Malware Diffusion Models for Modern Complex Networks

Vasileios Karyotis received his Diploma in Electrical and Computer Engineering from the National Technical University of Athens (NTUA), Greece, in June 2004, his M.Sc. degree in Electrical Engineering from the University of Pennsylvania, PA, USA, in August 2005 and his Ph.D. in Electrical and Computer Engineering from NTUA, Greece, in June 2009. Since July 2009 he is with the Network Management andOptimal Design (NETMODE) Lab of NTUA, Greece, where he is currently a senior researcher. Dr. Karyotis was awarded a fellowship from the Department of Electrical and Systems Engineering of the University of Pennsylvania (2004-2005) and one of two departmental fellowships for exceptional graduate students from the School of Electrical and Computer Engineering of NTUA (2007-2009). His research interests span the areas of stochastic modeling and performance evaluation of communications networks, resource allocation, malware propagation and network science. He has given various tutorial presentations in conferences, workshops and seminars, and he has been a TPC co-chair of the 2014 IEEE INFOCOM workshop on Dynamic Social Networks (DySON) and the 2015 IEEE ICC workshop on Dynamic Social Networks (DySON). He is a member of the Technical Chamber of Greece since 2004, and a member of the IEEE since 2003. He has participated in various R&D projects funded by the EC (FP6, FP7), the European Space Agency (ESA), and the Greek General Secretariat for Research and Technology (GSRT). MHR. Khouzani received a B.Sc. degree in Electrical Engineering from Sharif University of Technology in 2006. He subsequently joined the University of Pennsylvania (UPenn) with a fellowship award. He received his Ph.D. in Electrical and Systems Engineering in 2011 with the best dissertation award among his graduation class. He has since held postdoctoral research positions with the Ohio State University (OSU), the University of Southern California (USC), Royal Holloway, University of London (RHUL), and most recently, Queen Mary, University of London (QMUL). Dr. Khouzani's research is in the area of communication networks and cyber-security. He uses diverse analytical tools from areas such as probability, statistics, control theory, optimization, and decision and game theory, to contribute to the emerging field of the "science of security".

Part 1. Malware diffusion modeling framework

Chapter 1. Fundamentals of complex communications networks

Chapter 2. Malware diffusion in wired and wireless complex networks

Chapter 3. Early malware diffusion modeling methodologies

Part 2. State-of-the-art malware modeling frameworks

Chapter 4. Queuing-based malware diffusion modeling

Chapter 5. Malware-propagative Markov random fields

Chapter 6. Optimal control based techniques

Chapter 7. Game-theoretic techniques

Chapter 8. Qualitative comparison

Part 3. Applications and the road ahead

Chapter 9. Applications of state-of-the-art malware modeling frameworks

Chapter 10. The road ahead

Chapter 11. Conclusions

Part 4. Appendices

Appendix A. Systems of ordinary differential equations

Appendix B. Elements of queuing theory and queuing networks

Appendix C. Optimal control theory and Hamiltonians