Changes between Version 11 and Version 12 of GEC16Agenda/WiMAX-Developers


Ignore:
Timestamp:
03/15/13 11:53:17 (11 years ago)
Author:
hmussman@bbn.com
Comment:

--

Legend:

Unmodified
Added
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  • GEC16Agenda/WiMAX-Developers

    v11 v12  
    264264
    265265
    266 === 2.5) Add OMF/OML to WiMAX sites, and make sites accessible to experimenters ===
     266
     267
     268=== 4.4)  Mobility/handover/multi-homing services  ===
    2672694:25pm  [[BR]]
    268 Fraida Fund (NYU Poly), Manu Gosain (GPO), Derek Meyer (Wisconsin), [[BR]]
    269 
    270  * Equip a WiMAX site with full OMF/OML capabilities, installing on VMs  [[BR]]
    271  * Include Login Service for Remote Users [[BR]]
    272 
    273  * NYU Poly configuration:  [[BR]]
    274 
    275  * 1) physical host acting as base station controller, runs the asn-gw and wimaxrf AM. [[BR]]
    276   * (1) and (2) run Ubuntu, (3) runs Windows.  [[BR]]
    277   * It has Ethernet connections to the NEC IDU, NYU-Poly network (and Internet), and very soon GENI backbone (campus IS just informed me that they will be testing that tomorrow).  [[BR]]
    278   * We have firewall rules set up so this host only accepts traffic from host (2) on the wimaxrf AM port. This allows us to make sure that only users with a current reservation can configure the BS. [[BR]]
    279 
    280  * 2) physical host running OMF 5.3 AM, EC, and some other services that are useful for the testbed. [[BR]]
    281   * (1) and (2) run Ubuntu, (3) runs Windows.  [[BR]]
    282   * It has Ethernet connections to NYU-Poly network (internet) and OMF control network.  [[BR]]
    283   * This is the host that testbed users log on to. We have firewall rules set up on this host so that only users with a current reservation can configure the BS or communicate with the testbed nodes. [[BR]]
    284 
    285  * 3) physical host that serves our group website and the reservation system for the testbed. It's connected to the NYU-Poly network (and Internet)  [[BR]]
    286   * (1) and (2) run Ubuntu, (3) runs Windows. [[BR]]
    287 
    288  * Our testbed nodes are scattered throughout several CS labs and research areas (not part of our group).  [[BR]]
    289   * They are connected to the pre-existing Ethernet jacks in the walls and floors of those rooms, which all go back to a CS server room, where we patch them through to our own (non-openflow) switch for the control network. [[BR]]
    290   * We do have an openflow switch that we plan to deploy somewhere at some point. [[BR]]
    291 
    292 
    293 
    294 
    295  * BBN experience  (need summary)  [[BR]]
    296 
    297  * [http://groups.geni.net/geni/attachment/wiki/GEC14Agenda/WiMAXDeploymentsAndExperiments/vmsetup_at_uwmadison.pdf Wisconsin configuration] [[BR]]
    298 
    299  * All services are running on the same physical machine. [[BR]]
    300   * HP server that came with the base station.  [[BR]]
    301   * The base OS is Debian and virtual machines using for the services (Virtualbox)  [[BR]]
    302 
    303  * Physical machine network connections: [[BR]]
    304   * Eth0 (128.105.22.xxx): University network (internet) [[BR]]
    305   * Eth1 (10.3.8.126): Network to IDU of base station [[BR]]
    306   * Eth2 (10.0.0.1): Control network for omf [[BR]]
    307   * Eth3: Connected to openflow (physically, but not enabled until we can get a vlan tag to GENI backbone) [[BR]]
    308 
    309  * Base operating system:  Debian [[BR]]
    310 
    311  * Virtualbox guests: [[BR]]
    312   * 1.  Ubuntu 9.04 ->  aggmgr 5.2 ->  wimaxrf service [[BR]]
    313   * Eth0 (128.105.22.xxx):  bridged interface to university network [[BR]]
    314   * Eth1(10.3.8.254):  bridged interface to base station network [[BR]]
    315 
    316   * 2.  Ubuntu 10.04 ->  aggmgr 5.3 ->  cmcStub, Frisbee, inventory, pxe, result, saveimage [[BR]]
    317   * Also expctl, resctl, and xmpp on same machine [[BR]]
    318   * Eth0 (128.105.22.xxx): bridged interface to university network [[BR]]
    319   * Eth1 (10.0.0.200): bridged interface to control network [[BR]]
    320 
    321 
    322 
    323  * Coming:  plan to federate with ProtoGENI cluster  [[BR]]
    324   *  Reference: [http://www.tridentcom.org/2012/program  TridentCom 2012]  :  "Federating wired and wireless test facilities through Emulab and OMF: the iLab.t use case", Stefan Bouckaert (IBBT - Ghent University)  [[BR]]
    325   *  BBN is exploring how to utilize this to better integrate WiMAX sites into GENI, and be able to utilize the GENI AM API to assgin resources.  [[BR]]
    326 
    327 
    328 
    329 
    330 === 2.6)  Connect WiMAX sites to I2 backbone network, to support multi-site experiments, and maintain connections ===
    331 4:10pm  [[BR]]
    332 Manu Gosain (GPO), Fraida Fund (NYU Poly), Ivan Seskar (WINLAB)  [[BR]]
    333 
    334 * Connect a WiMAX site to the GENI I2 backbone network  [[BR]]
    335   * Update WiMAX RF Agg Mgr to map MS groups into VLAN tags [[BR]]
    336   * Add switch  [[BR]]
    337   * Connect switch to I2 backbone  [[BR]]
    338   * VLAN connections from each site to "L2 router" at WINLAB   [[BR]]
    339 
    340 [http://groups.geni.net/geni/attachment/wiki/GEC14Agenda/WiMAXDeploymentsAndExperiments/WiMAXSiteConnectivity%20%200710wimaxmeeting14gec.ppt slide]  [[BR]]
    341 
    342  * When can other WiMAX sites can be added?  [[BR]]
    343   * UCLA; has physical connection;  needs to configure;  when?  [[BR]]
    344   * Wisconsin;  when?  [[BR]]
    345   * Clemson;  when?  [[BR]]
    346   * UMass Amherst; has physical connection;  needs to configure;  when?  [[BR]]
    347 
    348  * How is core network configured to support multi-site experiments?   [[BR]]
    349 
    350  * How is new Data-path GW Srvc use at site to interface with core network? [[BR]]
    351 
    352 What are next steps?  (Manu Gosain)  [[BR]]
    353  * Establish planned configuration  (due 11/15/12) [[BR]]
    354  * Establish plan with schedule to connect all sites  (due 11/15/12) [[BR]]
    355  * Track connection of sites, and assist them as needed  [[BR]]
    356 
    357 
    358 === 2.7)  Status of GENI WiMAX site deployments ===
    359 4:20pm  [[BR]]
    360 Manu Gosain (GPO) [[BR]]
    361 
    362 
    363 === 2.8)  Mobility/handover/multi-homing services  ===
    364 4:30pm  [[BR]]
    365270Parmesh Ramanathan  (Wisconsin)  [[BR]]
    366271
     
    398303
    399304
    400 === 2.9)  Options for introducing LTE equipment ===
     305=== 4.5)  WiScape Measurement Framework ===
     3064:xxpm  [[BR]]
     307Suman Banerjee (Univ Wisc)
     308
     309 * Overview of current functions  [[BR]]
     310  * [http://groups.geni.net/geni/attachment/wiki/GEC15Agenda/WiMAXUpdate/mse-banerjee.pdf  slides]  [[BR]]
     311  * A data measurement framework with APIs, that the clients and the measurement server expose  [[BR]]
     312  * Clients (e.g., on an Android device) measure network performance, and then report measurements to the server  [[BR]]
     313  * Measurement include latency, loss, throughput, TCP or UDP  [[BR]]
     314  * Provides feedback to network selection  [[BR]]
     315  * [http://wiscape.wings.cs.wisc.edu/new_wiscape/index.php  link to WiScape]  [[BR]]
     316
     317What are next steps?   [[BR]]
     318 * Work with handover project, to see if WiScape measurement framework can be part of a GENI mobility/handover/multi-homing solution  [[BR]]
     319
     320
     321
     322=== 4.6)  Mobile Station using Android handset ===
    4013234:35pm  [[BR]]
    402 Suman Banerjee  (Wisconsin) [[BR]]
    403 
    404 GEC14 discussion:  [[BR]]
    405  Moderator:  Harry Mussman  (GPO)  [[BR]]
    406  Ray Raychaudhuri  (WINLAB)  [[BR]]
    407  Ivan Seskar  (WINLAB)  [[BR]]
    408  Patrick Gossman (Wayne State) [http://groups.geni.net/geni/attachment/wiki/GEC13Agenda/WiMAXPlanning/The%20Case%20for%20LTE.pptx  The Case for LTE]  [[BR]]
    409  Gregg Tome (Airspan)  [[BR]]
    410 
    411 Discussion group formed: [[BR]]
    412  Moderator:  Suman Banerjee  (Wisconsin) [[BR]]
    413  Ray Raychaudhuri  (WINLAB)  [[BR]]
    414  Ivan Seskar  (WINLAB)  [[BR]]
    415  Patrick Gossman (Wayne State) [[BR]]
    416  Bryan Lyles (NSF)  [[BR]]
    417  Jacobus (Kobus) Van der Merwe (Utah)  (new)   [[BR]]
    418  Tod Sizer (Bell Labs/Alcatel-Lucent)  (new)   [[BR]]
    419  Walt Magnusen (Texas A&M)  (new)  [[BR]]
    420  Harry Mussman  (GPO)  [[BR]]
    421 
    422 What are our goals?   [[BR]]
    423 
    424 How do we match available:  base station equipment, on-air frequencies and mobile stations? [[BR]]
    425 
    426 [http://niviuk.free.fr/lte_band.php  LTE frequency bands (from Ivan)] [[BR]]
    427 
    428 Gregg Tome:  Airspan has equipment that operates at 2.6GHz (but this is outside of EBS band) [[BR]]
    429 
    430 Tod Sizer:  Have used commercial small cells operating at low power, borrowed commercial spectrum, and commercial devices, in a lab setting. [[BR]]
    431 
    432 Ivan and Tod:  There is available open-source back-end software (Fraunhoffer?) [[BR]]
    433 
    434 Walt:  Has equipment to test for LTE in public safety, from General Dynamics/IPWireless  [[BR]]
    435 
    436 What are next steps?   [[BR]]
    437  *  Tod to talk with Ray and Ivan [[BR]]
    438  *  Suman to organize calls/meetings   [[BR]]
    439 
    440 
    441 === 2.10)  Mobile Station using Android handset ===
    442 4:40pm  [[BR]]
    443324Derek Meyer (Univ Wisconsin)[[BR]]
    444325
     
    460341 * Maintain relationship with WSA Distributing  [[BR]]
    461342
    462 === 2.11)  Access to Commercial Broadband Services via MVNO Arrangements ===
     343
     344
     345
     346
     347=== 4.7)  Introducing GIMI tools ===
     3484:xxpm  [[BR]]
     349Fraida Fund  (NYU Poly)  [[BR]]
     350
     351
     352
     353
     354=== 4.8) Add OMF/OML to WiMAX sites, and make sites accessible to experimenters ===
     3554:xxpm  [[BR]]
     356Fraida Fund (NYU Poly), Manu Gosain (GPO), Derek Meyer (Wisconsin), [[BR]]
     357
     358 * Equip a WiMAX site with full OMF/OML capabilities, installing on VMs  [[BR]]
     359 * Include Login Service for Remote Users [[BR]]
     360
     361 * NYU Poly configuration:  [[BR]]
     362
     363 * 1) physical host acting as base station controller, runs the asn-gw and wimaxrf AM. [[BR]]
     364  * (1) and (2) run Ubuntu, (3) runs Windows.  [[BR]]
     365  * It has Ethernet connections to the NEC IDU, NYU-Poly network (and Internet), and very soon GENI backbone (campus IS just informed me that they will be testing that tomorrow).  [[BR]]
     366  * We have firewall rules set up so this host only accepts traffic from host (2) on the wimaxrf AM port. This allows us to make sure that only users with a current reservation can configure the BS. [[BR]]
     367
     368 * 2) physical host running OMF 5.3 AM, EC, and some other services that are useful for the testbed. [[BR]]
     369  * (1) and (2) run Ubuntu, (3) runs Windows.  [[BR]]
     370  * It has Ethernet connections to NYU-Poly network (internet) and OMF control network.  [[BR]]
     371  * This is the host that testbed users log on to. We have firewall rules set up on this host so that only users with a current reservation can configure the BS or communicate with the testbed nodes. [[BR]]
     372
     373 * 3) physical host that serves our group website and the reservation system for the testbed. It's connected to the NYU-Poly network (and Internet)  [[BR]]
     374  * (1) and (2) run Ubuntu, (3) runs Windows. [[BR]]
     375
     376 * Our testbed nodes are scattered throughout several CS labs and research areas (not part of our group).  [[BR]]
     377  * They are connected to the pre-existing Ethernet jacks in the walls and floors of those rooms, which all go back to a CS server room, where we patch them through to our own (non-openflow) switch for the control network. [[BR]]
     378  * We do have an openflow switch that we plan to deploy somewhere at some point. [[BR]]
     379
     380
     381
     382
     383 * BBN experience  (need summary)  [[BR]]
     384
     385 * [http://groups.geni.net/geni/attachment/wiki/GEC14Agenda/WiMAXDeploymentsAndExperiments/vmsetup_at_uwmadison.pdf Wisconsin configuration] [[BR]]
     386
     387 * All services are running on the same physical machine. [[BR]]
     388  * HP server that came with the base station.  [[BR]]
     389  * The base OS is Debian and virtual machines using for the services (Virtualbox)  [[BR]]
     390
     391 * Physical machine network connections: [[BR]]
     392  * Eth0 (128.105.22.xxx): University network (internet) [[BR]]
     393  * Eth1 (10.3.8.126): Network to IDU of base station [[BR]]
     394  * Eth2 (10.0.0.1): Control network for omf [[BR]]
     395  * Eth3: Connected to openflow (physically, but not enabled until we can get a vlan tag to GENI backbone) [[BR]]
     396
     397 * Base operating system:  Debian [[BR]]
     398
     399 * Virtualbox guests: [[BR]]
     400  * 1.  Ubuntu 9.04 ->  aggmgr 5.2 ->  wimaxrf service [[BR]]
     401  * Eth0 (128.105.22.xxx):  bridged interface to university network [[BR]]
     402  * Eth1(10.3.8.254):  bridged interface to base station network [[BR]]
     403
     404  * 2.  Ubuntu 10.04 ->  aggmgr 5.3 ->  cmcStub, Frisbee, inventory, pxe, result, saveimage [[BR]]
     405  * Also expctl, resctl, and xmpp on same machine [[BR]]
     406  * Eth0 (128.105.22.xxx): bridged interface to university network [[BR]]
     407  * Eth1 (10.0.0.200): bridged interface to control network [[BR]]
     408
     409
     410
     411 * Coming:  plan to federate with ProtoGENI cluster  [[BR]]
     412  *  Reference: [http://www.tridentcom.org/2012/program  TridentCom 2012]  :  "Federating wired and wireless test facilities through Emulab and OMF: the iLab.t use case", Stefan Bouckaert (IBBT - Ghent University)  [[BR]]
     413  *  BBN is exploring how to utilize this to better integrate WiMAX sites into GENI, and be able to utilize the GENI AM API to assgin resources.  [[BR]]
     414
     415
     416
     417
     418=== 4.9)  Connect WiMAX sites to I2 backbone network, to support multi-site experiments, and maintain connections ===
     4194:xxpm  [[BR]]
     420Manu Gosain (GPO), Fraida Fund (NYU Poly), Ivan Seskar (WINLAB)  [[BR]]
     421
     422* Connect a WiMAX site to the GENI I2 backbone network  [[BR]]
     423  * Update WiMAX RF Agg Mgr to map MS groups into VLAN tags [[BR]]
     424  * Add switch  [[BR]]
     425  * Connect switch to I2 backbone  [[BR]]
     426  * VLAN connections from each site to "L2 router" at WINLAB   [[BR]]
     427
     428[http://groups.geni.net/geni/attachment/wiki/GEC14Agenda/WiMAXDeploymentsAndExperiments/WiMAXSiteConnectivity%20%200710wimaxmeeting14gec.ppt slide]  [[BR]]
     429
     430 * When can other WiMAX sites can be added?  [[BR]]
     431  * UCLA; has physical connection;  needs to configure;  when?  [[BR]]
     432  * Wisconsin;  when?  [[BR]]
     433  * Clemson;  when?  [[BR]]
     434  * UMass Amherst; has physical connection;  needs to configure;  when?  [[BR]]
     435
     436 * How is core network configured to support multi-site experiments?   [[BR]]
     437
     438 * How is new Data-path GW Srvc use at site to interface with core network? [[BR]]
     439
     440What are next steps?  (Manu Gosain)  [[BR]]
     441 * Establish planned configuration  (due 11/15/12) [[BR]]
     442 * Establish plan with schedule to connect all sites  (due 11/15/12) [[BR]]
     443 * Track connection of sites, and assist them as needed  [[BR]]
     444
     445
     446
     447
     448== 5)  Status of GENI WiMAX site deployments ==
    4634494:45pm  [[BR]]
    464 Jim Martin  (Clemson Univ)  [[BR]]
    465 
    466 
    467 
    468 
    469 === 2.12)  Introducing GIMI tools ===
    470 4:50pm  [[BR]]
    471 Fraida Fund  (NYU Poly)  [[BR]]
    472 
    473 
    474 
    475 
    476 
    477 
    478 
    479 
    480 === 2.13)  Lab Experiments to Teach Wireless Basics ===
    481 4:55pm  [[BR]]
     450Manu Gosain (GPO) [[BR]]
     451
     452
     453
     454== 6)  GENI WiMAX Experiments, Demos and Tutorials ==
     455
     456=== 6.1)  Lab Experiments to Teach Wireless Basics ===
     457xxpm  [[BR]]
    482458Thanasis Korakis  (NYU Poly)  [[BR]]
    483459
     
    490466
    491467
    492 === 2.14)  Multiple Site Experiment:  Mobility First ===
    493 
    494 
     468=== 6.2)  Multiple Site Experiment:  Mobility First ===
    495469GEC14 presentation:  [[BR]]
    496470Kiran Nagaraja (WINLAB)  [[BR]]
     
    507481Consider these as possible sites by GEC13:  WINLAB;  BBN;  NYU Poly;  UCLA;  Colorado.  [[BR]]
    508482
    509 
    510 === 2.xx)  WiScape Measurement Framework ===
    511 4:20pm  [[BR]]
    512 Suman Banerjee (Univ Wisc)
    513 
    514  * Overview of current functions  [[BR]]
    515   * [http://groups.geni.net/geni/attachment/wiki/GEC15Agenda/WiMAXUpdate/mse-banerjee.pdf  slides]  [[BR]]
    516   * A data measurement framework with APIs, that the clients and the measurement server expose  [[BR]]
    517   * Clients (e.g., on an Android device) measure network performance, and then report measurements to the server  [[BR]]
    518   * Measurement include latency, loss, throughput, TCP or UDP  [[BR]]
    519   * Provides feedback to network selection  [[BR]]
    520   * [http://wiscape.wings.cs.wisc.edu/new_wiscape/index.php  link to WiScape]  [[BR]]
    521 
    522 What are next steps?   [[BR]]
    523  * Work with handover project, to see if WiScape measurement framework can be part of a GENI mobility/handover/multi-homing solution  [[BR]]
    524 
    525 
    526 == 3)  GENI WiMAX site deployment status and local experiment plans ==
    527 3:15pm  [[BR]]
    528 
    529 Each site will indicate:  [[BR]]
    530 
    531 a)  Status of deployments planned for Spiral 4:  [[BR]]
    532 
    533 b)  Plan for local research experiments in Spiral 5:  [[BR]]
    534 
    535 c)  Plan to complete deployments of extended site capabilities needed in Spiral 5:  [[BR]]
    536 
    537 d)  Support for unified GENI operations:  [[BR]]
    538 
    539 e)  Support for experiments:  [[BR]]
    540 
    541 
    542 === 3.1)  BBN Site Extension Plan ===
    543 3:15pm  [[BR]]
    544 Manu Gosain (GPO)  [[BR]]
    545 
    546 GEC14 status:  [[BR]]
    547  [http://groups.geni.net/geni/attachment/wiki/GEC14Agenda/WiMAXDeploymentsAndExperiments/BBNStatus%200710wimaxmeeting14gec.ppt slide]  [[BR]]
    548 
    549 GEC15 status:  [[BR]]
    550 a)  Status of deployments planned for Spiral 4:  [[BR]]
    551  Get experimental frequency from the FCC, that does not interfere with Clearwire services   (yes, new frequency) [[BR]]
    552  Install Airspan base station(s), with local NetSpan management system   (yes) [[BR]]
    553  Add OMF/OML structures, including LoginService  (yes)  [[BR]]
    554  Connect via switch to I2 backbone, via OF switches if there  (yes) [[BR]]
    555  WiFi access point for dual-homing operating on custom PC node  (partial)  [[BR]]
    556  Fixed “mobile station” for remote experimenters operating on custom PC node (yes)  [[BR]]
    557 
    558 b)  Plan for local research experiments in Spiral 5:   [[BR]]
    559  Repeat throughput and range, comparing NEC and Airspan [[BR]]
    560 
    561 c)  Plan to complete deployments of extended site capabilities needed in Spiral 5:   [[BR]]
    562  Custom PC nodes  ("yellow nodes")  (Rutgers WINLAB)  [[BR]]
    563  GIMI I&M services (UMass Amherst/NYU Poly)  [[BR]]
    564  Multiple base-station management service operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    565  Data-path gateway service operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    566  Mobility/handover/multi-homing service  (coordinated by Wisconsin/Clemson)   [[BR]]
    567  WiFi access point for dual-homing operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    568  Unlocked Android WiMAX/WiFi handsets.   (Wisconsin)  [[BR]]
    569 
    570 d)  Support for unified GENI operations:  [[BR]]
    571  Forward site monitoring information to the central monitoring server  (Rutgers WINLAB)  [[BR]]
    572  Cooperate with Rutgers WINLAB and Clearwire to avoid interference with Clearwire’s services [[BR]]
    573  When necessary, do an “emergency stop” of your transmissions.  [[BR]]
    574 
    575 e)  Support for experiments:  [[BR]]
    576  Local research experiments [[BR]]
    577  Experiments by remote experimenters, including those at tutorials  [[BR]]
    578  Classroom instruction experiments by students   (NYU Poly)  [[BR]]
    579  Multi-site experiments, e.g., MobilityFirst  (Rutgers WINLAB) [[BR]]
    580 
    581 
    582 
    583 === 3.2)  WINLAB/Rutgers University Site Extension Plan ===
    584 3:20pm  [[BR]]
    585 Ivan Seskar (WINLAB) [[BR]]
    586 
    587 GEC14 status: [[BR]]
    588  * Status  [[BR]]
    589   * Bringing Airspan on Busch campus  [[BR]]
    590   * Continuing remote access to BSs [[BR]]
    591   * Connected to I2 backbone network [[BR]]
    592 
    593  * Local and remote experiments [[BR]]
    594 
    595 GEC15 status:  [[BR]]
    596  * WINLAB site:  [[BR]]
    597   1)  NEC base station, with fixed mobile station [[BR]]
    598   2)  Sandbox:  NEC base station, connected via programmable RF attenuator to fixed mobile station [[BR]]
    599 
    600  * Busch campus site:  [[BR]]
    601   3)  Airspan base station, for use by students on campus [[BR]]
    602 
    603 a)  Status of deployments planned for Spiral 4:  [[BR]]
    604  Install Airspan base station(s), with local NetSpan management system  (yes) [[BR]]
    605  Optional when multiple cells:  backhaul control and data traffic to central equipment site (yes) [[BR]]
    606  Add OMF/OML structures, including LoginService  (yes) [[BR]]
    607  Connect via switch to I2 backbone, via OF switches if there  (yes) [[BR]]
    608  WiFi access point for dual-homing operating on custom PC node   (yes)  [[BR]]
    609  Vehicular mobile station operating on custom PC node  (yes)  [[BR]]
    610  Fixed “mobile station” for remote experimenters operating on custom PC node  (yes)  [[BR]]
    611 
    612 b)  Plan for local research experiments in Spiral 5:   [[BR]]
    613  What is new?  [[BR]]
    614 
    615 c)  Plan to complete deployments of extended site capabilities needed in Spiral 5:   [[BR]]
    616  Additional base station  (Rutgers WINLAB)  [[BR]]
    617  GIMI I&M services (UMass Amherst/NYU Poly)  [[BR]]
    618  Multiple base-station management service operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    619  Data-path gateway service operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    620  Mobility/handover/multi-homing service  (coordinated by Wisconsin/Clemson)   [[BR]]
    621  Unlocked Android WiMAX/WiFi handsets.   (Wisconsin)  [[BR]]
    622 
    623 d)  Support for unified GENI operations:  [[BR]]
    624  Forward site monitoring information to the central monitoring server  (Rutgers WINLAB)  [[BR]]
    625  Cooperate with Rutgers WINLAB and Clearwire to avoid interference with Clearwire’s services [[BR]]
    626  When necessary, do an “emergency stop” of your transmissions.  [[BR]]
    627 
    628 e)  Support for experiments:  [[BR]]
    629  Local research experiments [[BR]]
    630  Experiments by remote experimenters, including those at tutorials  [[BR]]
    631  Classroom instruction experiments by students   (NYU Poly)  [[BR]]
    632  Multi-site experiments, e.g., MobilityFirst  (Rutgers WINLAB) [[BR]]
    633 
    634 
    635 
    636 === 3.3)  UCLA Site Extension Plans ===
    637 3:25pm  [[BR]]
    638 Giovanni Pau, Mario Gerla (UCLA) [[BR]]
    639 
    640 GEC14 status:  [[BR]]
    641  * [http://groups.geni.net/geni/attachment/wiki/GEC14Agenda/WiMAXDeploymentsAndExperiments/ucla%20%20%202012-July-10-GEC.pptx  slides]   [[BR]]
    642 
    643  * Extension plan  [[BR]]
    644   * Add x1 Airspan BS near UCLA dormitories;  possibly other BSs.  [[BR]] 
    645   * x1  (2510 Mid:  2560MHz to 2630MHz)  [[BR]]
    646 
    647  * License [[BR]]
    648   * Renewed Experimental License [[BR]]
    649   * Coordination with Clearwire Started [[BR]]
    650 
    651  
    652 GEC15 status:
    653  * [http://groups.geni.net/geni/attachment/wiki/GEC15Agenda/WiMAXUpdate/2012-July-10-GEC%20UCLA%20GEC15.pptx  slides]  [[BR]]
    654 
    655  * Airspan Installation [[BR]]
    656   * Location selected:  top of Spraul Hall;  pole installed [[BR]]
    657   * On hold for poweer, network connections  [[BR]]
    658   * Temporary:  in use in lab for WiMAX RF AggMgr software testing  [[BR]]
    659 
    660  * Connection to Mesoscale Infrastructure   [[BR]]
    661   * Completed [[BR]]
    662 
    663 a)  Status of deployments planned for Spiral 4:  [[BR]]
    664  Get experimental frequency from the FCC, that does not interfere with Clearwire services  (yes) [[BR]]
    665  Install Airspan base station(s), with local NetSpan management system  (pending, partial) [[BR]]
    666  Optional when multiple cells:  backhaul control and data traffic to central equipment site (pending)  [[BR]]
    667  Add OMF/OML structures, including LoginService  (yes) [[BR]]
    668  Connect via switch to I2 backbone, via OF switches if there   (yes) [[BR]]
    669  WiFi access point for dual-homing operating on custom PC node  (?) [[BR]]
    670  Vehicular mobile station operating on custom PC node  (?)  [[BR]]
    671  Fixed “mobile station” for remote experimenters operating on custom PC node (yes)  [[BR]]
    672 
    673 b)  Plan for local research experiments in Spiral 5:   [[BR]]
    674  Coverage and performance, with Teltonica and NEC, also Airspan  [[BR]]
    675  Mobile experiments with permanent vehicular nodes  [[BR]]
    676  NDN experiments over WiMAX
    677 
    678 c)  Plan to complete deployments of extended site capabilities needed in Spiral 5:   [[BR]]
    679  Custom PC nodes  ("yellow nodes")  (Rutgers WINLAB)  [[BR]]
    680  Login Service plus OMF/OML services operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    681  GIMI I&M services (UMass Amherst/NYU Poly)  [[BR]]
    682  Multiple base-station management service operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    683  Data-path gateway service operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    684  Mobility/handover/multi-homing service  (coordinated by Wisconsin/Clemson)   [[BR]]
    685  WiFi access point for dual-homing operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    686  Vehicular mobile station operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    687  Fixed “mobile station” for remote experimenters operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    688  Unlocked Android WiMAX/WiFi handsets.   (Wisconsin)  [[BR]]
    689 
    690 d)  Support for unified GENI operations:  [[BR]]
    691  Forward site monitoring information to the central monitoring server  (Rutgers WINLAB)  [[BR]]
    692  Cooperate with Rutgers WINLAB and Clearwire to avoid interference with Clearwire’s services [[BR]]
    693  When necessary, do an “emergency stop” of your transmissions.  [[BR]]
    694 
    695 e)  Support for experiments:  [[BR]]
    696  Local research experiments [[BR]]
    697  Experiments by remote experimenters, including those at tutorials  [[BR]]
    698  Classroom instruction experiments by students   (NYU Poly)  [[BR]]
    699  Multi-site experiments, e.g., MobilityFirst  (Rutgers WINLAB) [[BR]]
    700 
    701 What are next steps?   [[BR]]
    702  * Establish a plan for all of your Spiral 5 tasks, and document  (due 12/1/12)  [[BR]]
    703  * Complete installation of Airspan base station, use early release of WiMAX RF AggMgr with local OMF/OML to configure, check over-the-air throughput  (due 12/15/12) [[BR]]
    704  * Complete connection to I2 backbone, and demonstrate a service with another site(s)  (due 1/15/12)  [[BR]]
    705 
    706 
    707 === 3.4)  Clemson University Site Deployment Plan ===
    708 3:30pm  [[BR]]
    709 K-C Wang, Reece Johnson (Clemson)
    710 
    711 GEC13 plans:  [[BR]]
    712 [http://groups.geni.net/geni/attachment/wiki/GEC13Agenda/WiMAXPlanning/GEC13-WiMAX-Clemson.pdf Clemson slides][[BR]]
    713 
    714 GEC14 status:  [[BR]]
    715  * Status:  [http://groups.geni.net/geni/attachment/wiki/GEC14Agenda/WiMAXDeploymentsAndExperiments/GEC14-WiMAX-Clemson.ppt slides]  [[BR]] 
    716 
    717  * Extension plan   [[BR]]
    718   * Add x1 Airspan BS near campus [[BR]]
    719   * Add x2 Airspan BS near Greenville;  connect via DOT fibers.  [[BR]]
    720   * Want handover near I85/I385 intersection.  [[BR]]
    721   * x3 (2510 Lo:  2496 to 2570 MHz)  [[BR]]
    722 
    723 GEC15 status:  [[BR]]
    724  * [http://groups.geni.net/geni/attachment/wiki/GEC15Agenda/WiMAXUpdate/GEC15-WiMAX-clemson.ppt slides]  [[BR]]
    725 
    726 
    727  * Clemson campus location:
    728   * Installed, on-the-air:  signal strength measurements completed
    729 
    730  * Greenville locations:
    731   * Installed, with power and fiber connections
    732   * Both report "RF failure";  Netspan and/or base station issue
    733 
    734 a)  Status of deployments planned for Spiral 4:  [[BR]]
    735  Get experimental frequency from the FCC, that does not interfere with Clearwire services  (yes)  [[BR]]
    736  Install Airspan base station(s), with local NetSpan management system  (partial: 3 installed, 1 of 3 on-the-air) [[BR]]
    737  Optional when multiple cells:  backhaul control and data traffic to central equipment site  (yes) [[BR]]
    738  Add OMF/OML structures, including LoginService  (pending) [[BR]]
    739  Connect via switch to I2 backbone, via OF switches if there (?) [[BR]]
    740  WiFi access point for dual-homing operating on custom PC node (use campus network?) [[BR]]
    741  Vehicular mobile station operating on custom PC node  (pending)  [[BR]]
    742  Fixed “mobile station” for remote experimenters operating on custom PC node (no)  [[BR]]
    743 
    744 b)  Plan for local research experiments in Spiral 5:   [[BR]]
    745  Working with Wisconsin handover project  [[BR]]
    746  Focus on "uniform solution for handover in heterogeneous networks, e.g., WiFi off-loading  [[BR]]
    747 
    748 c)  Plan to complete deployments of extended site capabilities needed in Spiral 5:   [[BR]]
    749  Custom PC nodes  ("yellow nodes")  (Rutgers WINLAB)  [[BR]]
    750  Login Service plus OMF/OML services operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    751  Connection to I2  (coordinated by BBN) [[BR]]
    752  GIMI I&M services (UMass Amherst/NYU Poly)  [[BR]]
    753  Multiple base-station management service operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    754  Data-path gateway service operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    755  Mobility/handover/multi-homing service  (coordinated by Wisconsin/Clemson)   [[BR]]
    756  WiFi access point for dual-homing operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    757  Vehicular mobile station operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    758  Fixed “mobile station” for remote experimenters operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    759  Unlocked Android WiMAX/WiFi handsets.   (Wisconsin)  [[BR]]
    760 
    761 d)  Support for unified GENI operations:  [[BR]]
    762  Forward site monitoring information to the central monitoring server  (Rutgers WINLAB)  [[BR]]
    763  Cooperate with Rutgers WINLAB and Clearwire to avoid interference with Clearwire’s services [[BR]]
    764  When necessary, do an “emergency stop” of your transmissions.  [[BR]]
    765 
    766 e)  Support for experiments:  [[BR]]
    767  Local research experiments [[BR]]
    768  Experiments by remote experimenters, including those at tutorials  [[BR]]
    769  Classroom instruction experiments by students   (NYU Poly)  [[BR]]
    770  Multi-site experiments, e.g., MobilityFirst  (Rutgers WINLAB) [[BR]]
    771 
    772 What are next steps?   [[BR]]
    773  * Establish a plan for all of your Spiral 5 tasks, and document  (due 12/1/12)  [[BR]]
    774  * Complete installation of Airspan base stations, use early release of WiMAX RF AggMgr with local OMF/OML to configure, check over-the-air throughput  (due 12/15/12) [[BR]]
    775  * Complete connection to I2 backbone, and demonstrate a service with another site(s)  (due 1/15/12)  [[BR]]
    776  
    777 === 3.5)  University of Wisconsin Site Extension Plan ===
    778 3:35pm  [[BR]]
    779 Suman Banerjee, Derek Meyer (Wisconsin)  [[BR]]
    780 
    781 GEC14 status:  [[BR]]
    782  * Status [http://groups.geni.net/geni/attachment/wiki/GEC14Agenda/WiMAXDeploymentsAndExperiments/2012_07_09_Geni_Conference.ppt  slides]  [[BR]]
    783 
    784  * Extension plan  [[BR]]
    785   * Add Airspan to building/tower near Capitol.  [[BR]]
    786   * Connect via Madison unified fiber project  [[BR]]
    787   * Outside contributions for power and poles.  [[BR]]
    788   * x1 (2510 Mid:  2560MHz to 2630MHz)  [[BR]]
    789 
    790 
    791 GEC15 status:  [[BR]]
    792  * [http://groups.geni.net/geni/attachment/wiki/GEC15Agenda/WiMAXUpdate/mse-banerjee.pdf  slides]  [[BR]]
    793 
    794 
    795  * Airspan status [[BR]]
    796   * Planned installation blocked by site issues [[BR]]
    797   * Instead, will move quickly to install on CS building (where Cisco base station was installed) [[BR]]
    798 
    799 a)  Status of deployments planned for Spiral 4:  [[BR]]
    800  Get experimental frequency from the FCC, that does not interfere with Clearwire services  (yes)  [[BR]]
    801  Install Airspan base station(s), with local NetSpan management system  (no;  restarting) [[BR]]
    802  Optional when multiple cells:  backhaul control and data traffic to central equipment site  (?) [[BR]]
    803  Add OMF/OML structures, including LoginService  (partial) [[BR]]
    804  Connect via switch to I2 backbone, via OF switches if there (?) [[BR]]
    805  WiFi access point for dual-homing operating on custom PC node  (no)  [[BR]]
    806  Vehicular mobile station operating on custom PC node  (no)  [[BR]]
    807  Fixed “mobile station” for remote experimenters operating on custom PC node  (no) [[BR]]
    808 
    809 b)  Plan for local research experiments in Spiral 5:   [[BR]]
    810  Focus on mobility experiments from bus  [[BR]]
    811  Planning multi-site video experiment with NYU Poly  [[BR]]
    812  Begin classroom use in Spring 2013  [[BR]]
    813 
    814 c)  Plan to complete deployments of extended site capabilities needed in Spiral 5:   [[BR]]
    815  Custom PC nodes  ("yellow nodes")  (Rutgers WINLAB)  [[BR]]
    816  Login Service plus OMF/OML services operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    817  Connection to I2  (coordinated by BBN) [[BR]]
    818  GIMI I&M services (UMass Amherst/NYU Poly)  [[BR]]
    819  Multiple base-station management service operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    820  Data-path gateway service operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    821  Mobility/handover/multi-homing service  (coordinated by Wisconsin/Clemson)   [[BR]]
    822  WiFi access point for dual-homing operating on custom PC node  (Rutgers WINLAB) (or use local service?) [[BR]]
    823  Vehicular mobile station operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    824  Fixed “mobile station” for remote experimenters operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    825  Unlocked Android WiMAX/WiFi handsets.   (Wisconsin)  [[BR]]
    826 
    827 d)  Support for unified GENI operations:  [[BR]]
    828  Forward site monitoring information to the central monitoring server  (Rutgers WINLAB)  [[BR]]
    829  Cooperate with Rutgers WINLAB and Clearwire to avoid interference with Clearwire’s services [[BR]]
    830  When necessary, do an “emergency stop” of your transmissions.  [[BR]]
    831 
    832 e)  Support for experiments:  [[BR]]
    833  Local research experiments [[BR]]
    834  Experiments by remote experimenters, including those at tutorials  [[BR]]
    835  Classroom instruction experiments by students   (NYU Poly)  [[BR]]
    836  Multi-site experiments, e.g., MobilityFirst  (Rutgers WINLAB) [[BR]]
    837 
    838 What are next steps?   [[BR]]
    839  * Establish a plan for all of your Spiral 5 tasks, and document  (due 12/1/12)  [[BR]]
    840  * Complete installation of Airspan base station, use early release of WiMAX RF AggMgr with local OMF/OML to configure, check over-the-air throughput  (due 12/15/12) [[BR]]
    841  * Complete connection to I2 backbone, and demonstrate a service with another site(s)  (due 1/15/12)  [[BR]]
    842 
    843 === 3.6)  University of Michigan Site Deployment Plan ===
    844 3:40pm [[BR]]
    845 Morley Mao  (Michigan)  [[BR]]
    846 
    847 GEC13 plans:
    848  * [http://groups.geni.net/geni/attachment/wiki/GEC13Agenda/WiMAXPlanning/WIMAXexperimentMichigan.pdf  slides]  [[BR]]
    849 
    850 GEC14 status:  [[BR]]
    851  * Extension plan  [[BR]]
    852   * Add one Airspan on top of building  [[BR]]
    853   * Will signals penetrate into buildings?  [[BR]]
    854   * One frequency from Clearwire  [[BR]]
    855   * x1 (2510 Lo:  2496 to 2570 MHz)  [[BR]]
    856   * Location and backhaul [[BR]]
    857   * Mobility and handover [[BR]]
    858 
    859 GEC15 status:[[BR]]
    860  * Base station installed, local Netspan ready, but waiting for power  [[BR]]
    861  * I2 connection pending  [[BR]]
    862 
    863 a)  Status of deployments planned for Spiral 4:  [[BR]]
    864  Get experimental frequency from the FCC, that does not interfere with Clearwire services  (yes) [[BR]]
    865  Install Airspan base station(s), with local NetSpan management system  (pending) [[BR]]
    866  Add OMF/OML structures, including LoginService  (no) [[BR]]
    867  Connect via switch to I2 backbone, via OF switches if there   (pending) [[BR]]
    868  WiFi access point for dual-homing operating on custom PC node (no) [[BR]]
    869  Fixed “mobile station” for remote experimenters operating on custom PC node (no)  [[BR]]
    870 
    871 b)  Plan for local research experiments in Spiral 5:   [[BR]]
    872  Content delivery service [[BR]]
    873 
    874 c)  Plan to complete deployments of extended site capabilities needed in Spiral 5:   [[BR]]
    875  Custom PC nodes  ("yellow nodes")  (Rutgers WINLAB)  [[BR]]
    876  Login Service plus OMF/OML services operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    877  Connection to I2  (coordinated by BBN) [[BR]]
    878  GIMI I&M services (UMass Amherst/NYU Poly)  [[BR]]
    879  Multiple base-station management service operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    880  Data-path gateway service operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    881  Mobility/handover/multi-homing service  (coordinated by Wisconsin/Clemson)   [[BR]]
    882  WiFi access point for dual-homing operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    883  Fixed “mobile station” for remote experimenters operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    884  Unlocked Android WiMAX/WiFi handsets.   (Wisconsin)  [[BR]]
    885 
    886 d)  Support for unified GENI operations:  [[BR]]
    887  Forward site monitoring information to the central monitoring server  (Rutgers WINLAB)  [[BR]]
    888  Cooperate with Rutgers WINLAB and Clearwire to avoid interference with Clearwire’s services [[BR]]
    889  When necessary, do an “emergency stop” of your transmissions.  [[BR]]
    890 
    891 e)  Support for experiments:  [[BR]]
    892  Local research experiments [[BR]]
    893  Experiments by remote experimenters, including those at tutorials  [[BR]]
    894  Classroom instruction experiments by students   (NYU Poly)  [[BR]]
    895  Multi-site experiments, e.g., MobilityFirst  (Rutgers WINLAB) [[BR]]
    896 
    897 What are next steps?   [[BR]]
    898  * Establish a plan for all of your Spiral 5 tasks, and document  (due 12/1/12)  [[BR]]
    899  * Complete installation of Airspan base station, use early release of WiMAX RF AggMgr with local OMF/OML to configure, check over-the-air throughput  (due 12/15/12) [[BR]]
    900  * Complete connection to I2 backbone, and demonstrate a service with another site(s)  (due 1/15/12)  [[BR]]
    901 
    902 
    903 === 3.7)  Wayne State University Site Deployment Plan ===
    904 3:45m   [[BR]]
    905 Hongwei Zhang, Yu Chu (Wayne State)  [[BR]]
    906 
    907 GEC14 status:
    908  * Status [http://groups.geni.net/geni/attachment/wiki/GEC14Agenda/WiMAXDeploymentsAndExperiments/WayneWiMAX-deployment-planAndStatus-GEC14.pdf  slides]  [[BR]]
    909 
    910  * Extension plan  [[BR]]
    911   * Plan: one site with three sectors, and 3 Airspan base stations. [[BR]] 
    912   * One frequency (10MHz) from Clearwire  [[BR]] 
    913   * x3 (2510 Mid:  2560MHz to 2630MHz)  [[BR]]
    914 
    915  * Spectrum loan from Clearwire: done [[BR]]
    916   * 10MHz band: 2591MHz – 2601MHz (belongs to 2510 Mid band of 2560MHz~2630MHz) [[BR]] 
    917   * Current loan valid until March 1, 2013; to be renewed annually afterwards [[BR]] 
    918 
    919 GEC15 status:  [[BR]]
    920  * [http://groups.geni.net/geni/attachment/wiki/GEC15Agenda/WiMAXUpdate/WayneWiMAX-deployment-planAndStatus-GEC15-final.pdf  slides]  [[BR]]
    921 
    922  * Airspan base stations: [[BR]]
    923   * 2 installed on 17th floor, and on the air;  CINR measured [[BR]]
    924 
    925 
    926 a)  Status of deployments planned for Spiral 4:  [[BR]]
    927  Get experimental frequency from the FCC, that does not interfere with Clearwire services  (yes)  [[BR]]
    928  Install Airspan base station(s), with local NetSpan management system  (yes, 2 of 3) [[BR]]
    929  Optional when multiple cells:  backhaul control and data traffic to central equipment site (yes, to equipment room) [[BR]]
    930  Add OMF/OML structures, including LoginService (no) [[BR]]
    931  Connect via switch to I2 backbone, via OF switches if there  (pending) [[BR]]
    932  Vehicular mobile station operating on custom PC node  (no)  [[BR]]
    933  Fixed “mobile station” for remote experimenters operating on custom PC node (no)  [[BR]]
    934 
    935 b)  Plan for local research experiments in Spiral 5:   [[BR]]
    936  Enable handoff between different base stations/sectors [[BR]]
    937  Develop measurement services  [[BR]]
    938  Measurement campaign: spatiotemporal behavior in static & mobile scenarios: smart grid and smart transportation [[BR]]
    939  ns-3 integration [[BR]]
    940  GENI-fy OpenXC vehicular sensing and infotainment platform [[BR]]
    941  Refine OpenXC, virtualization, etc [[BR]]
    942  Integrate with OMF, measurement tools [[BR]]
    943  Integrate with v2V & V2I platforms (i.e., SDR) as well as vehicle sensing and control apps [[BR]]
    944 
    945 c)  Plan to complete deployments of extended site capabilities needed in Spiral 5:   [[BR]]
    946  Additional base station   (pending) (Rutgers WINLAB)  [[BR]]
    947  Custom PC nodes  ("yellow nodes")  (Rutgers WINLAB)  [[BR]]
    948  Login Service plus OMF/OML services operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    949  Connection to I2  (coordinated by BBN) [[BR]]
    950  GIMI I&M services (UMass Amherst/NYU Poly)  [[BR]]
    951  Multiple base-station management service operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    952  Data-path gateway service operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    953  Mobility/handover/multi-homing service  (coordinated by Wisconsin/Clemson)   [[BR]]
    954  Vehicular mobile station operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    955  Fixed “mobile station” for remote experimenters operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    956  Unlocked Android WiMAX/WiFi handsets.   (Wisconsin)  [[BR]]
    957 
    958 d)  Support for unified GENI operations:  [[BR]]
    959  Forward site monitoring information to the central monitoring server  (Rutgers WINLAB)  [[BR]]
    960  Cooperate with Rutgers WINLAB and Clearwire to avoid interference with Clearwire’s services [[BR]]
    961  When necessary, do an “emergency stop” of your transmissions.  [[BR]]
    962 
    963 e)  Support for experiments:  [[BR]]
    964  Local research experiments [[BR]]
    965  Experiments by remote experimenters, including those at tutorials  [[BR]]
    966  Classroom instruction experiments by students   (NYU Poly)  [[BR]]
    967  Multi-site experiments, e.g., MobilityFirst  (Rutgers WINLAB) [[BR]]
    968 
    969 What are next steps?   [[BR]]
    970  * Establish a plan for all of your Spiral 5 tasks, and document  (due 12/1/12)  [[BR]]
    971  * Complete installation of Airspan base station, use early release of WiMAX RF AggMgr with local OMF/OML to configure, check over-the-air throughput  (due 12/15/12) [[BR]]
    972  * Complete connection to I2 backbone, and demonstrate a service with another site(s)  (due 1/15/12)  [[BR]]
    973 
    974 
    975 === 3.8) NYU Poly Site Update ===
    976 3:50pm   [[BR]]
    977 Thanasis Korakis, Fraida Fund (NYU-Poly)[[BR]]
    978 
    979 GEC14 status:  [[BR]]
    980  * [http://groups.geni.net/geni/attachment/wiki/GEC14Agenda/WiMAXDeploymentsAndExperiments/GEC14-WiMAX-NYUPoly.pdf  slides] [[BR]]
    981 
    982  * Operational OMF/OML installation[[BR]]
    983  * Connected to I2 backbone network[[BR]]
    984  * Testbed open to experimenters since GEC12[[BR]]
    985 
    986 GEC15 status:  [[BR]]
    987 
    988  * [http://groups.geni.net/geni/attachment/wiki/GEC15Agenda/WiMAXUpdate/NYUPolyGEC15.pdf slides] [[BR]]
    989 
    990  * Airspan base station isntallation still pending.
    991  * Working closely with UMass Amherst on use of GIMI tools with WiMAX
    992  * Supporting experimenters, including students and tutorials
    993 
    994 a)  Status of deployments planned for Spiral 4:  [[BR]]
    995  Get experimental frequency from the FCC, that does not interfere with Clearwire services  (yes)  [[BR]]
    996  Install Airspan base station(s), with local NetSpan management system  (pending) [[BR]]
    997  Optional when multiple cells:  backhaul control and data traffic to central equipment site  (?) [[BR]]
    998  Add OMF/OML structures, including LoginService  (yes)  [[BR]]
    999  Connect via switch to I2 backbone, via OF switches if there  (yes) [[BR]]
    1000  WiFi access point for dual-homing operating on custom PC node  (yes) [[BR]]
    1001  Vehicular mobile station operating on custom PC node  (?)  [[BR]]
    1002  Fixed “mobile station” for remote experimenters operating on custom PC node (yes)  [[BR]]
    1003 
    1004 b)  Plan for local research experiments in Spiral 5:   [[BR]]
    1005  Many experiments formulated for students, and tutorials, including: [[BR]]
    1006   StreamLoad [[BR]]
    1007   NetCheck [[BR]]
    1008   AFFIX [[BR]]
    1009  Working on set of lab experiments to teach wireless principals  [[BR]]
    1010 
    1011 c)  Plan to complete deployments of extended site capabilities needed in Spiral 5:   [[BR]]
    1012  GIMI I&M services (UMass Amherst/NYU Poly)  [[BR]]
    1013  Multiple base-station management service operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    1014  Data-path gateway service operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    1015  Mobility/handover/multi-homing service  (coordinated by Wisconsin/Clemson)   [[BR]]
    1016  Vehicular mobile station operating on custom PC node  (Rutgers WINLAB)  [[BR]]
    1017  Unlocked Android WiMAX/WiFi handsets.   (Wisconsin)  [[BR]]
    1018 
    1019 d)  Support for unified GENI operations:  [[BR]]
    1020  Forward site monitoring information to the central monitoring server  (Rutgers WINLAB)  [[BR]]
    1021  Cooperate with Rutgers WINLAB and Clearwire to avoid interference with Clearwire’s services [[BR]]
    1022  When necessary, do an “emergency stop” of your transmissions.  [[BR]]
    1023 
    1024 e)  Support for experiments:  [[BR]]
    1025  Local research experiments [[BR]]
    1026  Experiments by remote experimenters, including those at tutorials  [[BR]]
    1027  Classroom instruction experiments by students   (NYU Poly)  [[BR]]
    1028  Multi-site experiments, e.g., MobilityFirst  (Rutgers WINLAB) [[BR]]
    1029 
    1030 What are next steps?   [[BR]]
    1031  * Complete installation of Airspan base station, use early release of WiMAX RF AggMgr with local OMF/OML to configure, check over-the-air throughput  (due 12/15/12) [[BR]]
    1032 
    1033 
    1034 === 3.9) UMass Amherst Site Update ===
    1035 3:55pm   [[BR]]
    1036 Mike Zink, Cong Wang (UMass Amherst)  [[BR]]
    1037 
    1038 GEC14 status:
    1039  * Add OMF/OML:  have installed  [[BR]]
    1040  * Connect to I2 backbone network:  plan to do soon  [[BR]]
    1041 
    1042  * Planned experiments:  use to integrate GIMI tools [[BR]]
    1043 
    1044 GEC15 status:  BR]]
    1045  No report  [[BR]]
    1046 
    1047 === 3.xx)  Temple University Site Deployment Plan ===
    1048 Shan Lin, Jie Wu (Temple)  [[BR]]
    1049 
    1050 GEC14 status:  [[BR]]
    1051  * [http://groups.geni.net/geni/attachment/wiki/GEC14Agenda/WiMAXDeploymentsAndExperiments/geni-meeting-temple-july2012.pptx slides]  [[BR]]
    1052 
    1053  * Extension plan  [[BR]]
    1054   * x1 (or x2?) Airspan base stations (2510 Mid:  2560MHz to 2630MHz)  [[BR]]
    1055   * Two frequencies from Clearwire, shared with Drexel  [[BR]]
    1056   * Location and backhaul [[BR]]
    1057   * Mobility and handover [[BR]]
    1058 
    1059  * License application approved by Clear [[BR]] 
    1060   * License is valid until Jan 31, 2013 [[BR]] 
    1061   * Frequencies: 2585-2595 & 2603-2613 MHz [[BR]] 
    1062   * Clearwire holds the right to terminate operation with 30 days prior notice [[BR]] 
    1063 
    1064  * Wimax base station purchased and arrived [[BR]] 
    1065   * One Air4G-MacroMAXe 2510M Air4G-W24-2510MT [[BR]] 
    1066   * Installation contract placed  [[BR]] 
    1067   * Latitude & Longitude: (39.98038, -75.15703) [[BR]] 
    1068   * Height: 12th floor (131 ft)  [[BR]]   
    1069 
    1070  * Experiments (with the existing TU-WiMax) [[BR]] 
    1071   * Observe highly irregular ranges (longest range>2.29mile) [[BR]] 
    1072   * High bandwidth (>700kbps) only very close to the base station (<0.5mile) [[BR]] 
    1073   * Significant shadowing among buildings [[BR]] 
    1074 
    1075 
    1076 GEC15 status:  BR]]
    1077  * No report  [[BR]]
    1078  
    1079 === 3.xx)  Drexel University Site Deployment Plan ===
    1080 Kevin Wanuga, Jeff Wildman, Kapil Dandekar (Drexel)  [[BR]]
    1081 
    1082 GEC13 plans:  [[BR]]
    1083  * [http://groups.geni.net/geni/attachment/wiki/GEC14Agenda/WiMAXDeploymentsAndExperiments/GEC13%20%20drexel%20%20GENI.ppt slides] [[BR]]
    1084 
    1085 GEC14 status:  [[BR]]
    1086  * Extension plan  [[BR]]
    1087   * x1 (or x2?) Airspan base stations (2510 Mid:  2560MHz to 2630MHz)  [[BR]]
    1088   * Two frequencies from Clearwire, shared with Temple  [[BR]]
    1089   * Location and backhaul [[BR]]
    1090   * Mobility and handover [[BR]]
    1091 
    1092  * Kevin Wanuga reports: [[BR]]
    1093   * Planning for top of 18-story building;  3m radiation safety clearance [[BR]]
    1094   * More urban than Temple [[BR]]
    1095   * Airspan order placed;  not yet received [[BR]]
    1096   * Kiva networks to install base station [[BR]]
    1097   * Contract engineer mast;  recommendation from Giovanni:  check masts at GNE supply [[BR]]
    1098   * Questions about power cable; recommendation from Harry:  call us, and we can explain parameters [[BR]]
    1099 
    1100 
    1101 GEC15 status:  BR]]
    1102  * No report  [[BR]]
    1103 
    1104 
    1105 
    1106 === 3.xx) Univ of Colorado at Boulder Site Update ===
    1107 Dirk Grunwald (Colorado)  [[BR]]
    1108 
    1109 
    1110 GEC15 status:  BR]]
    1111  * No report  [[BR]]
    1112 
    1113 === 3.xx) Columbia University Site Update ===
    1114 Henning Schulzrinne, Jan Janak (Columbia)  [[BR]]
    1115 
    1116 
    1117 GEC15 status:  BR]]
    1118  * No report  [[BR]]
     483=== 6.3  WiMAX Tutorials at GEC16 ===
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     485
     486
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