Факультет психології, історії та соціології

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Author: search.filters.author.Mateichuk, V.Subject: search.filters.subject.human factor

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    APPLICATION OF THE CONDITIONAL OPTIMIZATION METHOD IN THE PROBLEM OF VESSEL STORMY SAILING
    (2024) Zinchenkо, S.; Tovstokoryi, O.; Mateichuk, V.; Nosov, P.; Popovych, I. S.; Kyrychenko, K.; Попович, І. С.
    Stormy sailing conditions are among the most extreme and dangerous. The rocking of the ship in the roll and trim channels greatly exhausts the crew, which leads to an increase in the number of errors when making management decisions. The situation worsens also due to the fact that during a storm such dangerous phenomena as harmonic and parametric resonances, a decrease in stability on passing waves, broaching, impacts of group waves in the stern, which can lead to the , hull destruction, overloads of the power plant and occurrence of blackouts. The most radical way to combat such dangers is the automation of control processes. The authors have developed a method of automatic and optimal control of the ship's movement in storm conditions, which allows to avoid the occurrence and development of dangerous phenomena that lead to the capsize of the ship. The obtained result is explained by: the use of an on-board computer in the ship's motion control system; constant measurement of ship movement parameters and waves; finding, at each step of the on-board computer, safe and optimal values of the ship's course and speed by solving the optimization problem; taking into account when solving the optimization problem linear and non-linear constraints of the type of inequalities that define dangerous areas; maintaining safe and optimal movement parameters using the automatic control system. The theoretical significance of the obtained result lies in the development of a method of automatic and optimal control of the ship's movement in conditions of stormy sailing. The practical significance of the obtained results consists in: verification of the developed method by mathematical modeling; the possibility of using the method in the automatic control system, which allows to automate and optimize the processes of controlling a ship in a storm, reduce the influence of the human factor on control processes, crew fatigue, risks of losing the ship and cargo, and generally increase the safety of shipping
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    Formal Approaches to Identify Cadet Fatigue Factors by Means of Marine Navigation Simulators
    (2020) Nosov, P.; Ben, A.; Zinchenko, S.; Popovych, I. S.; Mateichuk, V.; Nosova, H.; Носов, П. С.; Бень, А. П.; Зінченко, С. М.; Попович, І. С.; Носова, Г. В.
    Contemporary marine education tends to have been using navigation simulators enabling cadets to be trained for any unlikely event. These issues are sure to be in the sector with high demand focusing on safety. Thus, they would be extremely beneficial for marine industry. The proposed study aims to identify seafarer fatigue during the maneuver carrying out according to circumstantial evidence and, as a result, the influence of this phenomenon on the trajectory formation of transition or maneuver experiences. In addition to it, the method of cadet posture identification is generally revealed. To summarize all this information exo – back spine and an automated system are proposed to be used. The study provides the mechanism formation of spatial trajectory taking into account the identification of fatigue indicators. This issue will, eventually, benefit into reducing risks of accidents. Besides, a formal description of perception and decision-making processes being performed by the cadet by means of modal logic and algebra of events are introduced in the preceding article. It is a basis for determining the stages and individual preferences in the formation of the trajectory transition (maneuver). To make ground, the experiment within the framework of analyses of the mooring operation carrying out is sure to be named an effective one. This article proposes comprehensive approaches and provides the possibility to classify models for the formation of the trajectory of the cadet in conditions of fatigue crack factors.