Research of human-machine interaction on the example of the “operator-UAV” system

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作者

Galyna Mygal¹ , Olga Protasenko² , Natalia Kobrina¹

1. The National Aerospace University “Kharkiv Aviation Institute”
2. Simon Kuznets Kharkov National University of Economics

会议/活动

Integrated Computer Technologies in Mechanical Engineering – Synergetic Engineering, November 2022 (Kharkiv, Ukraine)

海报摘要

The emergence of unmanned aircraft systems has led to new challenges in human-machine interaction. The complication of human activity in new robotic systems has caused interest in the possibilities and limitations of a person. It is also related to the transition to Industry 4.0, which links the system's reliability with human-machine interaction. The requirements for the safety and reliability of the system and the operator have changed. It led to new problems in unmanned systems. Digitalisation has allowed the creation of unmanned systems but has also become a source of contradiction: the growth of automation leads to the complexity of the human activity, which, in turn, leads to an increase in human factor manifestations. Therefore, operator activity analysis in the unmanned aircraft system is relevant to further reduce risks due to the human factor. The aim is to study human-machine interaction through “operator-UAV” system viability analyses.

关键词

Unmanned aerial vehicle, Human factor, Human-machine interaction, Viability, Stress tolerance, Resources

研究领域

Education, Systems Science, Environmental Sciences, Neuroscience, Physics

参考文献

1. Protasenko, O., Mygal, G. Human Factors: The Problem of Man-machine Interaction under the Digitalization Conditions. Scientific Journal of Polonia University, 48(5), 198–210. (2021).
2. Mygal, G.V., Protasenko, O.F. Стресостійкість людини-оператора. Методи підвищення стресостійкості // Открытые информационные и компьютерные интегрированные технологии, 39, 248–252. (2008).
3. Mygal, G.V., Protasenko, O.F. The design principles of man-machine interaction in a digital environment. Open information and computer integrated technologies, 93, 190–204. (2021).
4. Mygal, G.V., Protasenko, O.F. Функциональное состояние человекаоператора как источник мониторинговой информации // Открытые информационные и компьютерные интегрированные технологии, 40, 187–192. (2008).
5. Mygal, G., Protasenko, O. Human resources are a factor in applying of man-machine systems safety. Municipal Economy of Cities, 6(159), 139−146. (2020).
6. Mygal, G., Mygal, V., Protasenko, O., Klymenko, I. Cognitive Aspects of Ensuring the Safety, Dependability and Stability of a Dynamic System’s Functioning in Extreme Conditions. In Nechyporuk, M., Pavlikov, V., Kritskiy, D., (eds.) Lecture Notes in Networks and Systems, 367, Springer, Cham. (2022).

基金

暂无数据

补充材料

暂无数据

附加信息

利益冲突

No competing interests were disclosed.

数据可用性声明

The datasets generated during and / or analyzed during the current study are available from the corresponding author on reasonable request.

知识共享许可协议

Copyright © 2023 Mygal et al. This is an open access work distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.