A dynamic system-based model for analyzing human factors: Enhanced AcciMap with spherical fuzzy dynamic Bayesian network approach

IF 2.2 3区 工程技术 Q3 ENGINEERING, MANUFACTURING Human Factors and Ergonomics in Manufacturing & Service Industries Pub Date : 2024-02-21 DOI:10.1002/hfm.21029
Kosar Tohidizadeh, Esmaeil Zarei, Mehran Ghalenoei, Mohammad Yazdi, Kamran Kolivand
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Abstract

In today's interconnected global economy, maritime trade is a pillar of prosperity, yet maritime accidents loom as a formidable challenge. The intricate nature of these accidents, coupled with rapid technological advancements, necessitates the evolution of systematic analysis methods. Conventional systemic approaches, while valuable, struggle to encapsulate the intricate web of mutual and dynamic dependencies inherent in these incidents. Furthermore, the call for more quantitative support in decision-making and the ability to account for emergent factors has become increasingly imperative. This study aims to analyze maritime accidents by introducing a quantitative and dynamic model. The endeavour begins with establishing an extended Accident Map-based model, a robust framework that unveils a sophisticated accident causation model. This preliminary action establishes the groundwork for integrating an innovative Spherical Fuzzy Set, navigating the complex landscape of knowledge acquisition. The subsequent phase charts a transformative course by mapping the model onto a dynamic Bayesian Network to conduct a forward and backward analysis. The essence of the model lies in its dynamic nature, allowing for real-time updates that reflect the evolving maritime accidents risk factors. The approach is validated through a partial benchmark exercise, a reality check, an independent peer review, and a sensitivity analysis. The model can explore emerging contributing factors, reduce uncertainty, and consider relationships between factors that yield designing more effective safety measures.

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基于动态系统的人为因素分析模型:采用球形模糊动态贝叶斯网络方法的增强型 AcciMap
在当今相互联系的全球经济中,海上贸易是繁荣的支柱,但海上事故也是一个严峻的挑战。这些事故的性质错综复杂,再加上技术的飞速发展,因此有必要发展系统分析方法。传统的系统分析方法虽然很有价值,但却难以囊括这些事故所固有的错综复杂的相互和动态依赖关系。此外,要求为决策提供更多量化支持以及考虑突发因素的能力已变得越来越迫切。本研究旨在通过引入定量动态模型来分析海上事故。这项工作从建立基于事故地图的扩展模型开始,该模型是一个强大的框架,揭示了复杂的事故因果模型。这一初步行动为整合创新的球形模糊集奠定了基础,并在复杂的知识获取过程中起到导航作用。随后的阶段通过将模型映射到动态贝叶斯网络上,进行前向和后向分析,描绘了一条变革之路。该模型的精髓在于其动态性质,允许实时更新,以反映不断变化的海事事故风险因素。该方法通过部分基准练习、现实检查、独立同行评审和敏感性分析进行验证。该模型可以探索新出现的促成因素,减少不确定性,并考虑各因素之间的关系,从而设计出更有效的安全措施。
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
CiteScore
5.20
自引率
8.30%
发文量
37
审稿时长
6.0 months
期刊介绍: The purpose of Human Factors and Ergonomics in Manufacturing & Service Industries is to facilitate discovery, integration, and application of scientific knowledge about human aspects of manufacturing, and to provide a forum for worldwide dissemination of such knowledge for its application and benefit to manufacturing industries. The journal covers a broad spectrum of ergonomics and human factors issues with a focus on the design, operation and management of contemporary manufacturing systems, both in the shop floor and office environments, in the quest for manufacturing agility, i.e. enhancement and integration of human skills with hardware performance for improved market competitiveness, management of change, product and process quality, and human-system reliability. The inter- and cross-disciplinary nature of the journal allows for a wide scope of issues relevant to manufacturing system design and engineering, human resource management, social, organizational, safety, and health issues. Examples of specific subject areas of interest include: implementation of advanced manufacturing technology, human aspects of computer-aided design and engineering, work design, compensation and appraisal, selection training and education, labor-management relations, agile manufacturing and virtual companies, human factors in total quality management, prevention of work-related musculoskeletal disorders, ergonomics of workplace, equipment and tool design, ergonomics programs, guides and standards for industry, automation safety and robot systems, human skills development and knowledge enhancing technologies, reliability, and safety and worker health issues.
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