Session Chairs

	Antonio Chilliastri, Centro Studi STASA, (Centro Studi Trasporto Aereo Sicurezza & Ambiente) Human factor and safety Head of Department STASA Associated Professor Rome, Italy E-mail: antonio.chialastri@gmail.com
	Tetiana Shmelova Doctor of Science, Professor National Aviation University (Kiev, Ukraine) Faculty of Air Navigation, Electronics and Telecommunications Department of Air Navigation Systems E-mail: shmelova@ukr.net
	Volodymyr Zaslavskyi, Doctor of Science, Professor Taras Shevchenko National University of Kyiv, Faculty of Computer Science and Cybernetics, Kyiv, Ukraine E-mail: zaslavskyi.volodymyr@knu.ua

Background: The WS will be organized to bring together researchers and practitioners involved in the development and scientific and technical support of critical systems and infrastructures considering state of the human- operator and the ability to make decisions at all stages of life cycle. Important aspects are the following: the existing paradigms of automation of intellectual activity and the advantages in ensuring security in complex systems; mathematical models and algorithms for human-machine interactions; engineering-technical, psychological, and medical-biological aspects of human factor; business processes, and risk management problems in the creation and operation of critical systems in various fields.

Topics:

• Critical systems, technologies, human-machine systems, optimization of human-machine cooperation in complex systems
• System-synergetic analysis and modeling of critical systems, interdisciplinary direction of scientific research
• Intellectualization of complex systems, development of human-machine intelligence
• Aerospace systems, computational intelligence in aerospace intelligent systems
• Automation and automatization: critical systems security paradigm
• Safety system analysis, safety, and resilience of critical infrastructure
• Ergonomics and human-machine interaction, cognitive modeling of complex systems
• Mathematical modeling of human movements and aerospace problems in computer systems
• Decision-making models in critical systems, collaborative decision-making, decision-making in risk and uncertainty, minimization of risk, minimization of risks, and maximum safety, risk management
• Type-variety principle and redundancy optimization in critical systems
• Digital image processing in computer systems, information and communication technologies, software for aerospace engineering
• Management of cyber incidents, and conflicts; secure communications for critical infrastructure and support safety cooperation, design, and implementation of embedded security systems
• Human factor problems in critical systems; technical, psychological, social, and medical-biological aspects of human factors; critical socio-technical systems
• Machine intelligence, collaborative intelligence, methods of intelligent control in critical systems and infrastructure