Hopefully these pages will provide some insight to my computer science teaching and research at Wake Forest University. If you have any questions or interest, just drop by my office (Manchester 239).

Current Research
My research interests are primarily in security and computer networks. Current research projects include the following.
Nature-Inspired Design
Designs found in nature can serve as a source of inspiration, providing robust and efficient methods that are well suited to address various complex problems. We have several projects that seek to address difficult computer science problems using bio-inspired approaches such as: network security using digital ants, genetic based computer management, and application discovery using motifs.

Our current nature-inspired project uses evolution-based techniques to manage different types of complex systems (for example, computer servers or surveillance cameras). The approach improves system resilience by automatically adapting to environment changes (such as, user demand, software additions and/or updates, as well as attacks).

Other nature-inspired projects include

Computer Evolution as a Moving Target Defense
Ant-Based Cyber Defense

Network Security Group
This research group is investigating several security issues related to the next generation of high-speed and QoS-enabled networks. The group is directed by me and all those interested are invited to join.
Failure prediction and management
Prediction methods for critical computer events (hardware/software failures and security). Given the increased reliance on parallel/distributed systems, managing failure will become critical.
Research Sponsors
Research has been sponsored by the following agencies, foundations, and corporations. I gratefully acknowledge their guidance and support.

Cisco Systems, Inc.
Lawrence Livermore National Laboratory
National Science Foundation
Pacific Northwest National Laboratory
Shively Family Fellowship
U.S. Department of Energy
Wake Forest University

Student Research
If you are a WFU student and interested in computer science research, just drop by my office and discuss. I have been fortunate to work with following undergraduate and graduate students on different research projects.
Cameron Kluth, Graham Kennedy, Adam Reilly, Jeff Shirley, Rob Haining, Katie Batten, Steve Tarsa, Joe Antrosio, Matt Steen, Andrew Schneider, Michael Crouse, Michael Marks, Ian McAuley, Mathew Simari, Bryan Prosser, Scott Seal, Matt McNiece, Sarah Gage, Austin Koeppel, Kyle Flaherty, Ruidan Li, Shucheng (Alex) Liu, and Austin McMackin.
Robin Kester, Ryan Farley, Patrick Wheeler (UC Davis and PNNL), Chris Kopek, Mike Horvath, Richard Hummel, Eddie Allan, Ashish Tapdiya, Chris Weitzen, Brian Williams (meh), Wes Featherstun, Michael Crouse, Chaz Lever, Brad McDanel, Lee Bailey, David Sontheimer, Jacob White, Tess Stamper, Neal Dawes, Brian Lucas, Michael Nipper, Bryan Prosser, Scott Seal, Xin Zhou, Fletcher Hodnett, Caroline Odell, and Sebastian Ramirez.
If you are a WFU student and interested in this research, just drop by my office and discuss.
Recent Publications
Using Evolutionary Diversity to Identify Problematic Software Parameters

Errin W. Fulp, H. Donald Gage, and Matthew McNiece

In Proceedings of the IEEE Symposium on Security and Privacy Bio-Inspired Security, Trust, Assurance, and Resilience (BioSTAR'17), 2017

Evolutionary Approaches for Resilient Surveillance Management

Ruidan Li and Errin W. Fulp

In Proceedings of the IEEE Symposium on Security and Privacy Bio-Inspired Security, Trust, Assurance, and Resilience (BioSTAR'17), 2017

Network Security Group

From distributed firewall designs to ant-based intrusion detection, the NSG is investigating techniques to address the next generation of security threats.

Current Student Projects
An Evolutionary Approach to Surveillance System Management
Ruidan Li
Evolving Network Firewall Security Policies
Shucheng (Alex) Liu
Automated Software Configuration Management using Evolutionary Algorithms
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