wiki:GEC17Agenda/EveningDemoSession

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GEC 17 Evening Demo Session

Location

Schedule

Sunday July 21, 2013 5:30pm - 7:30pm

Session Leaders

Heidi Picher Dempsey, GENI Project Office

Details

The evening demo session gives new and existing GENI experimenters and projects a chance to share their work in a live network environment. Demonstrations run for the entire length of the session, with teams on hand to answer questions and collaborate. This page lists scheduled demonstrations categorized in broad interest groups.

Directions and Logistics

Please visit Directions and Logistics for attendee and presenter logistics information.

Projects

GENI Infrastructure and Measurement Projects

LEARN: GIMI Measurements to Detect Ping Attack

We will emulate a ping attack between 2 hosts and take measurements using GIMI. Once detected, a new flow definition will be added to deny pings.

Participants:

GENI Experimenter Portal

Demonstrate the GENI Portal interface to the GENI Clearinghouse. We will demonstrate logging in to the GENI portal and creating and managing projects and slices (which are created at the GENI Clearinghouse). We will demonstrate reserving resources on the GENI racks directly through the portal and also via integration with a GUI resource reservation tool (Flack) and a command line resource reservation tool (omni). In addition, we may demonstrate modifying project and slice membership as well as integration with I&M tools (GEMINI & GIMI) if possible.

Participants:

Global Network Monitoring Based on Mininet Approach

The problem of the Global network operation analysis has a variety of applications. In this paper we show an approach to this problem on example of malware propagation in the Global networks (Wide Area Network).

It is very important to be able to make accurate prediction of the consequences of such propagation. This paper introduces a new approach to malware propagation prediction based on the ideas presented by Mininet network rapid prototyping approach.

The major barriers to use simulation techniques for malware propagation analysis are enormous network size and low level granularity in protocol data unit processing. Mininet cannot be used for this purpose too because of its low level scalability. In this paper, we propose a new system called Mininet CE (Cluster Edition) which is based on the ideas of existent Mininet.

Mininet CE offers the solution of the Global network functionality analysis problems. In this paper, we focus on propagation analysis of a malware as network worm. The experiments with the worm Sasser demonstrate the ability of Mininet CE to be useful tool for worm propagation analysis in the Global network.

Participants:

ExoGENI/ORCA Demos

The ExoGENI team will demonstrate the latest features of ExoGENI and ORCA control framework.

Participants:

  • Ilya Baldin, RENCI, Ilia Baldine

The GENI Desktop

The GENI Desktop provides users with the ability to visually "see" their experiment/topology and also to invoke a variety of different tools to create, run, measure their experiments.

Participants:

Mid-Atlantic Crossroads (MAX) Demo

In this demonstration we will demonstrate stitching between GENI Racks. We will also review the GENI stitching architecture and current implementation. This will include demonstration of a the latest Stitching Computation Services (SCS). We will also show how SCS interacts client tools and utilizes advertisement RSpecs and request RSpecs to compute stitching solutions and workflow information. This demonstration will include provisioning across the GENI Aggregate Manager for the Internet2 ION network.

Participants:

Internet2 OpenFlow Demo Request

Internet2 will demo progress toward implementing GENI interfaces on its Advanced Layer2 Service production network. We will show FOAM/OE-SS integration, which allows FOAM to allocate VLANs over the Advanced Layer 2 Service as part of a larger GENI experiment.

Participants:

GENI @ SoX Project Updates

We will present updates on the GENI deployments at the SoX regional including progress on the Software Defined eXchange (SDX).

Participants:

Security and Data Exchange Projects

LEARN: Software-defined distributed security

Deployment of a distributed firewall implementation by vArmour on GENI. An application steering server will convert firewall rules into flow entries so that the load on firewall units is reduced.

Participants:

Experiments and Education

ExoGENI / GIMI

This is a combined ExoGENI/GIMI demo that will show how GIMI can be used to observe an experiment that is carried out on an ExoGENI slice. I will demonstrate the GIMI portal and its instrumentation and measurement services.

Participants:

LEARN: OFConfig Protocol: visualization of the management plane in OpenFlow/SDN networks

We will implement a demo with a Network Manager that runs a Netconf client in order to push/pull configurations to/from LINC switches using OFConfig Protocol. We will help display the management plane interface with OFConfig parameters for LINC switches.

Participants:

DRC: Distributed Resource Controller

We will demonstrate our Distributed Resource Controller (DRC) architecture. DRC allows multiple SDN controllers to share information and coordinate actions. It uses a graph database to store network state (physical and abstracted) and shadows subgraphs to control how much information is shared and to propagate state changes between controllers. We will show how it works using an example in which a provider shares an abstracted view of its network with customers to allow them to configure their VPNs.

Participants:

Remote Training of Surgeons using Virtual Reality

We will demonstrate a telemedicine application through which a surgeon can train a large number of students located across the United States. The participants (surgeon and students) will carry out the surgical operations using a haptic interface in a virtual reality setting. The surgeon can demonstrate key surgical steps and then handover control to a selected student to either practice or perform other surgical steps. The surgeon and other students can observe the steps being carried out give feedback as needed. The demonstration will use GENI resources for facilitating real-time interaction between the participants.

Participants:

Wireless Projects

Lehigh Video Mobility

Demonstrate mobility support feature for streaming video service in Lehigh's content centric network.

Participants:

  • Mooi Choo Chuah, Lehigh University

Multi-homing support in MobilityFirst FIA

The name based message delivery system based on global unique identifiers (GUID) implemented in MobilityFirst makes it possible to offer seamless mobility and multi-homing services without the problems associated with today’s IP. In this demo we will show how an Android phone equipped with two different interfaces (WiFi and WiMax) attached to MobilityFirst's network could easily exploit this feature to enhance the capabilities of mobile applications. More information on MobilityFirst FIA project can be found at http://mobilityfirst.winlab.rutgers.edu

Participants:

WiMAX Lab Course at NYU-Poly

Demonstration of open wireless lab exercises utilizing GENI WiMAX resources

Participants:

WiMAX Prototyping in Metro Detroit

We will demonstrate the GENI-enabled OpenXC platform as well as its application in vehicular sensing and control. We will also share our comprehensive measurement results for the WiMAX network in Detroit.

Participants:

Wimax Video Demo

We will present video transcoding system, OptVid. OptVid provides better video streaming service to the user leveraging video transcoding service on the WiMAX networks.

Participants:

TV Whitespace Demo

This demo shows the feasibility and benefits of using mobile spectrum sensors mounted on vehicles for studying spectral characteristics in TV whitespaces (i.e., unoccupied channels in UHF and VHF bands). The setup consists of three components - the mobile client, the server, and the front-end (laptop). The mobile client is a laptop connected to a portable spectrum analyzer, both being deployed in a vehicle driving on the road. The spectrum analyzer will be continuously collecting spectral samples, feeding them to the laptop for real-time detection of whitespace spectrum. The detection results will be transfered to the server using the WiRover system on the vehicle. The server will visualize this data, and expose a web interface for the front-end laptop to display.

Participants:

Demsontrate handover solutions in GENI WiMAX

Scenario: An user at home is on video Skype call over a WiFi? interface. Midway through the call, the user wants to roam out of his home while continuing his Skype call. Prior to leaving his home, he initiates a connection handover from WiFi? to WiMAX interface. The user then roams roams outside to region where the connection to another WiMAX basestation is stronger than the first WiMAX basestation. Therefore, the user initates handover from WiMAX basestation to the another without breaking the ongoing Skype call.

Technology demonstrated: The handover from WiFi? to WiMAX interfaces on the same node relies on a OpenV switch implemented at the client. The Clemson team have implemented a client software to perform this handover using the OpenV switch. The handover between WiMAX basestations relies on mobile IP implementation. The University of Wisconsin team has the software on the infrastructure side implementing the mobile IP solution. The demonstration will show both these capabilities and the seamlesss integration between the two.

Participants:

Wirover Video Demo

WiRover demo will show actively communicating gateways installed on Madison Metro buses that are equipped with cameras and screens exchanging media content utilizing the GENI infrastructure.

Participants:

Federation / International Projects

International GENI(iGENI)

we will demonstrate projects of members of the Consortium For International Advanced Networking Research using The "Slice Around The World" as a platform for Advanced Network Research and other Science Research.

The "Slice Around the World" demonstration initiative was established to demonstrate the powerful potential of designing and implementing world-wide environments consisting of Global computational and storage clouds closely integrated with highly programmable networks. The initiative has been established by network research centers/research labs that are participating in multiple next generation networking activities, including those developing large scale distributed experimental network research environment, such as those be implemented by such initiatives as the NSF Global Environment for Network Innovations (GENI), the EU Future Internet Research Environment (FIRE), the Japanese New Generation Internet, the Korean Future Internet initiatives, the German Future Internet Lab (G-Lab), the Brazilian future Internet initiative and others. These environments are being developed by researchers for researchers. An important goal for many of the current projects would be to have persistent global environments directly developed and managed by the research community to support their experimental research.

Participants:

Attachments (6)