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? || |
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) |
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) (*?) |