Determining possibilities for applying theoretical principles of situational risk management in the aviation safety system

Q3 Mathematics

Eastern-European Journal of Enterprise Technologies Pub Date : 2023-12-28 DOI:10.15587/1729-4061.2023.294763

Dmytro Bugayko, Oleksandr Ponomarenko, Nataliya Sokolova, Oleg Leshchinsky

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引用次数: 0

Abstract

Aviation safety is one of the main criteria for its sustainable development. The object of this study is safety risk management, which is the main tool of the aviation safety management system. The problem that needs to be further solved is the improvement of aviation risk management methods under war, force majeure, and crisis conditions, as well as under conditions of uncertainty, when there is a minimum of time to make a single correct decision. The theory of situational management can be chosen as the theoretical basis for creating decision-making systems. The development of special languages for describing the situation arising at the control object, as well as in its control system, makes it possible to correctly represent the models of control objects and the evolution of knowledge about them. The work solves the task of building a model of the control object, which takes into account the maximum number of its features suitable for implementation. In order to represent the management object based on the method of expert assessments, the weighting coefficients of the risk characteristics’ probabilities and the values of the weighting coefficients of the degrees of severity were calculated, a matrix of risk assessment indicators was built, and risk assessment criteria were developed. Based on the calculations, general approaches to aviation safety risk management were specified. The paper developed a «dramatic script» of an episode of aviation security risk management, which includes the stages of the episode, the content of necessary actions, the corresponding stages of aviation security risk management and the corresponding aviation security risk management. The content of the management itself consists in preventing the transition from the zone of acceptable risk to the zone of permissible and from the zone of permissible risk to the zone of unacceptable risk, as well as the implementation of measures to stimulate the transition from the zone of unacceptable to the zone of permissible risk and from the zone of permissible to the zone of acceptable risk

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确定在航空安全系统中应用情景风险管理理论原则的可能性

航空安全是其可持续发展的主要标准之一。本研究的对象是安全风险管理，它是航空安全管理系统的主要工具。需要进一步解决的问题是，在战争、不可抗力和危机条件下，以及在不确定条件下，当做出一个正确决策的时间最短时，如何改进航空风险管理方法。可以选择态势管理理论作为创建决策系统的理论基础。开发用于描述控制对象及其控制系统中出现的情况的特殊语言，可以正确表示控制对象的模型和有关知识的演变。这项工作解决了建立控制对象模型的任务，该模型最大限度地考虑了适合实施的控制对象特征。为了在专家评估方法的基础上表示管理对象，计算了风险特征概率的权重系数和严重程度的权重系数值，建立了风险评估指标矩阵，并制定了风险评估标准。根据计算结果，明确了航空安全风险管理的一般方法。论文编写了航空安全风险管理情节的 "戏剧剧本"，其中包括情节的各个阶段、必要行动的内容、航空安全风险管理的相应阶段以及相应的航空安全风险管理。管理本身的内容包括防止从可接受风险区过渡到允许风险区，从允许风险区过渡到不可接受风险区，以及采取措施促进从不可接受风险区过渡到允许风险区，从允许风险区过渡到可接受风险区。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Eastern-European Journal of Enterprise Technologies Mathematics-Applied Mathematics

CiteScore

2.00

自引率

0.00%

发文量

369

审稿时长

6 weeks

期刊介绍： Terminology used in the title of the "East European Journal of Enterprise Technologies" - "enterprise technologies" should be read as "industrial technologies". "Eastern-European Journal of Enterprise Technologies" publishes all those best ideas from the science, which can be introduced in the industry. Since, obtaining the high-quality, competitive industrial products is based on introducing high technologies from various independent spheres of scientific researches, but united by a common end result - a finished high-technology product. Among these scientific spheres, there are engineering, power engineering and energy saving, technologies of inorganic and organic substances and materials science, information technologies and control systems. Publishing scientific papers in these directions are the main development "vectors" of the "Eastern-European Journal of Enterprise Technologies". Since, these are those directions of scientific researches, the results of which can be directly used in modern industrial production: space and aircraft industry, instrument-making industry, mechanical engineering, power engineering, chemical industry and metallurgy.