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Characterization of Multi-Channel Denial-of-Service and Full-Scale Denial-of-Service

Author:
Anindya Basu, Indrani Kar
Keyword:
Computer Science, Systems and Control, Systems and Control (eess.SY)
journal:
--
date:
2023-06-07 16:00:00
Abstract
Over the past decades, interest in enhancing the safety of cyber-physical systems (CPSs) has risen. The systems and control research society has recognised that the embedded closed-loop in integrated systems may be damaged if attackers can execute a successful malicious attack. This article examines the resilient control problem for CPSs with numerous transmission channels under Denial-of-Service (DoS). First, a partial observer technique is developed in response to the Multi-Channel DoS (MCDoS) condition. The changing frequency of MCDoS is characterized while maintaining the Global Asymptotic Stability (GAS) of the closed loop system. The partial observer is modified then to reduce the effect of the changing frequency of MCDoS in the system. Then a resilient event-based feedback control scheme is developed to address the Full-Scale DoS (FSDoS). We depict the changing frequency of MCDoS and the frequency and duration of FSDoS, allowing the feedback system's Global Asymptotic Stability (GAS) to be maintained. We regard event-based controllers for which a minimal inter-sample time is precisely formulated in response to the existence of digital channels.
PDF: Characterization of Multi-Channel Denial-of-Service and Full-Scale Denial-of-Service.pdf
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