[[PageOutline]] = Status of GENI WiMAX Site Deployments = == References == [wiki:FirstDeploymentsPlan Initial Deployment Plan] [[BR]] [http://groups.geni.net/geni/attachment/wiki/WiMAXSiteDeployments/110911%20%20v1.0%20GENIDandPInfraBuildouts.doc Extended Deployment Summary] [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC13Agenda/WiMAXPlanning/020112b_ExtendingGENI_TridentCom2012.pdf Paper] including sections on basic and extended WiMAX sites, and on WiMAX research and service experiments: [[BR]] == Status Summary == {{{ #!rst ===== ====== =========== ================== ======= ==================== =========== ================ ============= ================ ============= ================ ===== ========= ====== ========= ===== ============ Index Campus PI and team Capabilities Mobile stations Experiments Notes Last updated ----- ------ ----------- ------------------------------------------------------------------------------------------------------------------------- ---------------- -------------------------------- ----- ------------ WiMAX base station WiFi AP Control and data server Wimax RF AM Backbone connect Mobility service Central monitor Remote login Local Classroom Remote Multi-site ===== ====== =========== ================== ======= ==================== =========== ================ ============= ================ ============= ================ ===== ========= ====== ========= ===== ============ }}} || 0 || Rutgers WINLAB || who url wiki || NEC Airspan || yes/no || HP yellow node || ver || yes/no || no || yes/no || yes/no || laptops [[BR]] handsets [[BR]] vehicular ||what||yes/no|| what/no|| what/no|| || || || 1 || NECLabs || NA || || || || || || || || || || || || || || || || || 2 || Raytheon BBN Tech || who url wiki || NEC Airspan || yes/no || HP yellow node || ver || yes/no || no || yes/no || yes/no || laptops [[BR]] handsets [[BR]] vehicular||what||yes/no|| what/no|| what/no|| || || || 3 || Stanford || NA || || || || || || || || || || || || || || || || || 4 || NYU Poly || who url wiki || NEC Airspan || yes/no || HP yellow node || ver || yes/no || no || yes/no || yes/no || laptops handsets vehicular||what||yes/no|| what/no|| what/no|| || || || 5 || UMass || who url wiki || NEC Airspan || yes/no || HP yellow node || ver || yes/no || no || yes/no || yes/no || laptops handsets vehicular||what||yes/no|| what/no|| what/no|| || || || 6 || Columbia || who url wiki || NEC Airspan || yes/no || HP yellow node || ver || yes/no || no || yes/no || yes/no || laptops handsets vehicular||what||yes/no|| what/no|| what/no|| || || || 7 || UColorado || who url wiki || NEC Airspan || yes/no || HP yellow node || ver || yes/no || no || yes/no || yes/no || laptops handsets vehicular||what||yes/no|| what/no|| what/no|| || || || 8 || UWisconsin || who url wiki || NEC Airspan || yes/no || HP yellow node || ver || yes/no || no || yes/no || yes/no || laptops handsets vehicular||what||yes/no|| what/no|| what/no|| || || || 9 || UCLA || who url wiki || NEC Airspan || yes/no || HP yellow node || ver || yes/no || no || yes/no || yes/no || laptops handsets vehicular||what||yes/no|| what/no|| what/no|| || || || 10 || Clemson || who url wiki || NEC Airspan || yes/no || HP yellow node || ver || yes/no || no || yes/no || yes/no || laptops handsets vehicular||what||yes/no|| what/no|| what/no|| || || || 11 || Wayne State || who url wiki || NEC Airspan || yes/no || HP yellow node || ver || yes/no || no || yes/no || yes/no || laptops handsets vehicular||what||yes/no|| what/no|| what/no|| || || || 12 || UMichigan || who url wiki || NEC Airspan || yes/no || HP yellow node || ver || yes/no || no || yes/no || yes/no || laptops handsets vehicular||what||yes/no|| what/no|| what/no|| || || || 13 || Temple || who url wiki || NEC Airspan || yes/no || HP yellow node || ver || yes/no || no || yes/no || yes/no || laptops handsets vehicular||what||yes/no|| what/no|| what/no|| || || || 14 || Drexel || who url wiki || NEC Airspan || yes/no || HP yellow node || ver || yes/no || no || yes/no || yes/no || laptops handsets vehicular||what||yes/no|| what/no|| what/no|| || || [[BR]] == Status of Each Site == === Updates by Each Site === Each site will: [[BR]] Update status as of GEC16, in section below [[BR]] Summarize current status, in table above [[BR]] === 0) WINLAB/Rutgers University Site Extension Plan === Ivan Seskar (WINLAB) [[BR]] GEC14 status: [[BR]] * Status [[BR]] * Bringing Airspan on Busch campus [[BR]] * Continuing remote access to BSs [[BR]] * Connected to I2 backbone network [[BR]] * Local and remote experiments [[BR]] GEC15 status: [[BR]] * WINLAB site: [[BR]] 1) NEC base station, with fixed mobile station [[BR]] 2) Sandbox: NEC base station, connected via programmable RF attenuator to fixed mobile station [[BR]] * Busch campus site: [[BR]] 3) Airspan base station, for use by students on campus [[BR]] a) Status of deployments planned for Spiral 4: [[BR]] Install Airspan base station(s), with local NetSpan management system (yes) [[BR]] Optional when multiple cells: backhaul control and data traffic to central equipment site (yes) [[BR]] Add OMF/OML structures, including LoginService (yes) [[BR]] Connect via switch to I2 backbone, via OF switches if there (yes) [[BR]] WiFi access point for dual-homing operating on custom PC node (yes) [[BR]] Vehicular mobile station operating on custom PC node (yes) [[BR]] Fixed “mobile station” for remote experimenters operating on custom PC node (yes) [[BR]] b) Plan for local research experiments in Spiral 5: [[BR]] What is new? [[BR]] c) Plan to complete deployments of extended site capabilities needed in Spiral 5: [[BR]] Additional base station (Rutgers WINLAB) [[BR]] GIMI I&M services (UMass Amherst/NYU Poly) [[BR]] Multiple base-station management service operating on custom PC node (Rutgers WINLAB) [[BR]] Data-path gateway service operating on custom PC node (Rutgers WINLAB) [[BR]] Mobility/handover/multi-homing service (coordinated by Wisconsin/Clemson) [[BR]] Unlocked Android WiMAX/WiFi handsets. (Wisconsin) [[BR]] d) Support for unified GENI operations: [[BR]] Forward site monitoring information to the central monitoring server (Rutgers WINLAB) [[BR]] Cooperate with Rutgers WINLAB and Clearwire to avoid interference with Clearwire’s services [[BR]] When necessary, do an “emergency stop” of your transmissions. [[BR]] e) Support for experiments: [[BR]] Local research experiments [[BR]] Experiments by remote experimenters, including those at tutorials [[BR]] Classroom instruction experiments by students (NYU Poly) [[BR]] Multi-site experiments, e.g., MobilityFirst (Rutgers WINLAB) [[BR]] Dec 2012 status: [[BR]] * TBD [[BR]] GEC16 status: [[BR]] * TDB [[BR]] === 2) BBN Site Extension Plan === Manu Gosain (GPO) [[BR]] GEC14 status: [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC14Agenda/WiMAXDeploymentsAndExperiments/BBNStatus%200710wimaxmeeting14gec.ppt slide] [[BR]] GEC15 status: [[BR]] a) Status of deployments planned for Spiral 4: [[BR]] Get experimental frequency from the FCC, that does not interfere with Clearwire services (yes, new frequency) [[BR]] Install Airspan base station(s), with local NetSpan management system (yes) [[BR]] Add OMF/OML structures, including LoginService (yes) [[BR]] Connect via switch to I2 backbone, via OF switches if there (yes) [[BR]] WiFi access point for dual-homing operating on custom PC node (partial) [[BR]] Fixed “mobile station” for remote experimenters operating on custom PC node (yes) [[BR]] b) Plan for local research experiments in Spiral 5: [[BR]] Repeat throughput and range, comparing NEC and Airspan [[BR]] c) Plan to complete deployments of extended site capabilities needed in Spiral 5: [[BR]] Custom PC nodes ("yellow nodes") (Rutgers WINLAB) [[BR]] GIMI I&M services (UMass Amherst/NYU Poly) [[BR]] Multiple base-station management service operating on custom PC node (Rutgers WINLAB) [[BR]] Data-path gateway service operating on custom PC node (Rutgers WINLAB) [[BR]] Mobility/handover/multi-homing service (coordinated by Wisconsin/Clemson) [[BR]] WiFi access point for dual-homing operating on custom PC node (Rutgers WINLAB) [[BR]] Unlocked Android WiMAX/WiFi handsets. (Wisconsin) [[BR]] d) Support for unified GENI operations: [[BR]] Forward site monitoring information to the central monitoring server (Rutgers WINLAB) [[BR]] Cooperate with Rutgers WINLAB and Clearwire to avoid interference with Clearwire’s services [[BR]] When necessary, do an “emergency stop” of your transmissions. [[BR]] e) Support for experiments: [[BR]] Local research experiments [[BR]] Experiments by remote experimenters, including those at tutorials [[BR]] Classroom instruction experiments by students (NYU Poly) [[BR]] Multi-site experiments, e.g., MobilityFirst (Rutgers WINLAB) [[BR]] Dec 2012 status: [[BR]] * TBD [[BR]] GEC16 status: [[BR]] * TDB [[BR]] === 3) NYU Poly Site Update === Thanasis Korakis, Fraida Fund (NYU-Poly)[[BR]] GEC14 status: [[BR]] * [http://groups.geni.net/geni/attachment/wiki/GEC14Agenda/WiMAXDeploymentsAndExperiments/GEC14-WiMAX-NYUPoly.pdf slides] [[BR]] * Operational OMF/OML installation[[BR]] * Connected to I2 backbone network[[BR]] * Testbed open to experimenters since GEC12[[BR]] GEC15 status: [[BR]] * [http://groups.geni.net/geni/attachment/wiki/GEC15Agenda/WiMAXUpdate/NYUPolyGEC15.pdf slides] [[BR]] * Airspan base station isntallation still pending. * Working closely with UMass Amherst on use of GIMI tools with WiMAX * Supporting experimenters, including students and tutorials a) Status of deployments planned for Spiral 4: [[BR]] Get experimental frequency from the FCC, that does not interfere with Clearwire services (yes) [[BR]] Install Airspan base station(s), with local NetSpan management system (pending) [[BR]] Optional when multiple cells: backhaul control and data traffic to central equipment site (?) [[BR]] Add OMF/OML structures, including LoginService (yes) [[BR]] Connect via switch to I2 backbone, via OF switches if there (yes) [[BR]] WiFi access point for dual-homing operating on custom PC node (yes) [[BR]] Vehicular mobile station operating on custom PC node (?) [[BR]] Fixed “mobile station” for remote experimenters operating on custom PC node (yes) [[BR]] b) Plan for local research experiments in Spiral 5: [[BR]] Many experiments formulated for students, and tutorials, including: [[BR]] StreamLoad [[BR]] NetCheck [[BR]] AFFIX [[BR]] Working on set of lab experiments to teach wireless principals [[BR]] c) Plan to complete deployments of extended site capabilities needed in Spiral 5: [[BR]] GIMI I&M services (UMass Amherst/NYU Poly) [[BR]] Multiple base-station management service operating on custom PC node (Rutgers WINLAB) [[BR]] Data-path gateway service operating on custom PC node (Rutgers WINLAB) [[BR]] Mobility/handover/multi-homing service (coordinated by Wisconsin/Clemson) [[BR]] Vehicular mobile station operating on custom PC node (Rutgers WINLAB) [[BR]] Unlocked Android WiMAX/WiFi handsets. (Wisconsin) [[BR]] d) Support for unified GENI operations: [[BR]] Forward site monitoring information to the central monitoring server (Rutgers WINLAB) [[BR]] Cooperate with Rutgers WINLAB and Clearwire to avoid interference with Clearwire’s services [[BR]] When necessary, do an “emergency stop” of your transmissions. [[BR]] e) Support for experiments: [[BR]] Local research experiments [[BR]] Experiments by remote experimenters, including those at tutorials [[BR]] Classroom instruction experiments by students (NYU Poly) [[BR]] Multi-site experiments, e.g., MobilityFirst (Rutgers WINLAB) [[BR]] What are next steps? [[BR]] * 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]] Dec 2012 status: [[BR]] * TBD [[BR]] GEC16 status: [[BR]] * TDB [[BR]] === 5) UMass Amherst Site Update === Mike Zink, Cong Wang (UMass Amherst) [[BR]] GEC14 status: * Add OMF/OML: have installed [[BR]] * Connect to I2 backbone network: plan to do soon [[BR]] * Planned experiments: use to integrate GIMI tools [[BR]] GEC15 status: BR]] No report [[BR]] Dec 2012 status: [[BR]] * TBD [[BR]] GEC16 status: [[BR]] * TDB [[BR]] === 6) Columbia University Site Update === Henning Schulzrinne, Jan Janak (Columbia) [[BR]] GEC15 status: BR]] * No report [[BR]] Dec 2012 status: [[BR]] * TBD [[BR]] GEC16 status: [[BR]] * TDB [[BR]] === 7) Univ of Colorado at Boulder Site Update === Dirk Grunwald (Colorado) [[BR]] GEC15 status: BR]] * No report [[BR]] Dec 2012 status: [[BR]] * TBD [[BR]] GEC16 status: [[BR]] * TDB [[BR]] === 8) University of Wisconsin Site Extension Plan === Suman Banerjee, Derek Meyer (Wisconsin) [[BR]] GEC14 status: [[BR]] * Status [http://groups.geni.net/geni/attachment/wiki/GEC14Agenda/WiMAXDeploymentsAndExperiments/2012_07_09_Geni_Conference.ppt slides] [[BR]] * Extension plan [[BR]] * Add Airspan to building/tower near Capitol. [[BR]] * Connect via Madison unified fiber project [[BR]] * Outside contributions for power and poles. [[BR]] * x1 (2510 Mid: 2560MHz to 2630MHz) [[BR]] GEC15 status: [[BR]] * [http://groups.geni.net/geni/attachment/wiki/GEC15Agenda/WiMAXUpdate/mse-banerjee.pdf slides] [[BR]] * Airspan status [[BR]] * Planned installation blocked by site issues [[BR]] * Instead, will move quickly to install on CS building (where Cisco base station was installed) [[BR]] a) Status of deployments planned for Spiral 4: [[BR]] Get experimental frequency from the FCC, that does not interfere with Clearwire services (yes) [[BR]] Install Airspan base station(s), with local NetSpan management system (no; restarting) [[BR]] Optional when multiple cells: backhaul control and data traffic to central equipment site (?) [[BR]] Add OMF/OML structures, including LoginService (partial) [[BR]] Connect via switch to I2 backbone, via OF switches if there (?) [[BR]] WiFi access point for dual-homing operating on custom PC node (no) [[BR]] Vehicular mobile station operating on custom PC node (no) [[BR]] Fixed “mobile station” for remote experimenters operating on custom PC node (no) [[BR]] b) Plan for local research experiments in Spiral 5: [[BR]] Focus on mobility experiments from bus [[BR]] Planning multi-site video experiment with NYU Poly [[BR]] Begin classroom use in Spring 2013 [[BR]] c) Plan to complete deployments of extended site capabilities needed in Spiral 5: [[BR]] Custom PC nodes ("yellow nodes") (Rutgers WINLAB) [[BR]] Login Service plus OMF/OML services operating on custom PC node (Rutgers WINLAB) [[BR]] Connection to I2 (coordinated by BBN) [[BR]] GIMI I&M services (UMass Amherst/NYU Poly) [[BR]] Multiple base-station management service operating on custom PC node (Rutgers WINLAB) [[BR]] Data-path gateway service operating on custom PC node (Rutgers WINLAB) [[BR]] Mobility/handover/multi-homing service (coordinated by Wisconsin/Clemson) [[BR]] WiFi access point for dual-homing operating on custom PC node (Rutgers WINLAB) (or use local service?) [[BR]] Vehicular mobile station operating on custom PC node (Rutgers WINLAB) [[BR]] Fixed “mobile station” for remote experimenters operating on custom PC node (Rutgers WINLAB) [[BR]] Unlocked Android WiMAX/WiFi handsets. (Wisconsin) [[BR]] d) Support for unified GENI operations: [[BR]] Forward site monitoring information to the central monitoring server (Rutgers WINLAB) [[BR]] Cooperate with Rutgers WINLAB and Clearwire to avoid interference with Clearwire’s services [[BR]] When necessary, do an “emergency stop” of your transmissions. [[BR]] e) Support for experiments: [[BR]] Local research experiments [[BR]] Experiments by remote experimenters, including those at tutorials [[BR]] Classroom instruction experiments by students (NYU Poly) [[BR]] Multi-site experiments, e.g., MobilityFirst (Rutgers WINLAB) [[BR]] What are next steps? [[BR]] * Establish a plan for all of your Spiral 5 tasks, and document (due 12/1/12) [[BR]] * 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]] * Complete connection to I2 backbone, and demonstrate a service with another site(s) (due 1/15/12) [[BR]] Dec 2012 status: [[BR]] * TBD [[BR]] GEC16 status: [[BR]] * TDB [[BR]] === 9) UCLA Site Extension Plans === Giovanni Pau, Mario Gerla (UCLA) [[BR]] GEC14 status: [[BR]] * [http://groups.geni.net/geni/attachment/wiki/GEC14Agenda/WiMAXDeploymentsAndExperiments/ucla%20%20%202012-July-10-GEC.pptx slides] [[BR]] * Extension plan [[BR]] * Add x1 Airspan BS near UCLA dormitories; possibly other BSs. [[BR]] * x1 (2510 Mid: 2560MHz to 2630MHz) [[BR]] * License [[BR]] * Renewed Experimental License [[BR]] * Coordination with Clearwire Started [[BR]] GEC15 status: * [http://groups.geni.net/geni/attachment/wiki/GEC15Agenda/WiMAXUpdate/2012-July-10-GEC%20UCLA%20GEC15.pptx slides] [[BR]] * Airspan Installation [[BR]] * Location selected: top of Spraul Hall; pole installed [[BR]] * On hold for poweer, network connections [[BR]] * Temporary: in use in lab for WiMAX RF AggMgr software testing [[BR]] * Connection to Mesoscale Infrastructure [[BR]] * Completed [[BR]] a) Status of deployments planned for Spiral 4: [[BR]] Get experimental frequency from the FCC, that does not interfere with Clearwire services (yes) [[BR]] Install Airspan base station(s), with local NetSpan management system (pending, partial) [[BR]] Optional when multiple cells: backhaul control and data traffic to central equipment site (pending) [[BR]] Add OMF/OML structures, including LoginService (yes) [[BR]] Connect via switch to I2 backbone, via OF switches if there (yes) [[BR]] WiFi access point for dual-homing operating on custom PC node (?) [[BR]] Vehicular mobile station operating on custom PC node (?) [[BR]] Fixed “mobile station” for remote experimenters operating on custom PC node (yes) [[BR]] b) Plan for local research experiments in Spiral 5: [[BR]] Coverage and performance, with Teltonica and NEC, also Airspan [[BR]] Mobile experiments with permanent vehicular nodes [[BR]] NDN experiments over WiMAX c) Plan to complete deployments of extended site capabilities needed in Spiral 5: [[BR]] Custom PC nodes ("yellow nodes") (Rutgers WINLAB) [[BR]] Login Service plus OMF/OML services operating on custom PC node (Rutgers WINLAB) [[BR]] GIMI I&M services (UMass Amherst/NYU Poly) [[BR]] Multiple base-station management service operating on custom PC node (Rutgers WINLAB) [[BR]] Data-path gateway service operating on custom PC node (Rutgers WINLAB) [[BR]] Mobility/handover/multi-homing service (coordinated by Wisconsin/Clemson) [[BR]] WiFi access point for dual-homing operating on custom PC node (Rutgers WINLAB) [[BR]] Vehicular mobile station operating on custom PC node (Rutgers WINLAB) [[BR]] Fixed “mobile station” for remote experimenters operating on custom PC node (Rutgers WINLAB) [[BR]] Unlocked Android WiMAX/WiFi handsets. (Wisconsin) [[BR]] d) Support for unified GENI operations: [[BR]] Forward site monitoring information to the central monitoring server (Rutgers WINLAB) [[BR]] Cooperate with Rutgers WINLAB and Clearwire to avoid interference with Clearwire’s services [[BR]] When necessary, do an “emergency stop” of your transmissions. [[BR]] e) Support for experiments: [[BR]] Local research experiments [[BR]] Experiments by remote experimenters, including those at tutorials [[BR]] Classroom instruction experiments by students (NYU Poly) [[BR]] Multi-site experiments, e.g., MobilityFirst (Rutgers WINLAB) [[BR]] What are next steps? [[BR]] * Establish a plan for all of your Spiral 5 tasks, and document (due 12/1/12) [[BR]] * 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]] * Complete connection to I2 backbone, and demonstrate a service with another site(s) (due 1/15/12) [[BR]] Dec 2012 status: [[BR]] * TBD [[BR]] GEC16 status: [[BR]] * TDB [[BR]] === 10) Clemson University Site Deployment Plan === K-C Wang, Reece Johnson (Clemson) GEC13 plans: [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC13Agenda/WiMAXPlanning/GEC13-WiMAX-Clemson.pdf Clemson slides][[BR]] GEC14 status: [[BR]] * Status: [http://groups.geni.net/geni/attachment/wiki/GEC14Agenda/WiMAXDeploymentsAndExperiments/GEC14-WiMAX-Clemson.ppt slides] [[BR]] * Extension plan [[BR]] * Add x1 Airspan BS near campus [[BR]] * Add x2 Airspan BS near Greenville; connect via DOT fibers. [[BR]] * Want handover near I85/I385 intersection. [[BR]] * x3 (2510 Lo: 2496 to 2570 MHz) [[BR]] GEC15 status: [[BR]] * [http://groups.geni.net/geni/attachment/wiki/GEC15Agenda/WiMAXUpdate/GEC15-WiMAX-clemson.ppt slides] [[BR]] * Clemson campus location: * Installed, on-the-air: signal strength measurements completed * Greenville locations: * Installed, with power and fiber connections * Both report "RF failure"; Netspan and/or base station issue a) Status of deployments planned for Spiral 4: [[BR]] Get experimental frequency from the FCC, that does not interfere with Clearwire services (yes) [[BR]] Install Airspan base station(s), with local NetSpan management system (partial: 3 installed, 1 of 3 on-the-air) [[BR]] Optional when multiple cells: backhaul control and data traffic to central equipment site (yes) [[BR]] Add OMF/OML structures, including LoginService (pending) [[BR]] Connect via switch to I2 backbone, via OF switches if there (?) [[BR]] WiFi access point for dual-homing operating on custom PC node (use campus network?) [[BR]] Vehicular mobile station operating on custom PC node (pending) [[BR]] Fixed “mobile station” for remote experimenters operating on custom PC node (no) [[BR]] b) Plan for local research experiments in Spiral 5: [[BR]] Working with Wisconsin handover project [[BR]] Focus on "uniform solution for handover in heterogeneous networks, e.g., WiFi off-loading [[BR]] c) Plan to complete deployments of extended site capabilities needed in Spiral 5: [[BR]] Custom PC nodes ("yellow nodes") (Rutgers WINLAB) [[BR]] Login Service plus OMF/OML services operating on custom PC node (Rutgers WINLAB) [[BR]] Connection to I2 (coordinated by BBN) [[BR]] GIMI I&M services (UMass Amherst/NYU Poly) [[BR]] Multiple base-station management service operating on custom PC node (Rutgers WINLAB) [[BR]] Data-path gateway service operating on custom PC node (Rutgers WINLAB) [[BR]] Mobility/handover/multi-homing service (coordinated by Wisconsin/Clemson) [[BR]] WiFi access point for dual-homing operating on custom PC node (Rutgers WINLAB) [[BR]] Vehicular mobile station operating on custom PC node (Rutgers WINLAB) [[BR]] Fixed “mobile station” for remote experimenters operating on custom PC node (Rutgers WINLAB) [[BR]] Unlocked Android WiMAX/WiFi handsets. (Wisconsin) [[BR]] d) Support for unified GENI operations: [[BR]] Forward site monitoring information to the central monitoring server (Rutgers WINLAB) [[BR]] Cooperate with Rutgers WINLAB and Clearwire to avoid interference with Clearwire’s services [[BR]] When necessary, do an “emergency stop” of your transmissions. [[BR]] e) Support for experiments: [[BR]] Local research experiments [[BR]] Experiments by remote experimenters, including those at tutorials [[BR]] Classroom instruction experiments by students (NYU Poly) [[BR]] Multi-site experiments, e.g., MobilityFirst (Rutgers WINLAB) [[BR]] What are next steps? [[BR]] * Establish a plan for all of your Spiral 5 tasks, and document (due 12/1/12) [[BR]] * 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]] * Complete connection to I2 backbone, and demonstrate a service with another site(s) (due 1/15/12) [[BR]] Dec 2012 status: [[BR]] * TBD [[BR]] GEC16 status: [[BR]] * TDB [[BR]] === 11) Wayne State University Site Deployment Plan === Hongwei Zhang, Yu Chu (Wayne State) [[BR]] GEC14 status: * Status [http://groups.geni.net/geni/attachment/wiki/GEC14Agenda/WiMAXDeploymentsAndExperiments/WayneWiMAX-deployment-planAndStatus-GEC14.pdf slides] [[BR]] * Extension plan [[BR]] * Plan: one site with three sectors, and 3 Airspan base stations. [[BR]] * One frequency (10MHz) from Clearwire [[BR]] * x3 (2510 Mid: 2560MHz to 2630MHz) [[BR]] * Spectrum loan from Clearwire: done [[BR]]  * 10MHz band: 2591MHz – 2601MHz (belongs to 2510 Mid band of 2560MHz~2630MHz) [[BR]]  * Current loan valid until March 1, 2013; to be renewed annually afterwards [[BR]]  GEC15 status: [[BR]] * [http://groups.geni.net/geni/attachment/wiki/GEC15Agenda/WiMAXUpdate/WayneWiMAX-deployment-planAndStatus-GEC15-final.pdf slides] [[BR]] * Airspan base stations: [[BR]]  * 2 installed on 17th floor, and on the air; CINR measured [[BR]] a) Status of deployments planned for Spiral 4: [[BR]] Get experimental frequency from the FCC, that does not interfere with Clearwire services (yes) [[BR]] Install Airspan base station(s), with local NetSpan management system (yes, 2 of 3) [[BR]] Optional when multiple cells: backhaul control and data traffic to central equipment site (yes, to equipment room) [[BR]] Add OMF/OML structures, including LoginService (no) [[BR]] Connect via switch to I2 backbone, via OF switches if there (pending) [[BR]] Vehicular mobile station operating on custom PC node (no) [[BR]] Fixed “mobile station” for remote experimenters operating on custom PC node (no) [[BR]] b) Plan for local research experiments in Spiral 5: [[BR]] Enable handoff between different base stations/sectors [[BR]] Develop measurement services [[BR]] Measurement campaign: spatiotemporal behavior in static & mobile scenarios: smart grid and smart transportation [[BR]]  ns-3 integration [[BR]]  GENI-fy OpenXC vehicular sensing and infotainment platform [[BR]]  Refine OpenXC, virtualization, etc [[BR]]  Integrate with OMF, measurement tools [[BR]]  Integrate with v2V & V2I platforms (i.e., SDR) as well as vehicle sensing and control apps [[BR]] c) Plan to complete deployments of extended site capabilities needed in Spiral 5: [[BR]] Additional base station (pending) (Rutgers WINLAB) [[BR]] Custom PC nodes ("yellow nodes") (Rutgers WINLAB) [[BR]] Login Service plus OMF/OML services operating on custom PC node (Rutgers WINLAB) [[BR]] Connection to I2 (coordinated by BBN) [[BR]] GIMI I&M services (UMass Amherst/NYU Poly) [[BR]] Multiple base-station management service operating on custom PC node (Rutgers WINLAB) [[BR]] Data-path gateway service operating on custom PC node (Rutgers WINLAB) [[BR]] Mobility/handover/multi-homing service (coordinated by Wisconsin/Clemson) [[BR]] Vehicular mobile station operating on custom PC node (Rutgers WINLAB) [[BR]] Fixed “mobile station” for remote experimenters operating on custom PC node (Rutgers WINLAB) [[BR]] Unlocked Android WiMAX/WiFi handsets. (Wisconsin) [[BR]] d) Support for unified GENI operations: [[BR]] Forward site monitoring information to the central monitoring server (Rutgers WINLAB) [[BR]] Cooperate with Rutgers WINLAB and Clearwire to avoid interference with Clearwire’s services [[BR]] When necessary, do an “emergency stop” of your transmissions. [[BR]] e) Support for experiments: [[BR]] Local research experiments [[BR]] Experiments by remote experimenters, including those at tutorials [[BR]] Classroom instruction experiments by students (NYU Poly) [[BR]] Multi-site experiments, e.g., MobilityFirst (Rutgers WINLAB) [[BR]] What are next steps? [[BR]] * Establish a plan for all of your Spiral 5 tasks, and document (due 12/1/12) [[BR]] * 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]] * Complete connection to I2 backbone, and demonstrate a service with another site(s) (due 1/15/12) [[BR]] Dec 2012 status: [[BR]] * TBD [[BR]] GEC16 status: [[BR]] * TDB [[BR]] === 12) University of Michigan Site Deployment Plan === Morley Mao (Michigan) [[BR]] GEC13 plans: * [http://groups.geni.net/geni/attachment/wiki/GEC13Agenda/WiMAXPlanning/WIMAXexperimentMichigan.pdf slides] [[BR]] GEC14 status: [[BR]] * Extension plan [[BR]] * Add one Airspan on top of building [[BR]] * Will signals penetrate into buildings? [[BR]] * One frequency from Clearwire [[BR]] * x1 (2510 Lo: 2496 to 2570 MHz) [[BR]] * Location and backhaul [[BR]] * Mobility and handover [[BR]] GEC15 status:[[BR]] * Base station installed, local Netspan ready, but waiting for power [[BR]] * I2 connection pending [[BR]] a) Status of deployments planned for Spiral 4: [[BR]] Get experimental frequency from the FCC, that does not interfere with Clearwire services (yes) [[BR]] Install Airspan base station(s), with local NetSpan management system (pending) [[BR]] Add OMF/OML structures, including LoginService (no) [[BR]] Connect via switch to I2 backbone, via OF switches if there (pending) [[BR]] WiFi access point for dual-homing operating on custom PC node (no) [[BR]] Fixed “mobile station” for remote experimenters operating on custom PC node (no) [[BR]] b) Plan for local research experiments in Spiral 5: [[BR]] Content delivery service [[BR]] c) Plan to complete deployments of extended site capabilities needed in Spiral 5: [[BR]] Custom PC nodes ("yellow nodes") (Rutgers WINLAB) [[BR]] Login Service plus OMF/OML services operating on custom PC node (Rutgers WINLAB) [[BR]] Connection to I2 (coordinated by BBN) [[BR]] GIMI I&M services (UMass Amherst/NYU Poly) [[BR]] Multiple base-station management service operating on custom PC node (Rutgers WINLAB) [[BR]] Data-path gateway service operating on custom PC node (Rutgers WINLAB) [[BR]] Mobility/handover/multi-homing service (coordinated by Wisconsin/Clemson) [[BR]] WiFi access point for dual-homing operating on custom PC node (Rutgers WINLAB) [[BR]] Fixed “mobile station” for remote experimenters operating on custom PC node (Rutgers WINLAB) [[BR]] Unlocked Android WiMAX/WiFi handsets. (Wisconsin) [[BR]] d) Support for unified GENI operations: [[BR]] Forward site monitoring information to the central monitoring server (Rutgers WINLAB) [[BR]] Cooperate with Rutgers WINLAB and Clearwire to avoid interference with Clearwire’s services [[BR]] When necessary, do an “emergency stop” of your transmissions. [[BR]] e) Support for experiments: [[BR]] Local research experiments [[BR]] Experiments by remote experimenters, including those at tutorials [[BR]] Classroom instruction experiments by students (NYU Poly) [[BR]] Multi-site experiments, e.g., MobilityFirst (Rutgers WINLAB) [[BR]] What are next steps? [[BR]] * Establish a plan for all of your Spiral 5 tasks, and document (due 12/1/12) [[BR]] * 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]] * Complete connection to I2 backbone, and demonstrate a service with another site(s) (due 1/15/12) [[BR]] Dec 2012 status: [[BR]] * TBD [[BR]] GEC16 status: [[BR]] * TDB [[BR]] === 13) Temple University Site Deployment Plan === Shan Lin, Jie Wu (Temple) [[BR]] GEC14 status: [[BR]] * [http://groups.geni.net/geni/attachment/wiki/GEC14Agenda/WiMAXDeploymentsAndExperiments/geni-meeting-temple-july2012.pptx slides] [[BR]] * Extension plan [[BR]] * x1 (or x2?) Airspan base stations (2510 Mid: 2560MHz to 2630MHz) [[BR]] * Two frequencies from Clearwire, shared with Drexel [[BR]] * Location and backhaul [[BR]] * Mobility and handover [[BR]] * License application approved by Clear [[BR]] * License is valid until Jan 31, 2013 [[BR]] * Frequencies: 2585-2595 & 2603-2613 MHz [[BR]] * Clearwire holds the right to terminate operation with 30 days prior notice [[BR]] * Wimax base station purchased and arrived [[BR]] * One Air4G-MacroMAXe 2510M Air4G-W24-2510MT [[BR]] * Installation contract placed [[BR]] * Latitude & Longitude: (39.98038, -75.15703) [[BR]] * Height: 12th floor (131 ft) [[BR]] * Experiments (with the existing TU-WiMax) [[BR]] * Observe highly irregular ranges (longest range>2.29mile) [[BR]] * High bandwidth (>700kbps) only very close to the base station (<0.5mile) [[BR]] * Significant shadowing among buildings [[BR]] GEC15 status: BR]] * No report [[BR]] Dec 2012 status: [[BR]] * TBD [[BR]] GEC16 status: [[BR]] * TDB [[BR]] === 14) Drexel University Site Deployment Plan === Kevin Wanuga, Jeff Wildman, Kapil Dandekar (Drexel) [[BR]] GEC13 plans: [[BR]] * [http://groups.geni.net/geni/attachment/wiki/GEC14Agenda/WiMAXDeploymentsAndExperiments/GEC13%20%20drexel%20%20GENI.ppt slides] [[BR]] GEC14 status: [[BR]] * Extension plan [[BR]] * x1 (or x2?) Airspan base stations (2510 Mid: 2560MHz to 2630MHz) [[BR]] * Two frequencies from Clearwire, shared with Temple [[BR]] * Location and backhaul [[BR]] * Mobility and handover [[BR]] * Kevin Wanuga reports: [[BR]] * Planning for top of 18-story building; 3m radiation safety clearance [[BR]] * More urban than Temple [[BR]] * Airspan order placed; not yet received [[BR]] * Kiva networks to install base station [[BR]] * Contract engineer mast; recommendation from Giovanni: check masts at GNE supply [[BR]] * Questions about power cable; recommendation from Harry: call us, and we can explain parameters [[BR]] GEC15 status: [[BR]] * No report [[BR]] Dec 2012 status: [[BR]] * TBD [[BR]] GEC16 status: [[BR]] * TDB [[BR]]