Changes between Version 13 and Version 14 of GEC13Agenda/EveningDemoSession
- Timestamp:
- 02/15/12 14:57:28 (13 years ago)
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GEC13Agenda/EveningDemoSession
v13 v14 85 85 86 86 === SeRViTR and GpENI Demo === 87 Secure and Resilient Virtual Trust Routing Framework for Future Internet 87 Secure and Resilient Virtual Trust Routing Framework for Future Internet [[BR]] 88 88 Demo Participants: Shingo Ata, Deep Medhi, Dijiang Huang, Akira Wada, Tianyi Xing, Xuan Liu, Parikshit Affiliation: Osaka City University, Arizona State University and University of Missouri – Kansas City 89 89 Demonstration of Secure and Resilient Virtual Trust Routing (SeRViTR) infrastructure between three geographically distributed sites: SeRViTR is a secure and resilient routing network architecture in which services with differences in trustability, guarantees and priorities can co-exist in a virtualized environment. We will demonstrate the resilient virtual trust routing in a single domain constructed between three universities, and the effect of policy management on the virtual routing in the domain. 90 90 91 Great Plains Environment for Network Innovation (GpENI) - Dynamic Network Reconfiguration 91 Great Plains Environment for Network Innovation (GpENI) - Dynamic Network Reconfiguration [[BR]] 92 92 Demo Participants: Deep Medhi, Parikshit Juluri, Xuan Liu, Shuai Zhao. Affiliation: University of Missouri – Kansas City 93 Demonstration of Dynamic Network Reconfiguration on GpENI (Great Plains Environment for Network Innovation) programmable testbed: GpENI is an international testbed centered on a Midwest US regional optical network that is programmable at all layers of the protocol stack, using PlanetLab, VINI, and DCN, and interconnected to ProtoGENI in the US and G-Lab and ResumeNet in Europe. We will demonstrate Dynamic Network Reconfiguration on GpENI-VINI, which includes the changing of network topology, packet flow during the reconfiguration process.93 Demonstration of Dynamic Network Reconfiguration on GpENI (Great Plains Environment for Network Innovation) programmable testbed: GpENI is an international testbed centered on a Midwest US regional optical network that is programmable at all layers of the protocol stack, using PlanetLab, VINI, and DCN, and interconnected to ProtoGENI in the US and G-Lab and !ResumeNet in Europe. We will demonstrate Dynamic Network Reconfiguration on GpENI-VINI, which includes the changing of network topology, packet flow during the reconfiguration process. 94 94 95 95 === K-GENI demo === … … 99 99 === Syndicate demo === 100 100 101 Syndicate is a distributed read-write filesystem which harnesses a CDN to deliver file data to a scalable number of readers. It provides the semantics of a traditional distributed filesystem, but by leveraging a CDN it decouples read performance from file persistence. This allows users to keep their data in Syndicate on the media of their choice without impacting aggregate read bandwidth. We will present a walk-through of the functionality Syndicate offers to users, and show how many readers spread across PlanetLab can concurrently read a large file from an origin server's USB stick by streaming the data through a CoBlitz CDN instance in VICCI.101 Syndicate is a distributed read-write filesystem which harnesses a CDN to deliver file data to a scalable number of readers. It provides the semantics of a traditional distributed filesystem, but by leveraging a CDN it decouples read performance from file persistence. This allows users to keep their data in Syndicate on the media of their choice without impacting aggregate read bandwidth. We will present a walk-through of the functionality Syndicate offers to users, and show how many readers spread across PlanetLab can concurrently read a large file from an origin server's USB stick by streaming the data through a !CoBlitz CDN instance in VICCI. 102 102 103 103 === !MySlice over SFA GUI demo === … … 150 150 === !WiMax and CIAN collaboration === 151 151 152 This will be a demo of the current initiative to integrate the WiMax basestation with the "smart optical switching test bed" at Columbia University. This is a collaboration between groups at Columbia to demonstrate the smart cross-layer switching ofWiMax data through an optical switch with dynamic routing.152 This will be a demo of the current initiative to integrate the !WiMax basestation with the "smart optical switching test bed" at Columbia University. This is a collaboration between groups at Columbia to demonstrate the smart cross-layer switching of !WiMax data through an optical switch with dynamic routing. 153 153 154 154 === Streaming between vehicle and infrastructure using Network Coding === 155 155 156 The demo will consist of a video stream from a vehicle to infrastructure over one or more wireless channels (WIMAX and/or WiFi). The quality of the channel is impaired by mobility and external interference. Network Coding can improve video quality by introducing redundancy when needed. This demo will show the effectiveness of Network Coding in such a disruptive environment.156 The demo will consist of a video stream from a vehicle to infrastructure over one or more wireless channels (WIMAX and/or !WiFi). The quality of the channel is impaired by mobility and external interference. Network Coding can improve video quality by introducing redundancy when needed. This demo will show the effectiveness of Network Coding in such a disruptive environment. 157 157 158 158 === Clemson Wimax Demo ===