A scalable agent-based system for network flow reconstruction with applications to determining the structure and dynamics of distributed denial of service attacks
Item
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Title
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A scalable agent-based system for network flow reconstruction with applications to determining the structure and dynamics of distributed denial of service attacks
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Identifier
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d_2009_2013:6b1ecb0baacd:10341
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identifier
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10591
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Creator
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Demir, Omer,
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Contributor
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Bilal Khan
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Date
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2010
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Language
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English
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Publisher
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City University of New York.
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Subject
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Computer science | DDos | Flow reconstruction | Network security
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Abstract
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In this thesis we describe a novel agent-based architecture for flow reconstruction, and demonstrate how it can be applied to obtain a description of the structure and dynamics of distributed denial of service (DDoS) attacks. We show that the system can operate in a decentralized manner, effectively providing a description of the structure and dynamics of traffic flows even with very modest levels of agent deployment. By providing structural information, the system facilitates the execution of DDoS mitigation strategies close to the actual sources of attack traffic.;Through simulations, we validate the efficacy with which the system is able to discover traffic source locations and the structure of traffic flows. Through packet-level simulations, we show favorable convergence properties for the system. We describe several schemes for selecting the precise links on which agents should be placed, and show that these placement schemes yield marked improvements in system performance and scalability. Finally, we introduce a prototype attacker localization scheme called SLANT, which combines information from a sequence of attacks on different victims, in order to further isolate traffic source locations. SLANT shows promise for using multiple attack data to determine the exact locations of the attackers, even at moderate agent deployment levels.
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Type
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dissertation
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Source
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2009_2013.csv
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degree
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Ph.D.
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Program
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Computer Science
