / asymmetric network / power management / certain wireless networks / local-area networks / link-layer protocols / homogeneous network / ubiquitous network / search engines / physical networks / Wireless Client Internet Satellite Server / wireless networking / split-connection protocols / media-access / wireless control / metropolitan-area networks / e.g. basestation software / secondary network / mobile devices / overall solution / bandwidth networks / heterogeneous networks / Wireless links / computing / wireless cable-modem technology exhibit such asymmetry / link-aware transport protocol / nearby computing / basic in-room network / avoidance algorithms / “mobile” wired networks / simplest mobile devices / in-room services / enduser applications / / Organization University of California / ELN / / Person Hari Balakrishnan / Randy H. Katz Elan Amir / Mark Stemm / Armando Fox / Todd Hodes / Steven D. Gribble / / Position forward data transfer / Forward / / Product Snoop / BSs / Ste94 / data / our / / ProvinceOrState California / / Technology LAN / cable modem / Berkeley Snoop protocol / TCP-aware Snoop protocol / link-aware transport protocol / base link-layer algorithm / mobile device / UDP / link-layer protocols / 1.1 The Snoop Protocol The snoop protocol / WAN / half-duplex / transport protocols / mobile devices / ethernet / six protocols / DNS / avoidance algorithms / Mobile Computing / wireless access technologies / basic Snoop protocol / transport-aware link protocol / simulation / PDA / split-connection protocols / network technology / Snoop protocol / wireless cable / Wireless LAN / MAC protocols / /
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DRAFT submitted for publication — do not distribute A Network Architecture for Heterogeneous Mobile Computing Eric A. Brewer, Randy H. Katz Elan Amir, Hari Balakrishnan, Yatin Chawathe, Armando Fox, Steven D. Gribble,