[[PageOutline]] = Catalog of WiMAX Experiments, Demos and Tutorials = == 1. References == === 1.1 How to Run Experiments on GENI WiMAX Testbeds === [http://groups.geni.net/geni/wiki/GENIExperimenterWelcome/Repository/WiMax overview and instructions] === 1.2 OMF/OML in WiMAX Sites and Experiments === [http://groups.geni.net/geni/wiki/GEC11WiMAXCampusDeployment#StepstoDeployingOMFOMLinWiMAXSitesandExperiments use cases] [[BR]] === 1.3 Writing and Conducting WiMAX Experiments Using OMF/OML at GEC11 === [http://groups.geni.net/geni/wiki/OMFWiMAXExperiments#a2.Guidetothisdocument guide to document] [[BR]] [http://groups.geni.net/geni/wiki/OMFWiMAXExperiments#a5.BasicWiMAXthroughputexperiment reference WiMAX throughput experiment] [[BR]] [http://groups.geni.net/geni/wiki/OMFWiMAXExperiments#a10.Conductinganexperiment conducting an experiment] [[BR]] === 1.4 Using OMF and OML in Your Experiment at GEC12 === Christoph Dwertmann (NICTA) [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC12WiMaxDeploymentAndExperimentation/omf-gec10%20copy.pdf slides] [[BR]] [http://groups.geni.net/geni/wiki/OMFWiMAXExperiments#GENIWiMAXExperimentsUsingOMFOML Basic throughput experiment using OMF/OML] [[BR]] OML'ified apps we know of include:[[BR]] gpslogger[[BR]] Iperf[[BR]] omf_nmetrics[[BR]] omf_trace[[BR]] otg and otr[[BR]] wlanconfig_oml[[BR]] Yantt (Yet another network testing tool)[[BR]] SNMP wrapper[[BR]] [http://oml.mytestbed.net/projects/omlapp/wiki Repository for OML'ified apps] [[BR]] List of available modules with OMF and OML for use in your experiment [[BR]] Approach for adding OMF and OML interfaces to additional modules [[BR]] === 1.5) Types of WiMAX Experiments in GENI === Paper including sections on basic and extended WiMAX sites, and on WiMAX research and service experiments: [http://groups.geni.net/geni/attachment/wiki/GEC13Agenda/WiMAXPlanning/020112b_ExtendingGENI_TridentCom2012.pdf pdf] [[BR]] == 2. Experiments and Demos == === 2.1 WiMAX Base Station Demo at GEC6 === See [http://groups.geni.net/geni/attachment/wiki/Gec6Agenda/2009-11-17%20GEC6%20WiMAX%20Demo.pdf slides][[BR]] This demo included: [[BR]] WiMAX coverage from Rutgers, WINLAB to an outdoor mobile client, driving in a loop. [[BR]] Throughput to an indoor mobile client, demonstrating imporved throughput due to traffic shaping. [[BR]] === 2.2 Demo Planning at GEC7 === See [wiki:gec7demoplan notes] [[BR]] At the GEC7 meeting on 3/16, Dipankar (Ray) Raychaudhuri led the campus projects in a discussion of research use cases and planned experiments; see === 2.3 Demo Planning for GEC8 and GEC9 === See [http://groups.geni.net/geni/wiki/GEC8GEC9DemoPlans notes] [[BR]] === 2.4 ParkNet Demo at GEC9 === See [http://groups.geni.net/geni/attachment/wiki/WiMAXExper/110311%20%20ParkNet%20%20WednesdayMorning.pptx slides][[BR]] === 2.5 "Wirel" Demo at GEC9 === This demo combines both WiMAX and OpenFlow elements. [[BR]] === 2.6 Measurements and Experiments at GEC10 === See [http://groups.geni.net/geni/wiki/GEC10WiMaxCampusDeployment#MeasurementsandExperimenterSupportSummary summary] [[BR]] === 2.7 Throughput and Range Measurements at GEC10 === [http://groups.geni.net/geni/wiki/GEC10WiMaxCampusDeployment#WiMAXRangeandThroughputMeasurementsandSitePlanning see] [[BR]] ==== Columbia University (1770) ==== PI: Henning Schulzrinne, Sung-Hoon Seo and Jan Janak: [[BR]] NA [[BR]] ==== Polytechnic Institute of NYU (1751) ==== PI: Thanasis Korakis [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC10WiMaxCampusDeployment/RangeThroughputExperiment%20%20%20NYU%20Poly%20%20Korakis_GENI_WiMAX_GEC10.ppt slides] [[BR]] Throughput from 0.5 to 12Mbps; asymmetry on the uplink and downlink; many variations in urban area. [[BR]] ==== UCLA (1797) ==== PI: Mario Gerla, Giovanni Pau [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC10WiMaxCampusDeployment/UCLA-WIMAX-ProjectReview-Mar-2011.pptx slides] [[BR]] Seeing 14Mb/s DL, 2 - 3 Mb/s UL; connect to vehicle up to 300 m; client always receives, but cannot always connect; helped by setting client IP address; windows client works better than Linux client. [[BR]] Poster from demo session: [ poster] [[BR]] ==== Colorado: (1768) ==== PI: Dirk Grunwald Univ. of Colorado, Boulder [[BR]] Studying U Colorado private network, built by Airspan. [[BR]] Starting data modeling using Anritsu MS2721B with WiMAX demodulator; acquiring propagation based model from Airspan deployment. [[BR]] Reference: Airspan plan for U Colorado [http://groups.geni.net/geni/attachment/wiki/ClusterECall022311/UoC%20-%20MacroMAXe%20RF%20Plan%20V1.1.pptx slides]. [[BR]] Reference: MS thesis on "Field Study of WiMAX Performance" [[BR]][http://groups.geni.net/geni/attachment/wiki/GEC10WiMaxCampusDeployment/Gronsund_Pal_master.pdf text]. [[BR]] ==== UMass Amherst (1731) ==== PI: Mark Corner, Brian Lynn [[BR]] NA Issue: Would like coverage to downtown Amherst, 1 mi away; can this be done? [[BR]] Issue: Can antenna be moved outside of bus for better range? Check with how UW Madison puts antennas on buses. [[BR]] ==== Wisconsin (1724) ==== PI: Suman Banerjee and Derek Meyer: [[BR]] Using dongle with Windows 7 PC; seen RSSI from -40 dbm down to -60 dbm; have seen connectivity up to 300 yds. [[BR]] Existing Cisco system: Connectivity to buses, equipped with large client antenna, up to 500M, for coverage over 1.25 sq mi.[[BR]] Poster from demo session: [ poster] [[BR]] ==== BBN Technologies, Cambridge MA ==== Manu Gosain and Harry Mussman: [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC10WiMaxCampusDeployment/031711%20%20BBNWiMAXRangeThroughMeas.ppt slides] [[BR]] Range and throughput experiment uses script in mobile station and server behind base station to evaluate connection with ping and iperf. Seeing good throughput (up to 14Mb/s DL and 1 - 2 Mb/s UL) to 0.25 mi, but not yet further. Soon, will vary BTS and iperf parameters to see if can find a set for greater distances at lower rates. Do not expect range beyond 0.6mi. [[BR]] === 2.8 Local Experiments at GEC10 === MIT experiments, using BBN BTS, started: evaluate ARQ and HARQ changes to better support video streaming Clemson experiments, using BBN and/or Rutgers BTS, started: evaluate DOS attack susceptibility Two experiments being planned at NYU Poly: See [http://groups.geni.net/geni/attachment/wiki/GEC10WiMaxCampusDeployment/OtherExperiments%20%20%20NYU%20Poly%20%20Korakis_GENI_WiMAX_GEC10.ppt slides] === 2.9 Measurements and Experiments at GEC11 === See [http://groups.geni.net/geni/wiki/GEC11WiMAXCampusDeployment#MeasurementsandExperimenterSupportSummary summary] [[BR]] === 2.10 Throughput and Range Measurements at GEC11 === [http://groups.geni.net/geni/wiki/GEC11WiMAXCampusDeployment#WiMAXSoftwareSummary see] [[BR]] ==== Columbia University (1770) ==== Marcus Knuepfer [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC11WiMAXCampusDeployment/columbia_GEC11_slides.ppt slides] [[BR]] Status:[[BR]] Situated 16 floors up, to cover the campus[[BR]] Completed signal strength measurements for downlink and uplink, at 125 locations; used www.gpsvisualizer.com to create coverage map, good coverage of campus. [[BR]] Future work:[[BR]] Teaching module[[BR]] Add NetServ programmable router (see Jae Woo Lee) [[BR]] ==== Polytechnic Institute of NYU (1751) ==== PI: Thanasis Korakis [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC11WiMAXCampusDeployment/Korakis_GENI_WiMAX_GEC11.ppt slides] [[BR]] Status: [[BR]] Using bit torrent in python scriptto collect location, uplink and downlink; do not need to initiate iperf again and again [[BR]] Presented througput results; max distance 0.5 miles for connectivity; max downlink 17mbps udp; max uplink 1 mbps udp; continuous operation,no failure; when it connects it works [[BR]] ==== UCLA (1797) ==== Giovanni Pau [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC11WiMAXCampusDeployment/ucla%20%20BBN%20%20Status%20%20GENI_WiMAX_20110724.ppt slides] [[BR]] Status:[[BR]] Wimax bs up ~ 6 months[[BR]] Throughput measurements; old version Intel 5150: starts well but gets too hot and then does not connect; will try out Intel 6250; window dongle does not work with linux[[BR]] In progress: integration of OMF/OML[[BR]] Piece of software in LUA[[BR]] HTC unlocked EVO phones ~800$, but only for LTE release 8,9[[BR]] ==== Colorado: (1768) ==== PI: Dirk Grunwald Univ. of Colorado, Boulder [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC11WiMAXCampusDeployment/colorado-slides.pdf slides] [[BR]] Status:[[BR]] Antenna 9 stories high. [[BR]] Bicycle setup for measuring signal strength with Anritsu analyzer[[BR]] Using kriging interpolated coverage map, to evaluate propagation models, by wimax-phd student[[BR]] Have REN Com network planning tool experimental license: testing out this software[[BR]] ==== UMass Amherst (1731) ==== Brian Lynn [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC11WiMAXCampusDeployment/UMass-GEC11-WiMAX.2.pdf slides] [[BR]] Status: [[BR]] 17 story building, using omni 8dbi antenna [[BR]] Connecting to Internet; not yet VLAN or I2 [[BR]] Mobile clients on 2 (soon 3) UMass transit buses; "bricks" with Intel 6250 [[BR]] Experiments can be automatically deployed; fll access to wimax driver functionality [[BR]] Get 5-7 Mbs/ DL to 0.25mi [[BR]] UL iperf unreliable [[BR]] ==== Wisconsin (1724) ==== PI: Suman Banerjee and Derek Meyer: [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC11WiMAXCampusDeployment/wisc%20%202011_07_27_Geni_Conference_v2.ppt slides] [[BR]] Status: [[BR]] DL RSSI good; download file from speedtest.net for throughput; see 0.5 to 1.5 Mb/s; coverage map at: [http://maps.google.com/maps/ms?authuser=0&vps=3&ie=UTF8&hl=en&oe=UTF8&msa=0&msid=217045253152239939437.0004a5e79e8190c437f85 link] [[BR]] Using python script [[BR]] Next steps: [[BR]] Kemp campus station rural area needs connectivity; [[BR]][http://groups.geni.net/geni/attachment/wiki/GEC11WiMAXCampusDeployment/Waisman%20WiMax%20Base%20Station%20-%20Google%20Maps.pdf map]; use 2nd GENI BS?; maybe move their BS to the wild [[BR]] ==== BBN Technologies, Cambridge MA ==== Hamed Soroush: [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC11WiMAXCampusDeployment/bbn%20%20Talk-GEC11.pdf slides] [[BR]] Status: [[BR]] Have completed Case 3 use case experiment, using OMF/OML in Dell netbook [[BR]] Explain OMF script [[BR]] TCP and UDP throughput measurements completed with iperf dual [[BR]] === 2.11 BBN Reference Throughput and Range Experiment at GEC11 === [http://groups.geni.net/geni/wiki/OMFWiMAXExperiments#a2.Guidetothisdocument guide to document] [[BR]] [http://groups.geni.net/geni/wiki/OMFWiMAXExperiments#a5.BasicWiMAXthroughputexperiment reference WiMAX throughput experiment] [[BR]] [http://groups.geni.net/geni/wiki/OMFWiMAXExperiments#a10.Conductinganexperiment conducting an experiment] [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC11WiMAXCampusDeployment/bbn%20%20Talk-GEC11.pdf results slides] [[BR]] === 2.12 MIT Experiments at GEC12 === MIT experiments, using BBN and UCLA sites: evaluate ARQ and HARQ changes to better support video streaming [[BR]] Danail Traskov (MIT) [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC11WiMAXCampusDeployment/GENI-07-2011-Danail.pptx slides] [[BR]] Experiment 1: How control loops for arq and harq interact; can we optimize the sub paramters withing arq and harq [[BR]] Experiment 2: heterogeneous networking with WiFi, WiMAX and Iridium [[BR]] === 2.13 Experiments at GEC12 === [http://groups.geni.net/geni/wiki/GEC12WiMaxDeploymentAndExperimentation#a4GENIWiMAXExperiments see] [[BR]] ==== Throughput Experiment Using iperf ==== Manu Gosain (GPO) and Harry Mussman (GPO) [[BR]] Overview of basic throughput experiment, using bidirectional iperf, both TCP and UDP [[BR]] [http://groups.geni.net/geni/wiki/OMFWiMAXExperiments#GENIWiMAXExperimentsUsingOMFOML Basic throughput experiment using OMF/OML] [[BR]] The basic throughput experiments we have done utilize iperf, both TCP and UDP. [[BR]] In iperf, the data is generated in the client, and flows to the server. [[BR]] We put the client in the Mobile Station, and the server in the Base Station. [[BR]] We used -d dualtest (bidirectional mode), where test is initiated at the client, data begins to flow to the server, and then a second data flow starts at the server; at the end of the test, results are available at the client. [[BR]] Because of this, all tests can be initiated at the Mobile Station, and then results are available there. [[BR]] iperf results in the TCP mode depend upon buffer sizes; overall delay; and lost packets. [[BR]] Because of wireless propagation conditions, lost packets are common, and slight changes can significantly affect the measured throughput. [[BR]] Thus, TCP results are highly variable; we took multiple measurements at each point, and identified the best and worst results. [[BR]] It would certainly be good to have a better way to evaluate available channel bandwidth. [[BR]] On the other hand, most apps use TCP and the variable results are typical of how these apps would see the channel. [[BR]] iperf results in the UDP mode, counts % packets received, for a given (fixed) transmit rate. [[BR]] If the rate is set below the available bandwidth, typically 100% of the packets are received. [[BR]] If the rate is set above the available bandwidth, typically % of the packets are received typically equals available bandwidth divided by offered bandwidth, but there is no way to understand how many packets are actually lost. [[BR]] An extended test that ramped up the offered bandwidth in multiple tests, could actually verify the available bandwidth; this could then be repeated to see real variations in available bandwidth. [[BR]] References: [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC12WiMaxDeploymentAndExperimentation/201007-JT_Iperf.pptx iperf tutorial slides] [[BR]] [http://openmaniak.com/iperf.php iperf tutorial web site][[BR]] ==== Throughput Experiment Using Bit Torrent ==== Fraida Fund (NYU Poly) [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC12WiMaxDeploymentAndExperimentation/NYU-Poly-WiMAX-BT-Experiment.pdf slides] [[BR]] Overview of throughput experiment, using bit torrent. [[BR]] Advantages [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC12WiMaxDeploymentAndExperimentation/NYU-Poly-WiMAX-BT-Experiment.pdf Reference] [[BR]] [http://witestlab.poly.edu/index.php/wimax/field-measurements.html More information & source code] [[BR]] [http://witestlab.poly.edu/index.php/component/user/?task=register Use the NYU-Poly WiMAX testbed] [[BR]] ==== Raw IP and UDP Traffic Generators ==== Surat (Au) Teerapittayanon (MIT) [[BR]] Overview of new raw IP and UDP traffic generators, to accurately gauge available channel bandwidth. [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC12WiMaxDeploymentAndExperimentation/GEC12Slides_plusreadme.ppt slides] [[BR]] ==== Using OMF and OML in Your Experiment ==== Christoph Dwertmann (NICTA) [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC12WiMaxDeploymentAndExperimentation/omf-gec10%20copy.pdf slides] [[BR]] [http://groups.geni.net/geni/wiki/OMFWiMAXExperiments#GENIWiMAXExperimentsUsingOMFOML Basic throughput experiment using OMF/OML] [[BR]] OML'ified apps we know of include:[[BR]] gpslogger[[BR]] Iperf[[BR]] omf_nmetrics[[BR]] omf_trace[[BR]] otg and otr[[BR]] wlanconfig_oml[[BR]] Yantt (Yet another network testing tool)[[BR]] SNMP wrapper[[BR]] [http://oml.mytestbed.net/projects/omlapp/wiki Repository for OML'ified apps] [[BR]] List of available modules with OMF and OML for use in your experiment [[BR]] Approach for adding OMF and OML interfaces to additional modules [[BR]] ==== Multiple Site Experiment: Mobility First ==== Kiran Nagaraja (WINLAB) [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC12WiMaxDeploymentAndExperimentation/MF-GEC12-PlenaryDemo-10-3-2011.pdf slides] [[BR]] Overview of current Mobility First multiple-site experiment. [[BR]] What additions are needed? [[BR]] 1) Add WiFi AP to each site. [[BR]] 2) L2 path from MS to core [[BR]] Experiment done without human intervention, by using x2 MAC addresses, and emulating packet loss to fake mobility. [[BR]] Consider these as possible sites by GEC13: WINLAB; BBN; NYU Poly; UCLA; Colorado. [[BR]] === 2.14 Multiple Site Experiment: Mobility First === Kiran Nagaraja (WINLAB) [[BR]] [http://groups.geni.net/geni/attachment/wiki/GEC12WiMaxDeploymentAndExperimentation/MF-GEC12-PlenaryDemo-10-3-2011.pdf slides] [[BR]] Overview of current Mobility First multiple-site experiment. [[BR]] What additions are needed? [[BR]] 1) Add WiFi AP to each site. [[BR]] 2) L2 path from MS to core [[BR]] Experiment done without human intervention, by using x2 MAC addresses, and emulating packet loss to fake mobility. [[BR]] Consider these as possible sites by GEC13: WINLAB; BBN; NYU Poly; UCLA; Colorado. [[BR]] === 2.15 Demos at GEC13 === ==== Cooperative Packet Recovery over Heterogeneous Networks ==== NYU Poly [[BR]] [http://groups.geni.net/geni/wiki/GEC13Agenda/EveningDemoSession#WiMAXatNYU-Poly:CooperativePacketRecoveryoverHeterogeneousNetworks link] [[BR]] ==== Performance Analysis of DDoS Detection Algorithms on Operational Network ==== Clemson [[BR]] [http://groups.geni.net/geni/wiki/GEC13Agenda/EveningDemoSession#ClemsonWimaxDemo link] [[BR]] ==== Demonstration of Robust Delivery Services and Multi-homing in MobilityFirst FIA ==== Rutgers WINLAB, and UMass Lowell [[BR]] [http://groups.geni.net/geni/wiki/GEC13Agenda/EveningDemoSession#DemonstrationofRobustDeliveryServicesandMulti-hominginMobilityFirstFIA link] [[BR]] === 2.16 Demos at GEC14 === ==== Multi-Site Experimentation with GENI WiMAX ==== Fraida Fund and Thanasis Korakis (Polytechnic Institute of NYU) [[BR]] [http://groups.geni.net/geni/wiki/GEC14Agenda/EveningDemoSession#Multi-SiteExperimentationwithGENIWiMAX link] [[BR]] ==== Running Opportunistic Mobile Wireless Network Experiments on ORBIT ==== Jiang Li (Howard University) [[BR]] [http://groups.geni.net/geni/wiki/GEC14Agenda/EveningDemoSession#RunningOpportunisticMobileWirelessNetworkExperimentsonORBIT link] [[BR]] ==== Demonstration of a WiMAX-Optical hybrid network with dynamic switching ==== Cathy Chen (Columbia University) [[BR]] [http://groups.geni.net/geni/wiki/GEC14Agenda/EveningDemoSession#DemonstrationofaWiMAX-Opticalhybridnetworkwithdynamicswitching. link] [[BR]] ==== Performance Analysis of DDoS Detection Methods on GENI ==== Prof. Richard R Brooks, Ilker Ozcelik (Clemson University) [[BR]] [http://groups.geni.net/geni/wiki/GEC14Agenda/EveningDemoSession#PerformanceAnalysisofDDoSDetectionMethodsonGENI link] [[BR]] ==== Clemson WiMAX BW Contention Resolution and DDoS demo ==== Prof. Richard R Brooks, Katherine Cameron kccamer@clemson.edu (Clemson University) [[BR]] [http://groups.geni.net/geni/wiki/GEC14Agenda/EveningDemoSession#ClemsonWiMAXBWContentionResolutionandDDoSdemo link] [[BR]] ==== Global Name Resolution Service: Scalable Mobility Support in MobilityFirst FIA ==== Feixiong Zhang, Tam Vu, Akash Baid, Yanyong Zhang, Thu D. Nguyen, Kiran Nagaraja, Ivan Seskar, Dipankar Raychaudhuri (WINLAB, Rutgers University) [[BR]] [http://groups.geni.net/geni/wiki/GEC14Agenda/EveningDemoSession#GlobalNameResolutionService:ScalableMobilitySupportinMobilityFirstFIA link] [[BR]] ==== WiRover/WiMAX demo ==== Derek Meyer and Suman Banerjee (Wisconsin Wireless and NetworkinG Systems (WiNGS) laboratory, Cisco Systems) [[BR]] [http://groups.geni.net/geni/wiki/GEC14Agenda/EveningDemoSession#WiRoverWiMAXdemo link] [[BR]] === 2.17 Review of Types of WiMAX Experiments at GEC14 === [http://groups.geni.net/geni/wiki/GEC14Agenda/WiMAXDeploymentsAndExperiments#a3.1Typesofexperiments link] [[BR]] === 2.18 WiMAX Spectrum Survey Tool === [http://groups.geni.net/geni/wiki/GENIWiMaxSpectrumSurveyTool see] [[BR]] === 2.19 Wireless Demos at GEC15 === ==== Supporting !MobilityFirst in OpenFlow based SDNs ==== The key features of !MobilityFirst FIA are the GUID naming scheme and the storage aware routing. In this demo, we show that such features can be implemented on an OpenFlow switch by using appropriate control programs. Additionally, we also show that client mobility can be handled seamlessly in an OpenFlow set up. Participants: * Aravind Krishnamoorthy, aravind.k90@rutgers.edu ==== OFUWI: Network Coding ==== Our demo in GEC 15 will focus on delivering our progress on Network Coding project. Network Coding is addressing multiple wireless issues. We will present a poster with our current results. Participants: * Nairan Zhang, nairan.wisc@gmail.com ==== SENSORKITS ==== The GENI Sensor Kits using Wireless Sensor Networks project will demonstrate experiments designed for teaching science topics to secondary school students using GENI infrastructure. Participants: * Michael McGrath, mcgrath.57@buckeyemail.osu.edu ==== WiMAX at NYU-Poly ==== We will demonstrate a protocol we have implemented for cooperative packet recovery over heterogeneous networks (e.g. GENI WiMAX and !WiFi). This experiment (and several others) will be also featured in the GENI WiMAX tutorial at GEC15. Participants: * ffund01@students.poly.edu ==== !WiRover ==== Wisconsin Wireless and NetworkinG Systems (WiNGS) laboratory, Cisco Systems, !WiRover demo uilizing multiple interfaces. Participants: * Derek Meyer, dmeyer@cs.wisc.edu === 2.20 Wireless Demos at GEC16 === ==== Vertical Handoff Using OpenFlow ==== This demonstration will show how OpenFlow, Open vSwitch, and the Floodlight controller can be used as a vertical handoff solution between different network interfaces. Traffic will be generated from a server application, and with the handoff solution, will be sent using various networking interfaces to a client. The client will receive the traffic from the server. The interfaces used on the server will be alternated to show the handoff process. Participants: * Ryan Izard, rizard@clemson.edu ==== Network Coding on ProtoGENI for Vehicular Networks ==== Network coding using ProtoGENI testbed will be demonstrated. By implementing network coding and multipath forwarding capabilities in the core network, this demo is designed for supporting efficient broadband data delivery in infrastructure-based vehicular networks at Clemson. Participants: * Ke Xu, kxu@clemson.edu ==== Supporting !MobilityFirst in OpenFlow Based SDNs ==== !MobilityFirst (clean slate FIA project) has some unique features such as a globally unique naming scheme (GUID), storage aware routing etc. In this demo, we use GENI resources to show that such experimental non IP features can be enabled using OpenFlow based SDNs, by writing appropriate control programs that handle them. Participants: * Aravind Krishnamoorthy, aravind.k90@rutgers.edu ==== WiMAX Prototyping in Metro Detroit ==== Our initial coverage measurement and the tools we have developed to facilitate the road tests will be presented. We will also show the OpenXC platform and its integration with GENI, which may well benefit Wireless Vehicular Networking by offering you more insights into your car's operation. Participants: * Yu Chen, yuchen.wayne@gmail.com ==== Mobility Services Engine ==== A Demonstration of the Mobility Services Engine (MSE). This will be a live demonstration of the MSE using a laptop client. We will highlight some of the measurement capabilities of the system. Participants: * Derek Meyer, dmeyer@cs.wisc.edu ==== !MobilityFirst Network API use in Mobile Applications ==== One of the key feature of the proposed !MobilityFirst protocol stack is the service flexibility, with particular emphasis on multicasting and anycasting. In the demo we will show how this network service features could be easily exploited to enhance the capabilities of mobile applications through the use of the network API. Participants: * Ivan Seskar, seskar@winlab.rutgers.edu ==== WiMAX at NYU-Poly ==== Demonstration of wireless lab exercises utilizing GENI WiMAX resources. Participants: * ffund01@students.poly.edu ==== WiMAX DDoS Reverse Engineering ==== Our WiMAX research involves analyzing the cross-layer affects of the system parameters used for the Bandwidth Contention Process. We are specifically looking at how these parameters affect a subscriber station's (SS) throughput, packet loss rates, and vulnerability to Distributed Denial of Service (DDoS) attacks. Software simulations use the NS-2 simulator and hardware simulations are being conducted on ORBIT. The parameters investigated are request retires, backoff start, backoff end and frame duration. Participants: * Katherine Cameron, kccamer@clemson.edu ==== Freedom of Internet ==== Freedom of Internet is a project that aims to bring full interent accesss including annonmity of user to areas of West Africa where montioring and blocking is common practice. The project uses a variety of resources including Seattle resources. Participants: * Katherine Cameron, kccamer@clemson.edu === 2.21 Wireless Papers at Second GENI Research and Educational Experiment Workshop (GREE2013) === [http://groups.geni.net/geni/wiki/APRAGENI/GREE2013 link] ==== GENI WiMAX Performance Evaluation and Comparison of Two Campus Testbeds ==== [http://groups.geni.net/geni/attachment/wiki/Experiments/GENI%20WiMAX%20Performance%20Evaluation%20and%20Comparison%20of%20Two%20Campus%20Testbeds.pdf link] ==== WiMAX in the Classroom Designing a Cellular Networking Hands-on Lab ==== [http://groups.geni.net/geni/attachment/wiki/Experiments/WiMAX%20in%20the%20Classroom%20%20Designing%20a%20Cellular%20Networking%20Hand-on%20Lab%20%20CUEE2013-03-14.pdf link] ==== Malware Detection for Mobile Devices Using Software Defined Networking ==== [http://groups.geni.net/geni/attachment/wiki/Experiments/Malware%20Detection%20for%20Mobile%20Devices%20Using%20Software%20Defined%20Networking.pdf link] ==== Network Coding for Efficient Broadband Data Delivery in Infrastructure-based Vehicular Networks with OpenFlow ==== [http://groups.geni.net/geni/attachment/wiki/Experiments/Network%20Coding%20for%20Efficient%20Broadband%20Data%20Delivery%20in%20Infrastructure-based%20Vehicular%20Networks%20with%20OpenFlow.pdf link] ==== Cloud-based Handoff as a Service for Heterogeneous Vehicular Networks with OpenFlow ==== [http://groups.geni.net/geni/attachment/wiki/Experiments/Cloud-based%20Handoff%20as%20a%20Service%20for%20Heterogeneous%20Vehicular%20Networks%20with%20OpenFlow.pdf link] == 3. Tutorials == === 3.1 OML Tutorial at GEC9 === [http://groups.geni.net/geni/wiki/Gec9InstMeasWorkshopAgenda#OMLTutorial slides] [[BR]] === 3.2 OMF/OML Tutorial at GEC10 === [http://groups.geni.net/geni/wiki/GEC10OMFWiMaxTutorial link] [[BR]] === 3.3 GENI WiMAX Tutorial at GEC13 === [http://groups.geni.net/geni/wiki/GEC13Agenda/WiMAXTutorial link] [[BR]] === 3.4 GENI WiMAX Tutorial at !TridentCom 2012 on June 11, 2012 === [http://groups.geni.net/geni/wiki/GENIWiMaxTridentcomTutorial link] [[BR]] [http://groups.geni.net/geni/wiki/GENIWiMaxTridentcomTutorialSetup setup] [[BR]] === 3.5 OMF Tutorial at GEC14 === [http://groups.geni.net/geni/wiki/GEC14Agenda/OMFTutorial link] [[BR]] === 3.6 GENI WiMAX Tutorial at GEC14 === [http://groups.geni.net/geni/wiki/GEC14Agenda/WiMAXTutorial link] [[BR]] === 3.7 GENI WiMAX Tutorial at GEC15 === [http://groups.geni.net/geni/wiki/GEC15Agenda/WiMAXTutorial link] [[BR]] === 3.8 GENI WiMAX Tutorial at GEC16 === [http://groups.geni.net/geni/wiki/GEC16Agenda/WiMAX-Tutorial Experimentation with WiMAX and GIMI at GEC16] [[BR]]