| Name |
Institution |
| A Behavior-Based Framework for Detecting Internet Worms |
University of Oregon |
| A Classifcation Layer for new network Architectures |
University of California, Berkeley |
| A dos-limiting network architecture |
UC Irvine |
| A functioning model of the DNS Root Server architecture. |
SPARTA |
| A Generic DDoS Traffic Isolation Framework |
New Jersey Institute of Technology |
| A large-scale measurement for malware analysis |
University of Califnornia, Berkeley |
| A system for collaborative large scale detection of attacks against critical infrastructures |
University of Rome La Sapienza |
| Advanced Course in Engineering for Cyber Security |
Air Force Research Laboratory |
| Analysis of Malware tools |
Sparta Inc |
| Assess methods and infrastructure developed for attack traceback. |
SPARTA |
| Attacks/Defense for Bayesian filtering of spam |
UC Berkeley |
| Authentication attacks and controls |
Western Michigan University |
| Avoidance Routing measurement project |
UCLA Computer Science Department |
| Characterization of Bots |
Department of Computer Science, Kerala University |
| Chart Overlay Network Project |
SPARTA, Inc. |
| Clearinghouse for the TIED GENI prototyping project |
USC/ISI |
| Collaborative monitoring/control environment for Cloud and testbed environments |
Hewlett-Packard Labs |
| Colorado State Course CS 356 |
Colorado State University |
| Computer Science 161 - Computer Security |
UC Berkeley |
| DDoS attack simulation and IP traceback |
INSTITUTE OF ROAD AND TRANSPORT TECHNOLOGY |
| DDoS migitation technique and worm detection |
Lehigh University |
| Demo of T1/T2 capabilities |
ISI |
| Demonstration Project for DETER Testbed |
University of Southern Calfornia |
| detect relay flows in the Internet |
Texas A&M University |
| Detection and prevention of attack |
Norfolk State University |
| Detection of DDoS attacks |
Korea Advanced institute of Science and Technology |
| Develop a model of distributed port scans. |
Dalhousie University |
| Development of cooperative DDoS defense |
UCLA Computer Science Department |
| Distributed DDoS Defense |
ISI |
| Early filtering of unwanted traffic |
University of South Carolina |
| Embedded Firewall Emulation |
University of Southern Calfornia |
| Emerging Applications over Emerging Networks |
U. Manitoba |
| Emist DDoS Experiment |
ISI |
| Emist Routing Experiments |
ISI |
| Emist Worm Experiments |
ISI |
| EMIST Worm Experiments |
ICSI |
| Enhancement of SLINGbot |
The MITRE Corporation |
| Evaluate the effectiveness of a set of worm detection/containment mechanisms against TCP or UDP worms in enterprise networks |
Penn State University |
| Experiments with the Live Distributed Objects platform (a separate group). |
Cornell University |
| exploiting virtualization to increase resiliency and robustness |
dipartimento di informatica, universita di pisa |
| Field Programmable Port Extender |
Washington University in St. Louis |
| FloodWatch DDoS Defense |
SPARTA, Inc. |
| FPGA Accelerated Intrusion Detection System using NetFPGA node |
University of Southern California, Information Sciences Institute |
| FreeBSD is a widely-used open source operating system, used for storage services, network servers, routers, and firewalls, and as the foundation for commercial products, such as Mac OS X, NetApp's OnTap/GX, Juniper's JunOS, vxWorks, etc. |
FreeBSD Foundation |
| Game theory for cyber security |
University of Memphis |
| Hands-on labs for Network Security course |
Texas A&M University-Corpus Christi |
| Insider Threats in Multicast Overlay Networks |
Purdue University |
| Install PNNL GridLAB-D in DETERlab |
USC ISI |
| Installing the Skaion Traffic Generation System on DETER |
Skaion Corporation |
| Intrusion-Tolerant SMR and Storage Protocols |
Technische University Darmstadt |
| Lab Experiments as part of USC Computer Security Systems Course |
University of Southern California |
| Lab Experiments as part of USC Computer Security Systems Course |
University of Southern California |
| Large-scale Worm Defense |
UC Davis |
| Layer-2 Scanning and Switch Identification |
George Mason University |
| Live Distributed Objects |
Cornell University |
| Measurement and Anomaly Detection |
University of Massachusetts |
| Mobile IPv6 protocol robustness and scalability testing for drafts and implementation |
EADS Innovation Works |
| Modeling of Systems and Security |
University of Illinois, Urbana-Champaign |
| National Cyber Range |
SPARTA, Inc. |
| NetShield Worm and DDoS Defense Experiments |
University of Southern California |
| Network Sec urity Lab Experiments |
Jordan university of Science & technology |
| Network Security Course |
Lehigh University |
| network security test |
UC Berkeley |
| online root-cause analysis of security attacks |
Carnegie Mellon University |
| Overlay-based DDoS Defense System |
Department of Computer Science, Columbia University |
| pattern detection |
southern illinois university carbondale |
| Performance impact of address encryption |
Johns Hopkins University |
| Performance testing for real-time steganography scanner. |
None |
| Phenomenology of DDoS attacks |
Purdue University |
| Privacy Preserving Network Intrusion Detection |
Agnik, LLC |
| Process Control System Security |
SRI International |
| Project for DETER federation development and allocation |
USC/ISI |
| Project for test-driving new tools, sharing educational material, etc |
ISI |
| Quantitative evaluation of network security policies |
University of Texas at Dallas |
| Quicksilver Multicast |
Cornell |
| Rapid Traceback of Cyber Attacks |
University of Texas at Austin |
| Rate Based Intrusions including DoS/DDoS |
IntruGuard Devices, Inc. |
| Regression Tests for DETER |
USC - ISI |
| Reliable and Secure Group Communication |
Lawrence Berkeley National Lab |
| Research for a clean-slate secure network implementation |
SPARTA, Inc. |
| Router-Based Intrusion Prevention |
Telecommunication Networks Group, Technical University Berlin |
| Santa Monica College CS78 security course |
University of Southern California |
| satellite emulation for study of orbital networks |
Univ of CA, Santa Barbara |
| Scalable time critical services platform |
Cornell University |
| Security Exercises Related to BGP Prefix Hijacking |
Colorado State University |
| self healing network |
ISI |
| Special Module on Network Security |
Indian Institute of Technology, Delhi |
| StarBED Next Generation Ubiquitous Network Simulation |
National Institute for Communication Technology, Hokuriku Research Center |
| Stepping Stone Detection and Evasion |
University of Texas at Arlington |
| Strategies for moving information replicas away from hotspots |
Purple Streak |
| Student use for the CSCE496/896 Data and Network Security course at UNL (Instructor: Prof. Byrav Ramamurthy) |
University of Nebraska-Lincoln |
| Study Annotations for intrusion monitoring & network health |
UC Berkeley |
| Study TCP Throughput Collapse |
Berkeley Computer Science |
| Substation automation security |
University of Illinois at Urbana-Champaign |
| Supercomputing Enabled Transformational Analytics Capability |
Lawrence Livermore National Laboratory |
| Support for UCLA on line security class |
UCLA Computer Science Department |
| System for Live Investigation of Next Generation Bots |
Alden Jackson |
| System to Detect Compromised Forwarding Behavior |
UCSD |
| teaching-research in deter |
Youngstown State University |
| Telcordia Cyber Early Warning System |
Telcordia Technologies - Applied Research |
| Testbed for bot and botnet taxonomy analysis including command and control channel detection, identification of bot characteristics, and protocol used |
University of North Carolina at Charlotte |
| The SANS Attack Attribution Research Group |
The SANS Institute |
| This project investigates new ways to detect and filter spoofed traffic |
ISI |
| To generate traffic traces of common worms |
University of Southern Calfornia |
| UAT VM Load Balancing test |
University of Advancing Technology |
| UC Berkeley Admin |
UC Berkeley |
| UNESP's Security Lab Graduated Projetc |
UNESP - Sao Paulo State University at S.J.Rio Preto, Brazil |
| USC 558L Internetworking and Distributed Systems Lab |
University of Southern California, Information Sciences Institute |
| using DETER for lab assignments in our network security class |
San Jose State University |
| Validate DDoS Mitigation Technology |
Secure64 Software Corp |
| Validation of Defense Against Web Based DDoS Attacks |
Shaheed Bhagat Singh College of Engg. & Technology |
| Virtual Infrastructure for Distributed Application Management |
ISI |
| Virus-Throttling Switch Circumvention & Countermeasures |
UC Berkeley |
| Vulnerability scan and penetration test tool in large-scale environment |
Institute for Information Industry |
| We are exploring the utility of providing a knowledge plane in DETER, both to manage the testbed more effectively and to recognize the effects of security failures on operation of the testbed. |
MIT |
| We plan to emulate a large grid network in order to create passive resource discovery methods |
Georgia State University |
| Wide area data center filesystem |
Cornell |
| Wide-area multisite state machines |
UC San Diego Dept of Comp Sci and Eng |
| Wireless simulation package for DETER |
UC Berkeley |
| Wisconsin Advanced Internet Laboratory |
University of Wisconsin - Madison |
| worms defense mechanisms |
Univ. of North Carolina at Charlotte |
|
Other projects registered on DETERlab:
|
|---|
| Name |
Institution |
| A platform for distributing computation onto volunteer nodes. |
University of Southern California |
| A project for deter executive board to govern testbed |
ISI |
| Application Layer DDoS Attack Detection Attribution and Mitigation System |
Technical University Darmstadt |
| Bot's C&C behavior is studied |
University of North Carolina at Charlotte |
| Brian Murphy-Dye |
SRI International |
| Colaboration and education effort to expand capabilties in Aerospace testbed. |
The Aerospace Corporation |
| congestion in data centers |
University of Wisconsin-Madison |
| Congestion non-responsive traffic |
Pennsylvania State University |
| DDos detection and response |
school of CTI, DePaul |
| Emulab facility at Cornell |
Cornell University |
| Ensuring reliable, timely communication over network-DoS-prone link |
Bar Ilan University, Israel |
| Experiment with OptAck attack on TCP |
University of Maryland |
| Exploiting Population Diversity in End-Host Anomaly Detection: Benefits and Trade-offs |
Intel Research Berkeley |
| Graph-based Approaches to Threat Detection |
Washington State University |
| Illustrate and develop attacks against DNSSEC |
Information Sciences Institute |
| Implement network attack attribution techniques |
Cs3 Inc. |
| Integrating ReAssure into DFA |
Purdue University |
| Intrusion Detection and Information Fusion |
Fordham University |
| Investigate how distributed decentralized cooperative mechanism can be used to defense against |
Rutgers University |
| Large Scale eBGP Simulation (lseb) |
Pennsylvania State University |
| Network data analysis for traffic and security modeling. |
USC/Information Sciences Institute |
| Network Security Analysis |
Bell Labs Internet Research Department |
| Protocol to build fully intrusion-tolerant shared services |
Technische University Darmstadt |
| Rearchitecting Internet Protocols |
Univ. of Washington |
| Scalable Interest Managed Communciations for the Intelligence Community |
USC ISI |
| Secure Wireless CIty: the threat model analysis of WiFi and WiMAX interworking wireless city |
iCAST |
| Sensor Networks for GENI |
University of California, Davis |
| Teaching and Research on Network Security |
University of Nebraska-Lincoln |
| Templates for creating tutorials showcasing DETER capabilities |
USC Information Sciences Institute |
| This project aims to detect stealthy malware, such as botnets and spyware, by finding traffic that involve multiple hosts that share multiple characteristics, including common destinations, similar payload, and/or similar platforms. |
UNC chapel Hill |
| To conduct botnet defense research on deterlab. We will study botnet detection and defense techniques. |
Texas A&M University |
| Trust Based Collaborative Detection |
University of Southern Calfornia |
| Wireless Security Project |
George Mason University |
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