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Sponsored by the National Science Foundation Wireless Infrastructure and GENI Ivan Seskar, Francesco Bronzino Rutgers University.

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Presentation on theme: "Sponsored by the National Science Foundation Wireless Infrastructure and GENI Ivan Seskar, Francesco Bronzino Rutgers University."— Presentation transcript:

1 Sponsored by the National Science Foundation Wireless Infrastructure and GENI Ivan Seskar, Francesco Bronzino Rutgers University

2 Sponsored by the National Science Foundation2GENI Introduction – 22 June 2014www.geni.net GENI: Infrastructure for Experimentation GENI provides compute resources that can be connected in experimenter specified Layer 2 topologies.

3 Sponsored by the National Science Foundation3GENI Introduction – 22 June 2014www.geni.net GENI Wireless Resources GENI RacksGENI Wireless (compute) nodes ORBIT Android Samsung Galaxy S2 handsets GENI WiMAX/LTE Base Stations

4 Sponsored by the National Science Foundation4GENI Introduction – 22 June 2014www.geni.net 29 Wimax/LTE Base Stations in 13 Sites 90+ android handsets available to experimenters 36 wireless (yellow) nodes Uniform experimenter experience using yellow nodes and OMF Sliced, virtualized and interconnected through Internet2 GENI WiMAX Deployments 2014

5 Sponsored by the National Science Foundation5GENI Introduction – 22 June 2014www.geni.net GENI WiMAX Deployment 2014 Wayne State Clemson U Michigan Columbia UMass U Wisconsin Madison U Colorado Boulder UCLA Stanford Rutgers Temple Drexel NYU

6 Sponsored by the National Science Foundation6GENI Introduction – 22 June 2014www.geni.net GENI WiMAX Spectrum Management Agreement with Sprint –Sprint and Rutgers University have signed a master spectrum agreement encompassing all WiMAX sites, to ensure operation in the EBS Band. –An emergency stop procedure, in case of interference with Sprint service, has been agreed upon. SciWinet GENI Mobile Virtual Network Operator (MVNO) - Partner with Sprint and Arterra (a Sprint partner) to create and operate an (MVNO) that serves the academic research community - The effort is led by Jim Martin, KC Wang and Ivan Seskar, to learn more: http://sciwinet.orghttp://sciwinet.org WiMAX Developers session Mon: 1:30pm – 3:30pm

7 Sponsored by the National Science Foundation7GENI Introduction – 22 June 2014www.geni.net OPEN BTS Software: WiMAX

8 Sponsored by the National Science Foundation8GENI Introduction – 22 June 2014www.geni.net OPEN BTS Software: LTE

9 Sponsored by the National Science Foundation9GENI Introduction – 22 June 2014www.geni.net GENI WiMAX Site Network Architecture WiMAX and Wifi edge networks. Layer 2 dataplane connectivity to GENI racks. Multi-point VLAN interconnecting all WiMAX sites via racks. Legend GENI-enabled hardware Layer 3 Control Plane Layer 2 Data Plane Research Backbones Internet Regional Network Wireless Edge g WiFi WiMAX

10 Sponsored by the National Science Foundation10GENI Introduction – 22 June 2014www.geni.net GENI Wireless Logical Architecture

11 Sponsored by the National Science Foundation11GENI Introduction – 22 June 2014www.geni.net GENI WiMAX Portal Integration GENI Portal accounts work with OMF login service. GENI wireless resources can be reserved and used with Portal accounts. WiMAX handoff tutorial @ GEC 20 used portal accounts to reserve ORBIT resources. Expansion plan to include to all GENI WiMAX sites by GEC 21.

12 Sponsored by the National Science Foundation12GENI Introduction – 22 June 2014www.geni.net Today’s Wireless Demos 1.MobilityFirst Demo, Francesco Bronzino, Rutgers University 2.Blending GENI with SciWiNet to Scale Education/Experimentation with Wireless, Jim Martin Clemson University 3.GENI-Enabled Vehicular Sensing and Control Networking: From Experiments to Applications, Jing Hua, Wayne State University, 4.Dynamic sensor value estimation for minimizing message exchange in wireless sensor networks, Fraida Fund, NYU Polytechnic School of Engineering, 5.GENI takes flight and the Pi in the Sky, Suman Banerjee, University of Wisconsin-Madison,

13 Sponsored by the National Science Foundation13GENI Introduction – 22 June 2014www.geni.net Mobilityfirst Architecture Design Separation of names (ID) and network addresses (NA). Public Key Based Globally Unique Identifiers (GUIDs) for network objects. Global Name Resolution Service (GNRS) for GUID NA mappings. Storage-informed segment transport, edge-aware routing. Extensible in-network services. Sue’s Phone Joe’s Laptop Media File A Context C Context Naming Service Content Naming Service Host Naming Service Globally Unique Flat Identifiers Global Name Resolution Service Integrated Storage and Computing In-route Dynamic Resolution Hop-by-hop Transport

14 Sponsored by the National Science Foundation14GENI Introduction – 22 June 2014www.geni.net Compute Layer Concepts Provide easy extensibility/upgrade options for data plane. ISPs can use in- network computing to provide value added services (e.g. caching, security, etc.). Computing hosts running service instances strategically deployed at one or more Points of Presence (PoPs). Src GUID Src NA Dst GUID Dst NA SID Ext. Service Type Service GUID Arguments Service Extension Header Base Network Header Integrated in data plane Computing hosts running service instances

15 Sponsored by the National Science Foundation15GENI Introduction – 22 June 2014www.geni.net Compute Layer Examples In-network processing and aggregation of sensor data: –sensed data from vehicles and other in-field sensors can be aggregated in the network by a compute layer service explicitly requested by the originator of the sensed data, thus reducing load on a centralized server. Dynamic binding for Context GUID: a local context defined as ‘unoccupied cabs in location X’ can be named using a GUID and resolved dynamically by an in-network compute layer service pulling information from a dispatch service to determine what end points qualify for delivery request messages. In-line video transcoding: More to follow…

16 Sponsored by the National Science Foundation16GENI Introduction – 22 June 2014www.geni.net Demo Scenario GNRS Service Plane GUIDLocatorLocator TypeExpiry CP1GUIDnever P119NA1 day M53aNA1min 1. P1 Publishes content C Network 53 Network 53a (4G) Network 53b (wifi) Provider P1 Cloudlet Mobile M get( c ) Network 19 5. Lookup of M 4. Lookup of C 2. Mobile M requests C 2. Transcoding service T registers with router 6. Chunk forwarded to compute layer 7. Transcoded chunk returned

17 Sponsored by the National Science Foundation17GENI Introduction – 22 June 2014www.geni.net Demo Topology UC Davis U Illinois Wisconsin U Utah U Rutgers Wifi Client Wimax Client Transcoding Service Video Server GNRS Service distributed between nodes

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