Tarbiat Modares University Faculty of Electrical and Computer Engineering | Iran
Ali Nikoutadbir is a motivated and results-driven MSc graduate in Electrical Engineering with over six years of research experience in securing cyber-physical systems (CPS), particularly focusing on multi-agent systems and intelligent transportation networks. His expertise lies in developing innovative graph-theoretic and optimization-based algorithms to tackle challenges in distributed coordination control, event-triggered control, and the resilience of industrial CPS. As a Research Assistant at the Control System Science Lab, Tarbiat Modares University, Tehran, Iran (2020–2023), he designed and implemented a novel secure event-triggered control framework for vehicular platoons to counter dual deception attacks, including false data injection and global manipulation. He also developed static and dynamic event-triggering schemes ensuring secure consensus under stringent attack constraints and introduced a topology-switching strategy based on Schur stability to enhance system resilience. His theoretical advancements were validated through extensive MATLAB/Simulink simulations. Ali’s published work, including “Secure event-triggered control for vehicle platooning against dual deception attacks,” forms the foundation of his contributions to CPS security. His research expertise encompasses securing multi-agent networks against deception attacks using graph-theoretic and optimization-based methodologies, stability analysis, and end-to-end system modeling, design, and validation.
Featured Publications
"Secure event-triggered control for vehicle platooning in the presence of modification attacks"
"Secure event-triggered control for vehicle platooning against dual deception attacks"
"Estimation of the error caused by the vibration of the radar in the SAR radar aperture using the analytical condition empirical method"