Title
Replication And Diversity For Survivability In Cyberspace: A Game Theoretic Approach
Keywords
Cybersecurity; Diversity; Game theory; Replication; Survivability
Abstract
An effective defense-in-depth avoids a large percentage of threats and defeats those threats that turn into attacks. When an attack evades detection, it may disrupt the systems and networks, and then the need for survivability is more critical. In this context, mission assurance seeks to ensure that critical mission essential functions (MEFs) survive and fight through the attacks against the underlying cyber infrastructure. Survivability represents the quantified ability of a system, subsystem, equipment, process, or procedure to function continually during and after a disturbance. US Air Force systems carry varying survivability requirements depending on MEF's criticality and protection conditions. Almost invariably, however, replication of a subsystem, equipment, process, or procedure is necessary to meet a system's survivability requirements. Therefore, the degree of replication within a system can be paramount for MEF's survival. Moreover, diversity will prevent the same fault or attack from damaging all the replicas so that they can continue the mission. This research shows that the more dangerous vulnerabilities (that affect more replicas) in a system are sometimes less likely to be exploited. The attacker may be better off when exploiting small vulnerabilities because they will be less protected by the defender. In fact, diversity always gives extra challenges to attackers. This work uses the mathematical framework of game theory to show the significance of replica diversity for mission survival in cyberspace.
Publication Date
12-1-2013
Publication Title
8th International Conference on Information Warfare and Security, ICIW 2013
Number of Pages
116-124
Document Type
Article; Proceedings Paper
Personal Identifier
scopus
Copyright Status
Unknown
Socpus ID
84893146191 (Scopus)
Source API URL
https://api.elsevier.com/content/abstract/scopus_id/84893146191
STARS Citation
Kamhoua, Charles; Kwiat, Kevin; Chatterjee, Mainak; Park, Joon; and Hurley, Patrick, "Replication And Diversity For Survivability In Cyberspace: A Game Theoretic Approach" (2013). Scopus Export 2010-2014. 5847.
https://stars.library.ucf.edu/scopus2010/5847