[[PageOutline]] = WiMAX Meso-Scale Deployment Integration = == 1. Projects == Campus deployment projects: [[BR]] [wiki:WIMXBBN WiMAX at BBN Technologies] [[BR]] [wiki:WIMXCOLUM WiMAX at Columbia University] [[BR]] [wiki:WIMXNYUPT WiMAX at Polytechnic Institute of NYU] [[BR]] [wiki:WIMXUCLA WiMAX at UCLA] [[BR]] [wiki:WIMXUCO WiMAX at University of Colorado at Boulder][[BR]] [wiki:WIMXUMASS WiMAX at UMass Amherst] [[BR]] [wiki:WIMXUWI WiMAX at University of Wisconsin] [[BR]] [wiki:WIMXRG Open GENI WiMAX Base Station Kit for Campus Deployments][[BR]] [http://groups.geni.net/geni/wiki/WiMAX WIMAX Design and Prototype][[BR]] [http://groups.geni.net/geni/wiki/ORBIT ORBIT Design and Prototype] [[BR]] [http://omf.mytestbed.net/ OMF (cOntrol and Management Framework)][[BR]] [http://www.orbit-lab.org/ ORBIT Testbed][[BR]] [http://www.winlab.rutgers.edu/docs/focus/GENI.html GENI Projects at WINLAB][[BR]] [http://groups.geni.net/geni/wiki/Mile_QSR_Process Process for updating Milestones, submitting QSRs] [[BR]] == 2. Meetings and Demos == Suggested mailing lists for Cluster E and WIMAX Integration participants: [[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:cluster-e-admin@winlab.rutgers.edu mail to cluster-e-admin@winlab.rutgers.edu] for PIs. / [http://lists.winlab.rutgers.edu/listinfo/cluster-e-admin subscribe] / [http://lists.winlab.rutgers.edu/private/cluster-e-admin/ mailman archieve][[BR]] [mailto:cluster-e-user@winlab.rutgers.edu mail to cluster-e-user@winlab.rutgers.edu] for users / [http://lists.winlab.rutgers.edu/listinfo/cluster-e-user subscribe] / [http://lists.winlab.rutgers.edu/private/cluster-e-user/ mailman archieve][[BR]] [http://groups.geni.net/geni/attachment/wiki/Gec6Agenda/2009-11-17%20GEC6%20WiMAX%20Demo.pdf "WiMAX Base Station Demo at GEC 6, November 17, 2009"][[BR]] [http://groups.geni.net/geni/wiki/ClusterECall020810 Cluster E and WiMAX Deployment Call on February 8, 2010][[BR]] [ Cluster E and WiMAX Deployment Call on March 1, 2010][[BR]] [http://groups.geni.net/geni/wiki/Gec7ClusterEAgenda Cluster E and WiMAX Deployment Meetings at GEC7 March 16 and 17, 2010][[BR]] [ "WiMAX Base Station Demo at GEC 7, March 16, 2010"][[BR]] == 3. References and Documents == [http://groups.geni.net/geni/attachment/wiki/WiMAXInteg/WiMAX%20Concepts%20and%20RF%20Measuremnts%20by%20HP%20%20%20%20WiMAX-details.pdf WiMAX Concepts and RF Measurements, IEEE 802.16-2004 WiMAX PHY layer operation and measurements, Hewlett Packard Application Note] [[BR]] [http://www.wimaxforum.org/about WiMAX Forum][[BR]] [http://www.wimaxforum.org/resources/documents/technical WiMAX Forum Technical Specifications] [[BR]] [http://www.wimaxforum.org/resources/documents/technical/T32 "WiMAX Forum Network Architecture Release 1.0 Version 4 - Stage 2: Architecture Tenets, Reference Model and Reference Points"] [[BR]] [http://groups.geni.net/geni/attachment/wiki/WiMAX/GENI_WiMax_System_Engg_v0.1.pdf GENI WiMAX Project: System Engineering Summary][[BR]] [http://groups.geni.net/geni/attachment/wiki/WiMAX/API_wimax_v1.0-3.pdf API Specification for Virtualized WiMAX Basestation] [[BR]] [http://www.winlab.rutgers.edu/WMPG D. Raychaudhuri and Editors M. Gerla, “New architectures and disruptive technologies for the future internet: The wireless, mobile and sensor network perspective” Report of NSF Wireless Mobile Planning Group (WMPG) Workshop, August 2005][[BR]] [http://www.obsai.org/ Open Base Station Architecture Initiative][[BR]] [http://code.google.com/android/ “Android: An Open Handset Alliance Project"][[BR]] [http://www.neceurope.com/PDF/NEC_Mobile_WiMAX_WhitePaper_Ver-D1.4_060513-2.pdf ”NEC’s broadband wireless access products”, NEC Corporation Technical White Paper][[BR]] [http://groups.geni.net/geni/attachment/wiki/OldGPGDesignDocuments/GDD-06-17.pdf “Wireless virtualization in GENI”, GDD-06-17, 2006] [[BR]] S. Paul, R. Yates, D. Raychaudhuri and J. Kurose, "The Cache-and-Forward Network Architecture for Efficient Mobile Content Delivery Services in the Future Internet", to appear in ITU-T Next Generation Networks (NGN) Conference, Geneva, May 2008. [[BR]] [http://omf.mytestbed.net/ OMF (cOntrol and Management Framework)][[BR]] [http://www.orbit-lab.org/ ORBIT Testbed][[BR]] [http://omf.mytestbed.net/wiki/omf/Documentation "Current OMF documents"] [[BR]] [http://groups.geni.net/geni/attachment/wiki/ClusterE/Visio-062509b%20%20ORBITOverview.pdf "Cluster E Overview Drawing"][[BR]] [http://groups.geni.net/geni/attachment/wiki/ORBIT/ORBITDiagram-2.pdf "ORBIT diagram"] [[BR]] [http://groups.geni.net/geni/wiki/ORBIT#Spiral1Connectivity ORBIT Connectivity][[BR]] (WiMAX connectivity from WINLAB follows ORBIT connectivity)[[BR]] OML is a measurement library developed in the context of OMF. [[BR]] [http://omf.mytestbed.net/projects/show/oml OML Overview (wiki)][[BR]] [http://groups.geni.net/geni/attachment/wiki/ClusterE/OML%20%20-%20oct%2009.pdf OML Overview (slides)][[BR]] == 4. System Engineering == Ongoing WiMAX standards work is done by the [http://www.wimaxforum.org/about WiMAX Forum]. See, for example, the [http://www.wimaxforum.org/resources/documents/technical WiMAX Forum Technical Specifications] [[BR]] An technical overview of WiMAX network architecture is presented in [http://www.wimaxforum.org/resources/documents/technical/T32 "WiMAX Forum Network Architecture Release 1.0 Version 4 - Stage 2: Architecture Tenets, Reference Model and Reference Points"], including:[[BR]] Fig 6-1) Network Reference Model [[BR]] [[Image(figure6-1networkrefmodel.jpg, 40%)]] [[BR]] Fig 6-2) ASN Reference Model [[BR]] [[Image(figure6-2asnrefmodel.jpg, 40%)]] [[BR]] A technical overview of the GENI WiMAX project is presented in: [http://groups.geni.net/geni/attachment/wiki/WiMAX/GENI_WiMax_System_Engg_v0.1.pdf GENI WiMAX Project: System Engineering Summary]. The GENI WiMAX project currently utilizes commercial NEC WiMAX equipment as the basis of its WiMAX campus deployment kit, including a Profile A Base Station and a separate ASN Gateway, joined by the R6 interface, per Figure 6-2, above. The R6 interface implementation is not fully standardized, and thus includes NEC-specific functions. For the GENI WiMAX project, the WiMAX campus deployment kit provides the GENI Researcher with much flexibility: The use of a Profile A Base Station with an exposed R6 interface enables the researcher to monitor and control the base station radio functions. [[BR]] The ASN gateway utilizes some essential NEC code, but removes many high-level WiMAX functions (e.g., roaming) and allows the researcher to implement their own.[[BR]] Finally, the ASN gateway includes slicing functions, to allow the base station and ASN gateway to be shared by multiple researchers at the same time.[[BR]] Later in 2010, NEC will be updating their WiMAX equipment to utilize a Profile C Base Station, where some of the current ASN gateway functions are included in the Base station, and fully standardized R6 interface is exposed. When this occurs: The current GENI-specific ASN gateway software will have to be modified, with an effort of at leat 2 MM. [[BR]] The researcher will have diminished ability to monitor and control the base station radio functions. [[BR]] System engineering issues:[[BR]] || No || Issue || Who || Opened || Resolved || Resolution || Note || || 4.1 || "GENI WiMAX" ID: Each WiMAX deployment requires an ID, a parameter used within the base station and each client. Currently, Routgers WINLAB is using the Sprint/Clearwire ID, but this can only be temporary. We need to apply for and receive a "GENI WiMAX" ID. || Michel, Seskar || 12/09 || - || - || Where do we apply? Are there any barriers?|| || 4.2 || Range and capacity: Need to be able to estimate the expected range and capacity of a completed installation, and how this varies with antenna height, to guide each campus in their planning. Also, how this varies depending on the number of clients and their data rates. || Michel, Seskar || 12/09 || - || - || Seskar: Have some data from Rutgers WINLAB site, and expect more when Rutgers Bush Campus site is in service. || || 4.3 || - || - || - || - || - || - || || 4.4 || - || - || - || - || - || - || || 4.5 || - || - || - || - || - || - || == 5. GENI D&P WiMAX Infrastructure Buildout == The overall GENI buildout plan is funded by an NSF contract, and is summarized in [http://groups.geni.net/geni/attachment/wiki/WiMAXInteg/113009%20v0.5%20GENIDandPInfraBuildouts.pdf GENI D&P WiMAX Infrastructure Buildout].[[BR]] It includes a map of the participating campuses: [[BR]] [[Image(fig1wimaxcampusbuildout.jpg, 50%)]] [[BR]] And a list of involved researchers and IT leaders: [[BR]] [[Image(tabl1campusresanditlead.jpg, 40%)]] [[BR]] The WiMAX Kit Project (1753) outlined the usage plans for each campus: [[BR]] [[Image(tablesiteplan.jpg, 60%)]] [[BR]] As part of the Spiral 1 WiMAX D&P prject, two WiMAX campus deployment kits were purchased for: Rutgers, WINLAB[[BR]] NEC Labs America [[BR]] The WiMAX Kit Project (1753) is purchasing and supplying WiMAX campus deployment kits to the following campuses. In addition, it is providing a limited number of client platform kits. Rutgers, Bush Campus [[BR]] Columbia University [[BR]] Polytechnic Institute of NYU[[BR]] UCLA[[BR]] University of Colorado at Boulder[[BR]] UMass Amherst[[BR]] University of Wisconsin[[BR]] The following campus purchased their own kit; Stanford [[BR]] In addition, the following additional GENI-related campuses and sites may separately purchase the necessary equipment to build their own WiMAX campus deployment kits, and then deploy them with aid from the GPO and Rutgers WINLAB: BBN Technologies [[BR]] University of Wisconsin, 2nd site? [[BR]] other?[[BR]] Buildout issues: [[BR]] || No || Issue || Who || Opened || Resolved || Resolution || Note || || 5.1 || Who wants additional kits: We need to compile a list of GENI-related campuses and sites that want to purchase the necessary equipment to build their own WiMAX campus deployment kits. Current list: BBN Technologies (firm); University of Wisconsin, 2nd site (?); other? || Mussman || 12/09 || - || - || We need this to be firm by 3/31/10, to be ready to place the order. || || 5.2 || How to order additional kits: We need to understand how to order the key components from NEC for a WiMAX campus deployment kit, both BofM and process. || Rangarajan || 2/10 || - || - || We need this by 3/31/10, to be ready to place the order. || || 5.3 || - || - || - || - || - || - || || 5.4 || - || - || - || - || - || - || || 5.5 || - || - || - || - || - || - || == 6. WiMAX Campus Deployment Kit == Fig 1-1) System Overview [[BR]] [[Image(Visio-111309b_WiMAXSystemOverview_Page_1.jpg, 90%)]] [[BR]] === 6.1 Configuration === Fig 1-2a) Hardware and Networking [[BR]] [[Image(Visio-111309b_WiMAXSystemOverview_Page_2.jpg, 90%)]] [[BR]] Figure 1-2a) shows the full configuration with three servers: [[BR]] ASNGW-03, that provides combined ASN GW functions. [[BR]] ASNGW-02, that provides virtualized ASN GW functions, for separate slices. [[BR]] OMF-04, that provides a set of OMF/OML functions. [[BR]] In some cases, a campus already has a set of OMF/OML functions, and would likely not require the OMF-04 server:[[BR]] Rutgers, WINLAB[[BR]] Rutgers, Bush Campus[[BR]] Polytechnic Institute of NYU[[BR]] For the initial bringup, it should be possible to load all functions into one server.[[BR]] Issue: Are there campuses that can complete their expected experiments operating with only one server? two servers? === 6.2 NEC Hardware === Fig 1-2b) NEC BTS IDU, ODU and Antenna [[BR]] [[Image(Visio-111309b_WiMAXSystemOverview_Page_3.jpg, 90%)]] [[BR]] === 6.3 -48VDC Power === Both the NEC ODU and IDU are, as telecom systems, powered by a -48VDC power source. [[BR]] It is recommended that two separate -48VDC power supplies, with 110VAC feeds, be provided, one for each unit. This avoids the need for a -48VDC distribution panel, with circuit breakers, and yet still allows individual control for each unit. Furthermore, it allows the power supply for the ODU to be mounted in a weathertight box on the roof, if that is preferred to mounting with the indoor testbed equipment.[[BR]] Power feed connections are outlined in the [http://groups.geni.net/geni/attachment/wiki/WiMAXInteg/CampusInstallation/BS_INSTALLATION.pdf NEC Installation Manual for Base Station (IMN:BS)][[BR]] The recommended configuration for the ODU is:[[BR]] ODU mounted outdoors, on roof, with maximum of 4A required at -48VDC[[BR]] One 10m (approx 30ft) outdoor power cable, two conductors, 12AWG, rated for outdoor use, with [http://www.mouser.com/ProductDetail/Hirose-Electric/JR25WP-4S71/?qs=XQjbzJWzFPXdY8jaH9VFFw%3d%3d ODU Circular Connector], soldered onto cable. [[BR]] One power supply for ODU, Mean Well [http://www.mouser.com/ProductDetail/Mean-Well/SP-240-48/?qs=sGAEpiMZZMu0oxGuRuNKH0QVy%252bJkdvy3pTeB%252b96yGok%3d SP-200-48], 110VAC input, -48VDC output, rated 4.2A or 200W, mounted in testbed equipment room, or outdoors on roof, in weathertight enclosure (see UMass Amherst).[[BR]] The recommended configuration for the IDU is:[[BR]] IDU mounted indoors, in testbed equipment room, with maximum of 8.4A required at -48VDC (in full configuration with all 3 sector boards).[[BR]] One 10m (approx 30ft) indoor power cable, two conductors, 10AWG, with one [http://www.mouser.com/ProductDetail/Tyco-Electronics-AMP/1-917807-2/?qs=sGAEpiMZZMufdu5QM0tCwRkkU7pYPyzb IDU Rectangular Power Connector] and four [http://www.mouser.com/ProductDetail/Tyco-Electronics/316041-2/?qs=vsAvTP%252bC%252bzGB86TzaaMK%252bA%3d%3d IDU Rectangular Power Connector Contacts ], two for each of the positive and negative DC power rails, crimped onto cable with a special tool, or soldered. [[BR]] One power supply for IDU, Mean Well [http://www.mouser.com/ProductDetail/Mean-Well/SP-320-48/?qs=vSyGtvivC8zwzazZzxeJ9g%3d%3d SP-320-48], 110VAC input, -48VDC output, rated 6.7A or 320W, mounted in tesbed equipment room. [[BR]] === 6.4 Software Modules === Fig 1-3a) Software [[BR]] [[Image(Visio-111309b_WiMAXSystemOverview_Page_4.jpg, 90%)]] [[BR]] === 6.5 Messages and APIs === Fig 1-3b) Messages and APIs [[BR]] [[Image(Visio-111309b_WiMAXSystemOverview_Page_5.jpg, 90%)]] [[BR]] === 6.6 Virtualization === Fig 1-4) Virtualization [[BR]] [[Image(Visio-111309b_WiMAXSystemOverview_Page_6.jpg, 90%)]] [[BR]] === 6.7 Control and Management === Fig 1-5) Control and Management [[BR]] [[Image(Visio-111309b_WiMAXSystemOverview_Page_7.jpg, 90%)]] [[BR]] === 6.8 Federation === During initial bringup, each WiMAX testbed will operate as a self-contained OMF-controlled testbed. Then, various WiMAX testbeds will be federated, by implementing: Coordinated OMF control of two or more testbeds by one experimenter. Connecting experiment data from testbeds together, using a VLAN carried by a GENI backbone. Issue: How will federation among WiMAX testbeds be accomplished? === 6.9 Kit Bill of Materials === The following WiMAX base station kit items are supplied by NEC. [[BR]] For the six WiMAX campus deployment projects, they will be purchased by Rutgers WINLAB as part of the WiMAX kit project, and provided to the campus projects. [[BR]] For the additional campuses, sites, they will be purchased by the campus directly from NEC. [[BR]] || Item || Supplier || Part No || Description || Qty || Cost Each || Cost Total || Note || || 1.1 || NEC || NWA-025035-001 || 2.5GHz SECTOR ANT: Antenna, dual-polarization, omnidirectional antenna, for operation in the 2.5GHz range. || 1 || - || - || - || || 2.1 || NEC || NWA-027932-001 || NEC 2.5GHz ODU: Base Station Outdoor Unit, for connection to one antenna. || 1 || - || - || - || || 3.1 || NEC || NWA-024297 || IDU: Base Station Indoor Unit, equipped equipped for 1-Sector Configuration, with one Network Interface (NW INTFC) card and one Channel Card (CHC). || 1 || - || - || - || || 3.2 || NEC || - || Network Interface (NW INTFC) card || 1 || - || - || - || || 3.3 || NEC || - || Channel Card (CHC) || 1 || - || - || - || || 4.1 || NEC || - || 100m (approx 300ft) of dual fiber cable, rated for outdoor mounting, yellow SM, with connectors || 1 || - || - || - || The following WiMAX base station kit items have a variety of suppliers. [[BR]] For the six WiMAX campus deployment projects, they will be purchased by Rutgers WINLAB as part of the WiMAX kit project, and provided to the campus projects. [[BR]] For the additional campuses, sites, they will be purchased by the campus (or provided by Rutgers WINLAB for convenience). [[BR]] || Item || Supplier || Part No || Description || Qty || Cost Each || Cost Total || Note || || 5.1 || - || - || 1m (approx 3ft) (or as needed) antenna cable, LMR300 (or LMR400) coax, with N connectors || 1 || - || - || - || || 5.2 || - || - || Lightning arrestor, for use with ODU antenna cable connection || 1 || - || - || - || || 6.1 || - || - || 10m (approx 30ft) outdoor power cable, two conductors, 12AWG, rated for outdoor use, with [http://www.mouser.com/ProductDetail/Hirose-Electric/JR25WP-4S71/?qs=XQjbzJWzFPXdY8jaH9VFFw%3d%3d ODU Circular Connector], soldered onto cable || 1 || - || - || - || || 6.2 || Mouser: Hirose || JR25WP-4S71 || [http://www.mouser.com/ProductDetail/Hirose-Electric/JR25WP-4S71/?qs=XQjbzJWzFPXdY8jaH9VFFw%3d%3d ODU Circular Connector] || 1 || - || - || - || || 6.3 || - || - || Additional outdoor power cable, as needed, two conductors, 12AWG, rated for outdoor use, to extend from roof down to indoor testbed equipment room || ? || - || - || - || || 7.1 || - || - || 10m (approx 30ft) indoor power cable, two conductors, 10AWG, with one [http://www.mouser.com/ProductDetail/Tyco-Electronics-AMP/1-917807-2/?qs=sGAEpiMZZMufdu5QM0tCwRkkU7pYPyzb IDU Rectangular Power Connector] and four [http://www.mouser.com/ProductDetail/Tyco-Electronics/316041-2/?qs=vsAvTP%252bC%252bzGB86TzaaMK%252bA%3d%3d IDU Rectangular Power Connector Contacts ], two for each of the positive and negative DC power rails, crimped onto cable with a special tool, or soldered. || 1 || - || - || - || || 7.2 || Mouser: Tyco/Amp || 1-917807-2 || [http://www.mouser.com/ProductDetail/Tyco-Electronics-AMP/1-917807-2/?qs=sGAEpiMZZMufdu5QM0tCwRkkU7pYPyzb IDU Rectangular Power Connector] || 1 || - || - || - || || 7.3 || Mouser: Tyco/Amp || 316041-2 || [http://www.mouser.com/ProductDetail/Tyco-Electronics/316041-2/?qs=vsAvTP%252bC%252bzGB86TzaaMK%252bA%3d%3d IDU Rectangular Power Connector Contacts ] || 4 || - || - || - || || 8.1 || - || - || Server, loaded with ASN-GW and ORBIT Management Framework software, for use during installation and initial checkout, and perhaps for final operating configuration || 1 || - || - || - || The following tools will be provided on-loan by Rutgers WINLAB to campuses, for use in crimping power connectors: [http://search.digikey.com/scripts/DkSearch/dksus.dll?lang=en&site=US&WT.z_homepage_link=hp_go_button&KeyWords=234171-1&x=14&y=18 Crimping tool for D-5 Series] [[BR]] [http://search.digikey.com/scripts/dksearch/dksus.dll?pname&site=us&lang=en&wt.mc_id=Dxn_US_US2010_Catlink&name=A32487-ND Pin extraction tool for D-5 Series] [[BR]] The following WiMAX base station kit items have a variety of suppliers, and are purchased by each campus: [[BR]] || Item || Supplier || Part No || Description || Qty || Cost Each || Cost Total || Note || || 9.1 || - || - || Outdoor site, with pole for mounting of antenna and Base Station Outdoor Unit, grounded to building ground for lightening protection || 1 || - || - || In some locales, the installation and grounding will need to be certified by a professional engineer || || 9.2 || - || - || Pole for mounting of antenna and Base Station Outdoor Unit || 1 || - || - || - || || 9.3 || - || - || Ground cable, as needed. || 1 || - || - || - || || 10.1 || Mouser: MeanWell || SP-240-48 || Power supply for ODU, Mean Well [http://www.mouser.com/ProductDetail/Mean-Well/SP-240-48/?qs=sGAEpiMZZMu0oxGuRuNKH0QVy%252bJkdvy3pTeB%252b96yGok%3d SP-200-48], 110VAC input, -48VDC output, rated 4.2A or 200W, mounted in testbed equipment room, or outdoors on roof, in weathertight enclosure (see UMass Amherst) || 1 || - || - || - || || 10.2 || - || - || As needed, one weatherproof container on roof, to mount ODU power supply. || ? || - || - || see UMass Amherst || || 11.1 || - || - || Indoor site, with racks, for mounting of Base Station Indoor Unit and Linux Servers || 1 || - || - || - || || 11.2 || Mouser: MeanWell || SP-320-48 || Power supply for IDU, Mean Well [http://www.mouser.com/ProductDetail/Mean-Well/SP-320-48/?qs=vSyGtvivC8zwzazZzxeJ9g%3d%3d SP-320-48], 110VAC input, -48VDC output, rated 6.7A or 320W, mounted in testbed equipment room || 1 || - || - || - || || 11.3 || - || - || Servers, for loading with ASN-GW and ORBIT Mangement Framework software, for final operating configuration || 0 - 3 || 1,600 || 0 - 4,800 || Depends on final configuration || || 11.4 || - || - || Ethernet switch ports for multiple VLANs || - || - || 0 - 2,500 || OpenFlow compatible switch desired; PC-based design underway that utilizes FPGA card, total value: $1300 + $400 = $1700 || === 6.10 Kit Hardware, Integration and Delivery === The WiMAX Kit Project (1753) divided up projects tasks this way: [[BR]] [[Image(table1projecttasks.jpg, 50%)]] [[BR]] The WiMAX Kit Project (1753) established this high-level schedule: [[BR]] [[Image(fig6schedule.jpg, 50%)]] [[BR]] Software releases follow this plan: The first sets of kit hardware were ordered in 2008 and delivered in 2009, as part of Spiral 1: [[BR]] || Kit || Ordered || Received || Integrated || Delivered || Where || Note || || A1 || 2008 || 2009 || 2009 || 2009 || Rutgers WINLAB || p/o ORBIT testbed || || A2 || 2008 || 2009 || 2009 || 2009 || Rutgers WINLAB || software testing || The second sets of kit hardware were ordered in 2009 and will be delivered in 2010, as part of Spiral 2: [[BR]] || Kit || Ordered || Received || Integrated || Delivered || Where || Note || || B1 || 2009 || plan 5/10 || ? || ? || ? || ? || || B2 || 2009 || plan 5/10 || ? || ? || ? || ? || || B3 || 2009 || plan 5/10 || ? || ? || ? || ? || || B4 || 2009 || plan 5/10 || ? || ? || ? || ? || || B5 || 2009 || plan 5/10 || ? || ? || ? || ? || || B6 || 2009 || plan 5/10 || ? || ? || ? || ? || || B7 || 2009 || plan 5/10 || ? || ? || ? || ? || It is expected that a third sets of kit hardware will be ordered in 2010 and will be delivered in ?, For those cmapuses not included in the Spiral 2 projects, or for campuses that want to install additional kits. [[BR]] || Kit || Ordered || Received || Integrated || Delivered || Where || Note || || C1 || 3/10 || ? || ? || ? || ? || ? || || C2 || 3/10 || ? || ? || ? || ? || ? || || C3 || 3/10 || ? || ? || ? || ? || ? || || C4 || 3/10 || ? || ? || ? || ? || ? || || C5 || 3/10 || ? || ? || ? || ? || ? || === 6.11 Kit Issues === || No || Issue || Who || Opened || Resolved || Resolution || Note || || 6.1 || No. of servers in kit: Are there campuses that can complete their expected experiments operating with only one server? two servers? || Mussman, Seskar, team || - || - || - || - || || 6.2 || Federation of WiMAX testbeds: How will federation among WiMAX testbeds be accomplished? || Mussman, Seskar, team || - || - || - || - || || 6.3 || - || - || - || - || - || - || || 6.4 || - || - || - || - || - || - || || 6.5 || - || - || - || - || - || - || == 7. WiMAX Client Platform Kit == [http://groups.geni.net/geni/wiki/WiMAXInteg/ClientPlatforms continue] [[BR]] == 8. WiMAX Campus Installation and Deployment == [http://groups.geni.net/geni/wiki/WiMAXInteg/CampusInstallation continue] == 9. WiMAX Experiments == [http://groups.geni.net/geni/wiki/Experiments continue]