Event-Triggered Secure Control of Networked Cascade Control Systems

This monograph systematically investigates event-triggered secure and fault-tolerant control for Networked Cascade Control Systems (NCCS) under Denial-of-Service attacks, network delays, actuator faults, disturbances, and quantization errors. Progressing from continuous-time to discrete-time, single-loop to dual-loop, and ideal to quantized channels, six core contributions are presented: an improved event-triggered mechanism (ETM) with state-difference cross-term for nonlinear NCS; extension to nonlinear NCCS addressing primary-secondary loop challenges; H-infinity disturbance attenuation; a disturbance-aware adaptive ETM (AETM) for discrete-time NCS; cooperative design of AETM and controllers for discrete-time NCCS with faults and delays; and a quantized AETM with sector-bounded errors. A unified co-design framework based on Lyapunov theory and linear matrix inequalities optimizes controller gains, triggering matrices, and quantizer parameters under H-infinity guarantees. Industrial case studies on steam temperature and boiler-turbine systems validate the proposed strategies, bridging advanced control theory and Industry 4.0 requirements for resilient, efficient NCCS.

Hersteller:	SIA OmniScriptum Publishing
Anschrift:	Brivibas gatve 197 LV-1039 Riga
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Zhaoping Du received his Ph.D. from Northeastern University, China, in 2008. He was a Post-Doctoral Fellow at Huazhong University of Science and Technology from 2010 to 2014. He is now a Professor at Jiangsu University of Science and Technology. His research interests include singular systems, networked control systems, and cyber-physical systems.