Changes between Version 85 and Version 86 of GEC22Agenda/EveningDemoSession

Timestamp:

03/02/15 15:38:06 (9 years ago)

Author:

lnevers@bbn.com

Comment:

--

GEC22Agenda/EveningDemoSession

@@ -134 +134 @@
 
 ==== GENI for Classes / GENI for the Masses ====
-*''This demo shows two educational offerings available on GENI: the GENI Classroom-as-a-Service on the wireless testbeds (GENI for classes), and the GENI MOOC which includes browser-based lab exercises in a Massive Open Online Class delivery format (GENI for the masses).  Visit us if you are an educator, or if you are interested in engineering or computer science and engineering education at all levels.''
+''This demo shows two educational offerings available on GENI: the GENI Classroom-as-a-Service on the wireless testbeds (GENI for classes), and the GENI MOOC which includes browser-based lab exercises in a Massive Open Online Class delivery format (GENI for the masses).  Visit us if you are an educator, or if you are interested in engineering or computer science and engineering education at all levels.''
 
 This demo showcases two educational offerings built on GENI and available for general use. The GENI Classroom-as-a-Service is a set of experiments designed to complement traditional courses on computer networks, wireless and mobile computing, or wireless communications. To date, it has been used by hundreds of students in over a dozen classes. We will also demo GENI MOOC, an experiment-based Massive Open Online Course (MOOC) on the subject of computer networks, with lab experiments that run on GENI resources. This course is aimed at beginners who want to learn about how the Internet works, students who want an introduction to some research topics in networking, and instructors who may use these browser-based experiments as in-class demonstrations or homework assignments.
@@ -148 +148 @@
 
 ==== Using the Mars Game to Teach Math ====
-*''This demo shows the Mars Game prototype deployment in GENI. Visit us to learn more about digital game-based learning, education and US Ignite.''
+''This demo shows the Mars Game prototype deployment in GENI. Visit us to learn more about digital game-based learning, education and US Ignite.''
 
 Mars Game is a web platform for teaching math to ninth and tenth grade students.
@@ -163 +163 @@
 
 ====  Course Modules for Teaching Networking Concepts ====
-
-*''Stop by this demo if you are an educator who teaches undergraduate networking courses, and are interested in using our education modules -- ready to use in your class. These consist of concept demonstration modules as well as student assignment modules. More at http://geni.web.unc.edu ''
+''Stop by this demo if you are an educator who teaches undergraduate networking courses, and are interested in using our education modules -- ready to use in your class. These consist of concept demonstration modules as well as student assignment modules. More at http://geni.web.unc.edu ''
 
 Participants:
@@ -176 +175 @@
 
 ==== Multipoint Connected Collaboration ====
-*''This demo will profile open source gigabit videoconferencing using commodity hardware.  Please stop by our demo if you are interested in high-definition, high fidelity video conferencing for any application such as STEM education or healthcare.''
+''This demo will profile open source gigabit videoconferencing using commodity hardware.  Please stop by our demo if you are interested in high-definition, high fidelity video conferencing for any application such as STEM education or healthcare.''
 
 The demo will show the improved visual and audio fidelity of Multipoint Connected Collaboration when compared with commodity videoconferencing. It excels where fine visual detail and clear sound are important to a presentation or conference as is often the case in connected STEM education and connected healthcare. 
@@ -190 +189 @@
 
 ==== Tele-microscopy for Education ====
-*''This demo shows high school students in Tennessee using a network accessible microscope at USC.''
+''This demo shows high school students in Tennessee using a network accessible microscope at USC.''
 
 Participants:
@@ -202 +201 @@
 
 ==== Collaborative Exploration in Networked VR Environments, and Application to Remotely-Guided Classroom ====
-*''This demo shows preliminary work on a networked virtual reality system for education about alternative energy devices.''
+''This demo shows preliminary work on a networked virtual reality system for education about alternative energy devices.''
 
  We demonstrate an educational virtual reality environment that models a real alternative energy center. We seek to inspire and motivate the STEM workforce of tomorrow through exciting Virtual Reality approaches that teach renewable energy concepts and clearly show size, arrangement, and inter-operation of plant components. We are expanding the VR system to use high-performance networks to support bi-directional VR interaction between experts at a university or at the solar plant and high schools students at a STEM magnet academy. Such technologies will overcome geographic barriers to accessing expert instructors and will support virtual field trips with live instructors. 
@@ -217 +216 @@
 
 ==== A Cloud Enabled Virtual Reality Based Pedagogical Ecosystem for Solar and Wind Energy Education ====
-
-*''This demo shows a working prototype of a virtual reality based system to train students/trainees in the field of Solar and Wind Energy.  Please stop by our table if you are interested in cloud based virtual reality applications, workforce development, and green energy.''
+''This demo shows a working prototype of a virtual reality based system to train students/trainees in the field of Solar and Wind Energy.  Please stop by our table if you are interested in cloud based virtual reality applications, workforce development, and green energy.''
 
 The demo will introduce a scalable and transferable cloud-based virtual reality pedagogical ecosystem that provides learners with the relevant skills in the area of solar and wind energy, and associated environmental engineering.
@@ -240 +238 @@
 
 ==== GENI Enabling an Ecological Science Community ====
-*''This demo shows how UWM uses GENI WiMAX to support ecological field research and classes.  Visit us to see how ecologists and network scientists collaborate.''
+''This demo shows how UWM uses GENI WiMAX to support ecological field research and classes.  Visit us to see how ecologists and network scientists collaborate.''
 
 The University of Wisconsin-Madison's GENI WiMAX installations have extended to the Kemp Natural Resource Station in northern Wisconsin. We are GENI enabling the research facility of ecology students and field classes for research connectivity out in the forest and lake areas. This demo shows the current infrastructure, planned research sites, and video coverage at Kemp. 
@@ -254 +252 @@
 
 ==== Tracking World-wide Pollution ====
-*''No Description Available.''
+''No Description Available.''
 
 Participants:
@@ -266 +264 @@
 
 ==== PlanIT Impact ====
-*'' This demo exhibits a new resource impact tool for the architectural design and planning process intended to mainstream sustainable design at a national scale.  Please stop by this demo if you are  interested in building performance, energy and water efficiency, greenhouse gas emission, and sustainable design.''
+'' This demo exhibits a new resource impact tool for the architectural design and planning process intended to mainstream sustainable design at a national scale.  Please stop by this demo if you are  interested in building performance, energy and water efficiency, greenhouse gas emission, and sustainable design.''
 
 PlanIT Impact is currently the only design tool that integrates gigabit internet speed, Open Data, and geo-locating infrastructure to provide a 3D-immersive resource impact reporting tool. Ultimately, the purpose of PlanIT Impact is to decrease the negative impacts that our built environment have on our environment. The current reality is that, according to 2013 US Energy Administration statistics, commercial and residential buildings emit almost as much CO2 and use nearly as much energy as the transportation and industrial sectors combined. While design and planning professionals, municipalities and other building-related individuals are actively pushing to reduce these impacts, the tools needed to do so are limited in function and prohibitively expensive to access.
@@ -283 +281 @@
 ==== A Cloud Enabled Virtual Reality Based Pedagogical Ecosystem for Solar and Wind Energy Education ====
 
-*''This demo shows a working prototype of a virtual reality based system to train students/trainees in the field of Solar and Wind Energy.  Please stop by our table if you are interested in cloud based virtual reality applications, workforce development, and green energy.''
+''This demo shows a working prototype of a virtual reality based system to train students/trainees in the field of Solar and Wind Energy.  Please stop by our table if you are interested in cloud based virtual reality applications, workforce development, and green energy.''
 
 The demo will introduce a scalable and transferable cloud-based virtual reality pedagogical ecosystem that provides learners with the relevant skills in the area of solar and wind energy, and associated environmental engineering.
@@ -291 +289 @@
 Participants:
   * Pramod Abichandani, pramod@minerva.ece.drexel.edu, Drexel University. 
-
 
 {{{
@@ -339 +336 @@
 
 ==== Adagio ====
-*''This demo shows a working prototype of an emergency communication service in St. Louis, Missouri.''
+''This demo shows a working prototype of an emergency communication service in St. Louis, Missouri.''
 
 Participants:
@@ -351 +348 @@
 
 ==== Viditor - Online Video Editing ====
-*''This demo shows a working prototype of an emergency communication service in St. Louis, Missouri."
+''This demo shows a working prototype of an emergency communication service in St. Louis, Missouri."
 
 ParticipantsL
@@ -371 +368 @@
 
 ==== Virtual Reality Based Training Activities in Orthopedic Surgery (US Ignite/GENI technology) ====
-*''Dr. Pirela-Cruz demonstrates multimedia and haptic interfaces on a distributed VR application for training orthopedic residents.  Visit us to learn about networked medical applications.''
+''Dr. Pirela-Cruz demonstrates multimedia and haptic interfaces on a distributed VR application for training orthopedic residents.  Visit us to learn about networked medical applications.''
 
 This demonstration involves highlighting a distributed approach to training orthopedic medical residents using Virtual Reality (VR) based simulation environments; this application exploits the capabilities of the Global Environment for Network Innovation (GENI) national test bed infrastructure.  Our demonstration will show how expert surgeons in different hospitals can interact with medical trainees at others locations and teach them the fundamentals of orthopedic surgery. The high-definition multimedia streaming and haptic interfaces associated with the VR environment will enable trainees to remotely observe, participate and practice surgical techniques virtually from different locations (and also provides ‘on demand’ access to such medical educational and training resources).
@@ -391 +388 @@
 
 ====  !SeaCat: Securing Access to Medical Records ====
-*''This demo will show how access to a medical record system can be secured from handheld devices like tablets and mobile phones.  Stop by this demo if you are interested in how end-to-end isolation on both the network and the device can be used to provide secure access to sensitive data from mobile devices thus providing strong protection against data exfiltration. ''
+''This demo will show how access to a medical record system can be secured from handheld devices like tablets and mobile phones.  Stop by this demo if you are interested in how end-to-end isolation on both the network and the device can be used to provide secure access to sensitive data from mobile devices thus providing strong protection against data exfiltration. ''
 
 Securing access to an OpenMRS system (an open source medical record system) by deploying it in the !SeaCat Application Containment framework.
@@ -407 +404 @@
 
 ==== 3D Tele-Rehabilitation ====
-*''This demo shows a working prototype of a next generation communication system using 3D video and force feedback devices.  Please stop by our demo table if you are interested in real-time applications demonstrating use of Kinect cameras, 3D rendering and force feedback devices. ''
+''This demo shows a working prototype of a next generation communication system using 3D video and force feedback devices.  Please stop by our demo table if you are interested in real-time applications demonstrating use of Kinect cameras, 3D rendering and force feedback devices. ''
 
 This demo has two identical systems located in (virtually) remote locations. The purpose of this demo is to show an application that demands high bandwidth and multi-modal communication between two remote systems. The application we choose is 3D Tele-Rehabilitation. The goal of the application is to virtually recreate a physical therapy session between a patient and a therapist. The 3D models of the two participants are captured using a 3D Camera that is available off the shelf (Microsoft Kinect v2.0). These 3D models are placed in a shared virtual environment of our choosing. To simulate the physical touch part of a physical therapy session we use a Haptic force- feedback device, the data from which is also transmitted to and fro to create a force feedback element in the virtual environment. This application is just an example of what can be achieved with a next generation networks/protocols that support high bandwidth and low latency communication. 
@@ -420 +417 @@
 }}}
 
-
 ==== Physical Therapy As a Service ====
 
-*''This demo shows a working prototype of an interactive interface that supports remote physical therapy between a clinic and a home, as tested between Columbia, MO and Kansas City homes.  Please stop by our demo if you are interested in healthcare applications and/or gigabit applications.''
+''This demo shows a working prototype of an interactive interface that supports remote physical therapy between a clinic and a home, as tested between Columbia, MO and Kansas City homes.  Please stop by our demo if you are interested in healthcare applications and/or gigabit applications.''
 
 This demo will show an example of a gigabit application that includes an interactive video conferencing+ interface between a physical therapist in a clinic and a patient in a home. The Microsoft Kinect is used for both video conferencing as well as quantitative movement assessments which are computed on the patient in the home using a depth camera and delivered to the physical therapist in real time. This system would allow quantitative assessments of balance and gait, more frequent assessments, and more frequent exercise updates, with better convenience to consumers. 
@@ -437 +433 @@
 
 ==== Live Transcoding ====
-
-*''This demo shows a drone that sends live video over a WiMAX connection.  Visit us if you're interested in city testbeds and emergency services.''
+''This demo shows a drone that sends live video over a WiMAX connection.  Visit us if you're interested in city testbeds and emergency services.''
 
 The WiNGS lab is working to set up a city-wide testbed utilizing WiMAX base stations for connectivity to many client devices. This demo shows a drone we use to transcode live video we send over the WiMAX connection. We are looking at using this technology to assist emergency response vehicles with real-time updates while they are enroute. 
@@ -488 +483 @@
 
 ==== KanREN-GENI/GpENI ====
-
-This poster presents the current state of infrastructure deployment in KanREN-GENI and GpENI, including the location and status of Brocade OpenFlow switches in higher education institutions throughout the state of Kansas, and its relationship to other GENI infrastructure, including the KU and UMKC InstaGENI racks, and the GpENI testbed. 
+''This poster presents the current state of infrastructure deployment in KanREN-GENI and GpENI, including the location and status of Brocade OpenFlow switches in higher education institutions throughout the state of Kansas, and its relationship to other GENI infrastructure, including the KU and UMKC InstaGENI racks, and the GpENI testbed. ''
 
 Participants:
@@ -501 +495 @@
 
 ==== ARCCN: Key Research Findings ====
-*''This demo will present the key research findings of ARCCN in the Software-Define networking area. Findings include SDN simulation, SDN verification, virtualization in DC, MP-TCP in SDN, SDN Controller, SDN Wifi.''
+''This demo will present the key research findings of ARCCN in the Software-Define networking area. Findings include SDN simulation, SDN verification, virtualization in DC, MP-TCP in SDN, SDN Controller, SDN Wifi.''
 
 
@@ -514 +508 @@
 
 ==== Streaming Query Builder ====
-*''This demo shows a working prototype of a system used to graphically construct complex streaming query using a hierarchical directed graph structure.''
+''This demo shows a working prototype of a system used to graphically construct complex streaming query using a hierarchical directed graph structure.''
 
 Complex event processing (CEP) combines data from multiple sources to infer events or patterns that might suggest more complicated circumstances. Often, CEP is performed on aggregations of pseudo real-time data streams. Source data streams are often manipulated and serve as additional data sources. This tool aims to provide users the ability to experiment with CEP without requiring requiring software development by the end-user. 
@@ -534 +528 @@
 
 Participants:
- 
   * Akihiro Nakao, nakao@iii.u-tokyo.ac.jp, University of Tokyo
   * Shu Yamamoto, shu@iii.u-tokyo.ac.jp, University of Tokyo
@@ -553 +546 @@
 
 Participants:
-
   * Akihiro Nakao, nakao@iii.u-tokyo.ac.jp , University of Tokyo
   * Shu Yamamoto, shu@iii.u-tokyo.ac.jp, University of Tokyo
@@ -617 +609 @@
 
 ==== Paradrop ====
-*''This demo shows a software platform for home wireless access point applications.  Visit us if you're interested in new services for home networks.''
+''This demo shows a software platform for home wireless access point applications.  Visit us if you're interested in new services for home networks.''
 
 We will demo the Paradrop Platform, which is a software platform that allows developers to launch applications onto specialized Access Points that exist in the home. This provides the ability to introduce unique control and high quality value adds onto services the end-user chooses to use in their home, including applications related to Internet of Things, high-definition media content distribution, and others. For this demo, we will showcase the Platform's ability to dynamically launch and control virtual machines that are running within the Access Point for a few specific services. 
@@ -631 +623 @@
 
 ====  !OpenEdge: Dynamic and Secure Edge Network Applications and Services ====
-*''This demo will show how edge networks, like FTTP networks, can be controlled in a cloud-like manner to make it easy to deploy new network application and services.  Stop by this demo if you are interested in deploying applications and services in edge networks or in having more choice in the services and applications available in edge (or access) networks.''
+''This demo will show how edge networks, like FTTP networks, can be controlled in a cloud-like manner to make it easy to deploy new network application and services.  Stop by this demo if you are interested in deploying applications and services in edge networks or in having more choice in the services and applications available in edge (or access) networks.''
 
 We will demonstrate the user front-end of the !OpenEdge architecture. Through this Web front-end users are presented with a menu of options of the services and applications that are available to them in their edge network. Once a user selects a service or application, the !OpenEdge architecture will dynamically interact with the network proper to realize the service or application for the user.
@@ -660 +652 @@
   *  Allberto Leon-Garcia, alberto.leongarcia@utoronto.ca, University of Toronto
 
-
-
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-
 ==== O3 Network Orchestrator Suite "ODENOS" ====
-
-*''This demo shows network virtualization (with control delegation) over a wide-area network consisting of multiple vendor/admin domains and multiple layers (optical and packet).  Visit us to learn about building SDN controllers.''
+''This demo shows network virtualization (with control delegation) over a wide-area network consisting of multiple vendor/admin domains and multiple layers (optical and packet).  Visit us to learn about building SDN controllers.''
 
 There will be an increasing demand from OTT providers that would like to use carrier wide-area networks with fine-grain control. However, creating an SDN controller for a wide-area network is already hard; A typical wide-area network consists of multiple vendor/admin domains and multiple layers (e.g., optical and packet) and providers would like to have unified control over them. Creating multiple virtualization slices is even harder. ODENOS allows us to create such an SDN controller easily from building blocks. 
@@ -691 +679 @@
 
 ==== Network Function Instantiation ====
-*''This demo shows a new approach to network function instantiation.  Visit us to learn how to accomplish network functions on desired flows in an inline fashion.''
+''This demo shows a new approach to network function instantiation.  Visit us to learn how to accomplish network functions on desired flows in an inline fashion.''
 
  The demo will present our infrastructure and resource management outcomes to integrate split data plane resources to the GENI testbed to enable network function instantiation. A prototype network function instantiation on a desired flow will be accomplished during the demo session. We will enable this network experimentation capability to the GENI users by the end of 2015.
@@ -707 +695 @@
 
 ==== GENI-VIRO ====
-*''This demo shows progress on implementing and deploying a non-IP routing Protocol VIRO in GENI.  Visit us to learn more about routing experiments.''
+''This demo shows progress on implementing and deploying a non-IP routing Protocol VIRO in GENI.  Visit us to learn more about routing experiments.''
 
 This demo illustrates the current progress of our GENI-VIRO implementation using the GENI testbed. We will be using the OVS and SDN platform running on virtual machines running GENI nodes in one or multiple sites to run our current GENI-VIRO code. We will set up a virtual network over GENI connecting with a local area network to demonstrate GENI-VIRO capabilities that handle host mobility and support resilient routing. 
@@ -719 +707 @@
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 }}}
-
 
 ==== Cloud Services Enhancements Through Application Specific Routing in !MobilityFirst FIA  ====
@@ -741 +728 @@
 
 ==== MFTP: !MobilityFirst Transport Protocol Implementation ====
-*''This demo showcases implementation of the !MobilityFirst Transport Protocol (MFTP).  Visit us if you are a network and distributed systems researcher or service provider.''
+''This demo showcases implementation of the !MobilityFirst Transport Protocol (MFTP).  Visit us if you are a network and distributed systems researcher or service provider.''
 
 We present the design of clean-slate transport layer protocols for the !MobilityFirst (MF) future Internet architecture based on the concept of named objects. 
@@ -793 +780 @@
 
 ==== GENI-Enabled Vehicular Sensing and Control Networking ====
-
 ''This demo shows our latest observations and results using an open-innovation platform and experimentation methodologies for connected and automated vehicles.  Visit us if you are interested in vehicular sensing and control (VSC) networking, high-fidelity, at-scale emulation, and cutting-edge research with GENI resources.''
 
@@ -841 +827 @@
 
 ==== Drone-carried Ad Hoc !WiFi system for use in Fighting Wildfires ====
-*''This demo shows a working prototype of a drone-carried ad hoc !WiFi system, which could be used by emergency response department.  Stop by this demo if you are interested in emergency preparedness such as fire fighters and search and rescue teams.''
+''This demo shows a working prototype of a drone-carried ad hoc !WiFi system, which could be used by emergency response department.  Stop by this demo if you are interested in emergency preparedness such as fire fighters and search and rescue teams.''
 
 This demo is to show the application of drone-carried ad hoc WiFi? networking system in the emergency preparedness. More specifically, we will use the fighting wildfires as a concrete emergency preparedness example to fully explore the use of the drone-carried ad hoc WiFi? networking technology. The project team will work closely with the Emergency Preparedness Department of the North Central Texas Council of Governments for intensive testing.
@@ -853 +839 @@
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 }}}
+
 ==== Enabling Highly Resilient and Efficient Microgrids through Ultra-Fast Programmable Networks ====
-*''This demo shows a working prototype of microgrid emergency control using ultra-fast programmable networks.  Please stop by this demo if you are interested in smart grid, renewable energy, and microgrid. ''
+''This demo shows a working prototype of microgrid emergency control using ultra-fast programmable networks.  Please stop by this demo if you are interested in smart grid, renewable energy, and microgrid. ''
 
 Microgrid is an emerging and promising paradigm to improve the resilience of the electric distribution infrastructure. The demo shows our current work on managing microgrid using ultra-fast programmable networks. Communication among various components in a microgrid is through a communication infrastructure, where many types of data with diverse quality of service (QoS) requirements are communicated. The communication infrastructure plays a particularly critical role for microgrids with renewable energy sources due to their much smaller inertia as compared to traditional energy generation sources. We investigate using ultra-fast networks to support reliable and effective control and optimization for low-inertia microgrid.
@@ -870 +857 @@
 
 ==== Live Transcoding ====
-
-*''This demo shows a drone that sends live video over a WiMAX connection.  Visit us if you're interested in city testbeds and emergency services.''
+''This demo shows a drone that sends live video over a WiMAX connection.  Visit us if you're interested in city testbeds and emergency services.''
 
 The WiNGS lab is working to set up a city-wide testbed utilizing WiMAX base stations for connectivity to many client devices. This demo shows a drone we use to transcode live video we send over the WiMAX connection. We are looking at using this technology to assist emergency response vehicles with real-time updates while they are enroute. 
@@ -885 +871 @@
 
 ==== An SDN Architecture for Emergency Response ====
-*''This demo is a description of a new deployable emergency-response network for the state of Louisiana, and a live view of its EOC command system. ''
+''This demo is a description of a new deployable emergency-response network for the state of Louisiana, and a live view of its EOC command system. ''
 
 Attendees interested in optimizing situational awareness during emergency response, from field operations to EOC activities, should see this demo. 
@@ -901 +887 @@
 ==== WiMax Based Public Safety 3D Surveillance Network ====
 
-*''Placing cameras on vehicles to monitor crowds and track potential criminals. ''
+''Placing cameras on vehicles to monitor crowds and track potential criminals. ''
 
 We are demonstrating our current progress on video capture transmitted over WiMax, 4G LTE, and WiFi to do facial recognition. Its importance is based around the public safety it can offer and the advancements in facial recognition software. 
@@ -916 +902 @@
 
 ==== Creation of Situational Awareness for Emergency Response and Management Using Next Generation Gigabit Communication Systems ====
-*''This is a demonstration to speed up emergency communications, bypassing the normal IP forwarding and dependency on IP routing tables. The demonstration will be conducted over Emulab testbed. Comparison with normal information forwarding using BGP will be conducted. ''
+''This is a demonstration to speed up emergency communications, bypassing the normal IP forwarding and dependency on IP routing tables. The demonstration will be conducted over Emulab testbed. Comparison with normal information forwarding using BGP will be conducted. ''
 
 Attendees interested in emergency preparedness and resilient networks should see this demo. Network professionals interested in seeing MPLS as a protocol that can be used for routing should see this demo. 
@@ -930 +916 @@
 
 ==== A Virtual Crisis Information Sharing and Situational Awareness Platform for Collaborative Disaster Response ====
-*'' This demo shows a working prototype of an emergency communication service in St. Louis, Missouri''
+'' This demo shows a working prototype of an emergency communication service in St. Louis, Missouri''
 
 Participants:
@@ -954 +940 @@
 
 Participants:
-
   * Akihiro Nakao, nakao@iii.u-tokyo.ac.jp, University of Tokyo
   * Shu Yamamoto, shu@iii.u-tokyo.ac.jp, University of Tokyo
@@ -1033 +1018 @@
   * Niky Riga, nriga@bbn.com, GENI Project Office
 
-
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 ==== SDN-Supported Collaborative DDoS Attack Detection and Containment ====
-
 ''This demo uses collaborative monitoring and correlation to mitigate effects of the network traffic surge of a flooding Denial of Service attack that can cause loss of service for legitimate sites.  Visit us to learn about cybersecurity attack detection and mitigation.''
 
@@ -1070 +1053 @@
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 Participants:
-
   * Prasad Calyam, calyamp@missouri.edu, University of Missouri-Columbia 
 
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 ==== A High Level Rule-based Language for OpenFlow ====
-
 This poster presents a new high level language based on XML notation to describe network control rules in Software Defined Network (SDN) environments. As a result of this abstraction, complicated language- and framework-specific APIs will be separated from policy descriptions in SDNs. Therefore, network administrators or engineers will not be involved with low-level APIs or language syntax. Instead they can define control policies without being concerned with the complexities of the underlying controller framework. Indeed, this will make software-defined networking easier and more attractive for network administrators.