| 35 | | == 2) GENI WiMAX Deployment Tasks and Extensions == |
| 36 | | 3:35pm [[BR]] |
| 37 | | |
| 38 | | |
| 39 | | === 2.1) Co-exist with Clearwire === |
| | 35 | == 2) Spiral 5 Goals == |
| | 36 | Harry Mussman (GPO) [[BR]] |
| | 37 | |
| | 38 | a) Where necessary, complete deployments planned for Spiral 4: [[BR]] |
| | 39 | Get experimental frequency from the FCC, that does not interfere with Clearwire services [[BR]] |
| | 40 | Install Airspan base station(s), with local NetSpan management system [[BR]] |
| | 41 | Optional when multiple cells: backhaul control and data traffic to central equipment site [[BR]] |
| | 42 | Add OMF/OML structures, including LoginService [[BR]] |
| | 43 | Connect via switch to I2 backbone, via OF switches if there [[BR]] |
| | 44 | WiFi access point for dual-homing operating on custom PC node [[BR]] |
| | 45 | Vehicular mobile station operating on custom PC node [[BR]] |
| | 46 | Fixed “mobile station” for remote experimenters operating on custom PC node [[BR]] |
| | 47 | |
| | 48 | b) Plan local research experiments for Spiral 5 [[BR]] |
| | 49 | Focus on goals, configurations, steps [[BR]] |
| | 50 | Identify necessary extended site capabilities needed in Spiral 5 [[BR]] |
| | 51 | |
| | 52 | c) Complete deployments of necessary extended site capabilities needed in Spiral 5, from this list of options: (technology supplier or coordinator shown) [[BR]] |
| | 53 | Additional base station (Rutgers WINLAB) [[BR]] |
| | 54 | Custom PC nodes ("yellow nodes") (Rutgers WINLAB) [[BR]] |
| | 55 | Login Service plus OMF/OML services operating on custom PC node (Rutgers WINLAB) [[BR]] |
| | 56 | Connection to I2 (coordinated by BBN) [[BR]] |
| | 57 | GIMI I&M services (UMass Amherst/NYU Poly) [[BR]] |
| | 58 | Multiple base-station management service operating on custom PC node (Rutgers WINLAB) [[BR]] |
| | 59 | Data-path gateway service operating on custom PC node (Rutgers WINLAB) [[BR]] |
| | 60 | Mobility/handover/multi-homing service (coordinated by Wisconsin/Clemson) [[BR]] |
| | 61 | WiFi access point for dual-homing operating on custom PC node (Rutgers WINLAB) [[BR]] |
| | 62 | Vehicular mobile station operating on custom PC node (Rutgers WINLAB) [[BR]] |
| | 63 | Fixed “mobile station” for remote experimenters operating on custom PC node (Rutgers WINLAB) [[BR]] |
| | 64 | Unlocked Android WiMAX/WiFi handsets. (Wisconsin) [[BR]] |
| | 65 | |
| | 66 | d) Support unified GENI operations: [[BR]] |
| | 67 | Forward site monitoring information to the central monitoring server (Rutgers WINLAB) [[BR]] |
| | 68 | Cooperate with Rutgers WINLAB and Clearwire to avoid interference with Clearwire’s services [[BR]] |
| | 69 | When necessary, do an “emergency stop” of your transmissions. [[BR]] |
| | 70 | |
| | 71 | e) Complete and support experiments: [[BR]] |
| | 72 | Local research experiments [[BR]] |
| | 73 | Experiments by remote experimenters, including those at tutorials [[BR]] |
| | 74 | Classroom instruction experiments by students (NYU Poly) [[BR]] |
| | 75 | Multi-site experiments, e.g., MobilityFirst (Rutgers WINLAB) [[BR]] |
| | 76 | |
| | 77 | f) Concern: how can we get all of this done? [[BR]] |
| | 78 | Common platforms and services [[BR]] |
| | 79 | Clear plans, good schedules [[BR]] |
| | 80 | Close cooperation!! [[BR]] |
| | 81 | |
| | 82 | == 3) Engineering and Studies == |
| | 83 | |
| | 84 | |
| | 85 | |
| | 86 | === 3.1) Co-exist with Clearwire === |
| | 113 | |
| | 114 | === 3.2) Access to Sprint Broadband Services via MVNO Arrangements === |
| | 115 | 3:45pm [[BR]] |
| | 116 | Jim Martin (Clemson Univ) |
| | 117 | |
| | 118 | * Discussions with Sprint and their partner, Arterra |
| | 119 | |
| | 120 | * Considering approach as discussed in earlier WiNTeB workshop |
| | 121 | |
| | 122 | * Possible configuration |
| | 123 | |
| | 124 | |
| | 125 | |
| | 126 | === 3.3) Options for Introducing LTE Equipment === |
| | 127 | [[BR]] |
| | 128 | Suman Banerjee [[BR]] |
| | 129 | |
| | 130 | GEC14 discussion: [[BR]] |
| | 131 | Moderator: Harry Mussman (GPO) [[BR]] |
| | 132 | Ray Raychaudhuri (WINLAB) [[BR]] |
| | 133 | Ivan Seskar (WINLAB) [[BR]] |
| | 134 | Patrick Gossman (Wayne State) [http://groups.geni.net/geni/attachment/wiki/GEC13Agenda/WiMAXPlanning/The%20Case%20for%20LTE.pptx The Case for LTE] [[BR]] |
| | 135 | Gregg Tome (Airspan) [[BR]] |
| | 136 | |
| | 137 | GEC15 discussion group formed: [[BR]] |
| | 138 | Moderator: Suman Banerjee (Wisconsin) [[BR]] |
| | 139 | Ray Raychaudhuri (WINLAB) [[BR]] |
| | 140 | Ivan Seskar (WINLAB) [[BR]] |
| | 141 | Patrick Gossman (Wayne State) [[BR]] |
| | 142 | Bryan Lyles (NSF) [[BR]] |
| | 143 | Jacobus (Kobus) Van der Merwe (Utah) (new) [[BR]] |
| | 144 | Tod Sizer (Bell Labs/Alcatel-Lucent) (new) [[BR]] |
| | 145 | Walt Magnusen (Texas A&M) (new) [[BR]] |
| | 146 | Harry Mussman (GPO) [[BR]] |
| | 147 | |
| | 148 | What are our goals? [[BR]] |
| | 149 | |
| | 150 | How do we match available: base station equipment, on-air frequencies and mobile stations? [[BR]] |
| | 151 | |
| | 152 | [http://niviuk.free.fr/lte_band.php LTE frequency bands (from Ivan)] [[BR]] |
| | 153 | |
| | 154 | Gregg Tome: Airspan has equipment that operates at 2.6GHz (but this is outside of EBS band) [[BR]] |
| | 155 | |
| | 156 | Tod Sizer: Have used commercial small cells operating at low power, borrowed commercial spectrum, and commercial devices, in a lab setting. [[BR]] |
| | 157 | |
| | 158 | Ivan and Tod: There is available open-source back-end software (Fraunhoffer?) [[BR]] |
| | 159 | |
| | 160 | Walt: Has equipment to test for LTE in public safety, from General Dynamics/IPWireless [[BR]] |
| | 161 | |
| | 162 | What are next steps? [[BR]] |
| | 163 | * Tod to talk with Ray and Ivan [[BR]] |
| | 164 | * Suman to organize calls/meetings [[BR]] |
| | 165 | |
| | 166 | |
| | 167 | |
| | 168 | |
| | 169 | === 2.3) Integration of WiMAX wireless sites with ProtoGENI aggregates === |
| | 170 | |
| | 171 | |
| | 172 | |
| | 173 | |
| | 174 | |
| | 175 | |
| | 176 | == 2) GENI WiMAX Deployment Tasks and Extensions == |
| | 177 | 3:35pm [[BR]] |
| | 178 | |
