Changes between Version 41 and Version 42 of GEC10WiMaxCampusDeployment


Ignore:
Timestamp:
04/05/11 13:02:50 (13 years ago)
Author:
hmussman@bbn.com
Comment:

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  • GEC10WiMaxCampusDeployment

    v41 v42  
    88Session Leader:  Harry Mussman (GPO, Raytheon BBN Technologies)  [[BR]]
    99
    10 This is a tentative agenda, and is expected to change.  [[BR]]
    1110
    1211== Summary ==
     
    172171|| Columbia University             || Jan Janak || Tall building, urban setting;  have had to move site || - || - || -  || -  ||
    173172|| Polytechnic Institute of NYU    || Thanasis Korakis  || Tall building, urban setting || Completed, up to 12Mbps DL, much less UL; many variations || ParkNet completed for GEC9;  two more being planned || - || - ||
    174 || University of California, Los Angeles || Giovanni Pau || Tall building, urban setting || Completed, up to 14Mbps DL and 2 - 3 Mb/s UL; connections to 300M (0.xmi) || Handover WiAMX to WiFi || - || - ||
    175 || University of Colorado, Boulder || Dirk Grunwald || x story building, campus setting || - || - || - || Studying U Colorado private network, built by Airspan;  starting data modeling using Anritsu MS2721B with WiMAX demodulator;  acquiring propagation based model from Airspan deployment ||
    176 || University of Massachusetts || Brian Lynn || Both omni and sector antennas planned for top of 17-story building; prelim shading analysis completed; expect shading near building, but CS building not in shadow, approx 0.5 mi away  || - || - || Would like coverage to busses in downtown Amherst, 1 mi away;  can this be done? ||
     173|| University of California, Los Angeles || Giovanni Pau || Tall building, urban setting || Completed, up to 14Mbps DL and 2 - 3 Mb/s UL; connections to 300M (0.xmi) || Handover WiMAX to WiFi completed || - || - ||
     174|| University of Colorado, Boulder || Dirk Grunwald || ? story building, campus setting || - || - || - || Studying U Colorado private network, built by Airspan;  starting data modeling using Anritsu MS2721B with WiMAX demodulator;  acquiring propagation based model from Airspan deployment ||
     175|| University of Massachusetts || Brian Lynn || Both omni and sector antennas planned for top of 17-story building; prelim shading analysis completed; expect shading near building, but CS building not in shadow, approx 0.5 mi away  || - || - || - || Would like coverage to busses in downtown Amherst, 1 mi away;  can this be done? ||
    177176|| University of Wisconsin, Madison ||Derek Meyer || 150 ft high, campus setting || Seen connectivity up to 300 yd || - || - || Existing Cisco system:  Connectivity to buses, equipped with large client antenna, up to 500M, for coverage over 1.25 sq mi. ||
    178 || BBN Technologies || Manu Gosain || 90 ft high, urban setting || Good throughput (up to 14Mb/s DL and 1 - 2 Mb/s UL) to 0.25 mi, but not yet further || Range and throughput, with scripts || For MIT and possibly Clemson || - ||
     177|| BBN Technologies || Manu Gosain || 90 ft high, urban/suburban setting || Good throughput (up to 14Mb/s DL and 1 - 2 Mb/s UL) to 0.25 mi, but not yet further || Range and throughput, with scripts || For MIT and possibly Clemson || - ||
    179178|| Rutgers University || Ivan Seskar || 1 story building, suburban setting || RSSI measurements completed || ParkNet || Possibly Clemson || When will install be completed on Busch campus? ||
    180179
     
    187186=== Spiral 3 Roadmap  ===
    188187
     188  This roadmap shows the original and *current goals that apply to the GENI WiMAX projects:
     189
     190
    189191  Install and bring up WiMAX base station kit, including the ASN Gateway. (GEC10, or earlier)
    190192
     
    195197  Operate and maintain the WiMax BS and the related GENI controller, using ORBIT Management Framework (OMF), with support for remote access by GENI users. (GEC11)
    196198
    197   Present a mobility demo using WiMAX base station node, including the ASN Gateway, a Linux PC with Intel WiMAX modem card, or the dual-mode vehicular nodes, supporting both WiFi and WiMAX, required for your experiments, and a local instance of OMF/OML. (GEC10)  (GEC11)
     199  Present a mobility demo using WiMAX base station node, including the ASN Gateway, a Linux PC with Intel WiMAX modem card, or the dual-mode vehicular nodes, supporting both WiFi and WiMAX, required for your experiments, and a local instance of OMF/OML. (GEC10)  (*GEC11)
    198200
    199201  Install and bring up experiment-controlled L2 (or OpenFlow) switch, to provide enhanced connectivity from the WiMAX testbed to the GENI backbone. (GEC11)  (GEC12)
    200202
    201   Install and bring up Virtual Base Station (vBS)server, to support multiple simultaneous experiments (slicing) on the GENI WiMAX base station node. (GEC11)  (?)
    202 
    203   Present mobility and/or application demos/experiments, showing support for multiple simultaneous experiments (slicing) of the GENI WiMAX base station node, and remote access by GENI users, utilizing experiment-controlled L2 (or OpenFlow) switch, and Virtual Base Station (vBS) server. (GEC11)  (?)
     203  Install and bring up Virtual Base Station (vBS)server, to support multiple simultaneous experiments (slicing) on the GENI WiMAX base station node. (GEC11)  (*?)
     204
     205  Present mobility and/or application demos/experiments, showing support for multiple simultaneous experiments (slicing) of the GENI WiMAX base station node, and remote access by GENI users, utilizing experiment-controlled L2 (or OpenFlow) switch, and Virtual Base Station (vBS) server. (GEC11)  (*?)
    204206
    205207