[[PageOutline]] = WiMAX Campus Deployment Meeting = Wednesday, July 27, 2011, 3:30pm - 5:30pm [[BR]] Room: [[BR]] Session Leader: Harry Mussman (GPO, Raytheon BBN Technologies) [[BR]] == Summary == == Description == The projects involved in deploying WiMAX base stations will review their current status and progress towards their Spiral 3 roadmap goals of completing a basic mobility experiment and using OMF/OML to support GENI experimenters. [[BR]] == Agenda == === Introductions === 3:30pm BBN Technologies Harry Mussman, Manu Gosain, Hamed Soroush [[BR]] NEC Laboratories America [[BR]] WINLAB Ray Raychaudhuri, Ivan Seskar [[BR]] NICTA Max Ott Columbia Univ Marcus Knuepfer, Jae Woo Lee (Jan Janak) [[BR]] Polytechnic Institute of NYU Thanasis Korakis [[BR]] UCLA Giovanni Pau [[BR]] Colorado Dirk Grunwald, Aveek Dutta (Caleb Phillips) [[BR]] UMass Amherst Brian Lynn [[BR]] Wisconsin Suman Banerjee, Derek Meyer [[BR]] === Deployment Summary === 3:35pm [[Image(071511c_Sol2_MesoScale_WiMAX_ProjectSummaries.jpg, 80%)]] [[BR]] === WiMAX Range and Throughput Experiment and Measurements === Columbia University (1770) Marcus Knuepfer [[BR]] 3:40pm [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC11WiMAXCampusDeployment/columbia_GEC11_slides.ppt slides] [[BR]] Four slides: Base Station configuration; range and throughput experiment configuration; Mobile Station code/script; measurement results and conclusions [[BR]] Polytechnic Institute of NYU (1751) PI: Thanasis Korakis [[BR]] 3:50pm [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC11WiMAXCampusDeployment/Korakis_GENI_WiMAX_GEC11.ppt slides] [[BR]] Four slides: Base Station configuration; range and throughput experiment configuration; Mobile Station code/script; measurement results and conclusions [[BR]] UCLA (1797) Giovanni Pau [[BR]] 4:00pm [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC11WiMAXCampusDeployment/ucla%20%20BBN%20%20Status%20%20GENI_WiMAX_20110724.ppt slides] [[BR]] Four slides: Base Station configuration; range and throughput experiment configuration; Mobile Station code/script; measurement results and conclusions [[BR]] Colorado: (1768) PI: Dirk Grunwald Univ. of Colorado, Boulder [[BR]] 4:05pm [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC11WiMAXCampusDeployment/colorado-slides.pdf slides] [[BR]] Four slides: Base Station configuration; range and throughput experiment configuration; Mobile Station code/script; measurement results and conclusions [[BR]] UMass Amherst (1731) Brian Lynn [[BR]] 4:15pm [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC11WiMAXCampusDeployment/UMass-GEC11-WiMAX.2.pdf slides] [[BR]] Four slides: Base Station configuration; range and throughput experiment configuration; Mobile Station code/script; measurement results and conclusions [[BR]] Wisconsin (1724) PI: Suman Banerjee and Derek Meyer: [[BR]] 4:25pm [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC11WiMAXCampusDeployment/wisc%20%202011_07_27_Geni_Conference_v2.ppt slides] [http://groups.geni.net/geni/attachment/wiki/GEC11WiMAXCampusDeployment/Waisman%20WiMax%20Base%20Station%20-%20Google%20Maps.pdf map] [[BR]] Four slides: Base Station configuration; range and throughput experiment configuration; Mobile Station code/script; measurement results and conclusions [[BR]] BBN Technologies, Cambridge MA Hamed Soroush: [[BR]] 4:35pm [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC11WiMAXCampusDeployment/bbn%20%20Talk-GEC11.pdf slides] [[BR]] Four slides: Base Station configuration; range and throughput experiment configuration; Mobile Station code/script; measurement results and conclusions [[BR]] === Measurements and Experimenter Support Summary === 4:40pm [[Image(071511d_Sol2_MesoScale_WiMAX_ProjectSummaries.jpg, 80%)]] [[BR]] === GENI Experiments === MIT experiments, using BBN and UCLA sites: evaluate ARQ and HARQ changes to better support video streaming [[BR]] Danail Traskov (MIT) [[BR]] 4:45pm [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC11WiMAXCampusDeployment/GENI-07-2011-Danail.pptx slides] [[BR]] Four slides: Experiment goal; experiment configuration; Mobile Station code/script; measurement results and conclusions [[BR]] === Spiral 3 Roadmap: Next Steps === 4:55pm This roadmap shows the original and *current goals that apply to the GENI WiMAX projects: [[BR]] 1) Install and bring up WiMAX base station kit, including the ASN Gateway. (GEC10, or earlier) ALL COMPLETED [[BR]] 2) Evaluate range and thoughput of WiMAX base station kit and Linux PC with Intel WiMAX modem card and/or mobile station used for for experiments. (GEC10, or earlier) (GEC11) FIRST RESULTS NOW [[BR]] 3) Install and bring up an instance of OMF/OML. (GEC10, or earlier) (*GEC12) (except UMass) [[BR]] 4) Operate and maintain the WiMax BS and the related GENI controller, using ORBIT Management Framework (OMF), with support for remote access by GENI users. (GEC11) (*GEC12) (except UMass) [[BR]] 5) Present a mobility demo using WiMAX base station node, including the ASN Gateway, a Linux PC with Intel WiMAX modem card, or the dual-mode vehicular nodes, supporting both WiFi and WiMAX, required for your experiments, and a local instance of OMF/OML. (GEC10) (*GEC12) === Steps to Deploying OMF/OML in WiMAX Sites and Experiments === 1) Use Cases Harry Mussman (BBN) [[BR]] 5:00pm [[BR]] Use Case 1) Service from Local or Internet Application [[BR]] Local user connects MS via WiMAX to BS, and receives service from applications on a local network or via the Internet. Similar to commercial 4G service. [[BR]] Use Case 2) Experiment with “Fixed” Mobile Node (Station) [[BR]] Local or remote experimenter logs in to BS and uses OMF/OML to setup and run experiment between “fixed” mobile node (“in window”) and fixed node. This is essential to be able to support a remote experimenter. [[BR]] Use Case 3) Experiment with “Roaming” Mobile Node (Station) [[BR]] Local experimenter logs in to BS and uses OMF/OML to setup experiment between “roaming” mobile node (that is connected to BS) and fixed node, and starts experiment in fixed node. [[BR]] Then, local experimenter disconnects mobile node from BS, and uses Exp Cntrl Srvc on mobile node to run experiment in mobile node while the roaming, storing data on Meas Srvr on mobile node. [[BR]] Finally, local experimenter reconnects mobile node to BS, and transfers data from Meas Srvr on mobile node to Meas Srvr at BS. [[BR]] [[Image(Visio-062811b_pp5-6_WiMAXSystemOverview_Page_1.jpg, 90%)]] [[BR]] [[Image(Visio-072711b_pp5-9_WiMAXSystemOverview_Page_2.jpg, 90%)]] [[BR]] [[Image(Visio-072711b_pp5-9_WiMAXSystemOverview_Page_3.jpg, 90%)]] [[BR]] [[Image(Visio-072711b_pp5-9_WiMAXSystemOverview_Page_4.jpg, 90%)]] [[BR]] 2) Features Harry Mussman (BBN)[[BR]] 5:05pm [[BR]] 3) Coded and Tested at WINLAB Ivan Seskar (Rutgers WINLAB)[[BR]] 5:10pm [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC11WiMAXCampusDeployment/winlab%20%202011-07-27%20GEC11.pptx slides] [[BR]] Four slides [[BR]] 4) Integrated and Tested at BBN Manu Gosain (BBN)[[BR]] 5:20pm [[BR]] Four slides [[BR]] [[Image(Visio-062811b_pp5-6_WiMAXSystemOverview_Page_2.jpg, 90%)]] [[BR]] 5) Questions [[BR]] 5:30pm [[BR]] === WiMAX Software Summary === [[Image(071511b_Sol2_MesoScale_WiMAX_ProjectSummaries.jpg, 80%)]] [[BR]] === Adjourn === 5:45pm == Spiral 3 Roadmap == This roadmap shows the original and *current goals that apply to the GENI WiMAX projects: [[BR]] 1) Install and bring up WiMAX base station kit, including the ASN Gateway. (GEC10, or earlier) ALL COMPLETED [[BR]] 2) Evaluate range and thoughput of WiMAX base station kit and Linux PC with Intel WiMAX modem card and/or mobile station used for for experiments. (GEC10, or earlier) (GEC11) FIRST RESULTS NOW [[BR]] 3) Install and bring up an instance of OMF/OML. (GEC10, or earlier) (*GEC12) (except UMass) [[BR]] 4) Operate and maintain the WiMax BS and the related GENI controller, using ORBIT Management Framework (OMF), with support for remote access by GENI users. (GEC11) (*GEC12) (except UMass) [[BR]] 5) Present a mobility demo using WiMAX base station node, including the ASN Gateway, a Linux PC with Intel WiMAX modem card, or the dual-mode vehicular nodes, supporting both WiFi and WiMAX, required for your experiments, and a local instance of OMF/OML. (GEC10) (*GEC12) 6) Install and bring up experiment-controlled L2 (or OpenFlow) switch, to provide enhanced connectivity from the WiMAX testbed to the GENI backbone. (GEC11) (*?) [[BR]] 7) Install and bring up Virtual Base Station (vBS)server, to support multiple simultaneous experiments (slicing) on the GENI WiMAX base station node. (GEC11) (*?) [[BR]] 8) Present mobility and/or application demos/experiments, showing support for multiple simultaneous experiments (slicing) of the GENI WiMAX base station node, and remote access by GENI users, utilizing experiment-controlled L2 (or OpenFlow) switch, and Virtual Base Station (vBS) server. (GEC11) (*?) [[BR]] == WiMAX Developer Support == [http://groups.geni.net/geni/wiki/WiMAXInteg WiMAX Meso-Scale Deployment Integration] [[BR]] WiMAX Developer Mailing List [[BR]] To post to this list, [mailto:wimax-developer@winlab.rutgers.edu send your email to wimax-developer@winlab.rutgers.edu] [[BR]] PLEASE use this list for all questions, dialog, etc. [[BR]] == WiMAX Experimenter Support == [http://groups.geni.net/geni/wiki/WiMAXExper WIMAX Experiments] [[BR]] Suggested mailing lists for WiMAX experimenters: [[BR]] [http://lists.geni.net/mailman/listinfo "GENI mailing lists"], including the dev, discuss and geni-announce lists, plus working groups that cover your interests. [[BR]] [mailto:wimax-experimenter@email.orbit-lab.org mail to wimax-experimenter@email.orbit-lab.org] for experimenters / [http://www.orbit-lab.org/cgi-bin/mailman/listinfo/wimax-experimenter subscribe] / [http://www.orbit-lab.org/cgi-bin/mailman/private/wimax-experimenter/ mailman archieve][[BR]]