Izenburua
Replica-Based Moving Target Defense Against Injection Attacks in Software-Defined Industrial Control SystemsEgilea
Beste erakundeak
https://ror.org/00240q980Bertsioa
PostprintaDokumentu-mota
ArtikuluaBahituraren amaiera data
1-01-21Hizkuntza
IngelesaEskubideak
© 2026 IEEESarbidea
Sarbide bahituaArgitaratzailearen bertsioa
https://doi.org/10.1109/TDSC.2026.3652652Non argitaratua
IEEE Transactions on Dependable and Secure Computing Vol. 23 (3), May-June 2026Lehenengo orria
5163Azken orria
5180Argitaratzailea
IEEEGako-hitzak
Moving target defense (MTD)
industrial control systems
software-defined networking (SDN)
game theory ... [+]
industrial control systems
software-defined networking (SDN)
game theory ... [+]
Moving target defense (MTD)
industrial control systems
software-defined networking (SDN)
game theory
injection attacks [-]
industrial control systems
software-defined networking (SDN)
game theory
injection attacks [-]
Gaia (UNESCO Tesauroa)
Datuen analisiaDatuen babesa
UNESCO Sailkapena
Datuen analisiaLaburpena
Recent incidents have demonstrated the increasing vulnerability of Industrial Control Systems (ICSs) to sophisticated and targeted attacks orchestrated by adversaries with high motivation, resources, ... [+]
Recent incidents have demonstrated the increasing vulnerability of Industrial Control Systems (ICSs) to sophisticated and targeted attacks orchestrated by adversaries with high motivation, resources, and domain knowledge. Among these threats, False Data Injection (FDI) attacks have emerged as one of the main security threats to ICSs, involving the deliberate manipulation or injection of false data into the control system to deceive or disrupt operations. FDI attacks pose a significant risk due to their high capacity of concealment and ability to evade intrusion detection systems that rely on accurate ICS models. In this paper, we present defclon, a novel Software-Defined Networking (SDN)-based Moving Target Defense (MTD) approach against FDI attacks. Defclon proactively replicates network packets across multiple network paths and adaptively selects a single path using a signaling game model to reach the destination end-device. We demonstrate the effectiveness of our approach through simulations, numerical analysis, and experiments on ICS network traffic and topologies. Experimental results show that defclon is able to not only mitigate the effects of FDI attacks, but also to introduce different levels of uncertainty without degrading network performance, significantly increasing the difficulty for adversaries to gather information and launch attacks. [-]
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Transmisiones 2024Ikertalde Convocatoria 2026-2029
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PLEC2024-011222IT1870-26


















