Dr. Kangkang Sun | Control Science | Best Researcher Award

Associate Researcher | Harbin Institute of Technology | China

Dr. Kangkang Sun is a researcher in control science whose work integrates security control, intelligent decision-making, and autonomous system optimization across complex cyber-physical environments. His research bridges advanced control theory with artificial intelligence, reinforcement learning, deep learning, and interpretability principles to address vulnerabilities and create resilient, adaptive, and high-performControl Scienceance systems for spacecraft, robotics, and unmanned aerial vehicles. He has contributed extensively to secure control frameworks for nonlinear systems, optimal control designs, fuzzy adaptive approaches, fault-tolerant strategies, and finite-time performance guarantees, producing an impactful body of publications that includes numerous SCI papers and multiple highly cited works in leading IEEE journals. His scholarship is recognized through service roles on editorial boards, associate editorships, and guest editorships for prominent international journals, while his involvement in professional societies reflects active engagement in global research communities related to systems engineering, cybernetics, intelligent control, and smart city technologies. He frequently contributes to international conferences as a chair, committee member, or organizer, supporting the advancement of control theory and automation research worldwide. His achievements extend to awards for scientific excellence, reviewing contributions, and research leadership, reinforced by successful involvement in competitive national and regional research grants. Dr. Sun’s professional experience spans academic, governmental, and international research environments, highlighting his multidisciplinary impact and his commitment to advancing secure, intelligent, and autonomous control systems for emerging technological applications.

Profile: Scopus

Featured Publication

Sun, K., (2025). UUB stability of NCSS under asynchronous packet loss and random UDP attacks: LMI method-based controller design technology. International Journal of Robust and Nonlinear Control.

Sun, K.,. Intelligent LFC of IT-2 fuzzy power systems with improved memory event-triggered scheme supervised by genetic algorithm. Nonlinear Dynamics.

Sun, K., [Oth. Resilient H∞ synchronization of piecewise-homogeneous Markovian jumping NNs with time-varying delay and asynchronous modes: A delayed event-triggered scheme. Journal of the Franklin Institute.

Sun, K.,.(2025). Behavioral evolution characteristics of the integrated control system for spacecraft based on Petri nets. Scientia Sinica Informationis.