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Statements

Subject Item
n2:72626
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n3:ArticleEPrint bibo:Article bibo:AcademicArticle n3:EPrint
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n10:JSAC.2019.2894307
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n4:3169698 n4:3169699 n4:3169700 n4:3169701 n4:3169614 n4:3169624
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dcterms:title
HoneyDOC: An Efficient Honeypot Architecture Enabling All-Round Design
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dcterms:date
2019-02-05
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n20:ext-w.fan@kent.ac.uk
bibo:status
n14:peerReviewed n14:published
bibo:abstract
Honeypots are designed to trap the attacker with the purpose of investigating its malicious behaviour. Owing to the increasing variety and sophistication of cyber attacks, how to capture high-quality attack data has become a challenge in the context of honeypot area. All-round honeypots, which mean a significant improvement in sensibility, countermeasure, and stealth, are necessary to tackle the problem. In this paper, we propose a novel honeypot architecture termed HoneyDOC to support all-round honeypot design and implementation. Our HoneyDOC architecture clearly identifies three essential independent and collaborative modules, Decoy, Captor, and Orchestrator. Based on the efficient architecture, a software-defined networking-enabled honeypot system is designed, which supplies a high programmability for technically sustaining the features for capturing high-quality data. A proof-of-concept system is implemented to validate its feasibility and effectiveness. The experimental results show the benefits by using the proposed architecture compared with the previous honeypot solutions.
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n11:TK7885 n11:TK5105.5
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n17:authors
bibo:issue
3
bibo:volume
37