An advanced approach to the system safety in sociotechnical systems

•A systematic approach to identify and quantify PSFs importance on the performance of complex sociotechnical systems is proposed.•A holistic PSFs Taxonomy based on sociotechnical systems design is proposed.•The proposed model’s capability is tested on maintenance operations in the chemical process p...

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Published in:Safety science Vol. 158; p. 105961
Main Authors: Zarei, Esmaeil, Khan, Faisal, Abbassi, Rouzbeh
Format: Journal Article
Language:English
Published: Elsevier Ltd 01.02.2023
Subjects:
Functional resonance analysis
Human Factors
Performance shaping factors
Performance variability
System safety
System safety
Performance variability
Performance shaping factors
Human Factors
Functional resonance analysis
ISSN:0925-7535, 1879-1042
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Abstract •A systematic approach to identify and quantify PSFs importance on the performance of complex sociotechnical systems is proposed.•A holistic PSFs Taxonomy based on sociotechnical systems design is proposed.•The proposed model’s capability is tested on maintenance operations in the chemical process plants.•This study helps to allocate safety measures to improve resilience and safety performance. The safety performance of sociotechnical systems (STSs) and their main components (e.g., human, organization, and technology) vary due to numerous performance shaping factors (PSFs). However, previous research mainly focused on studying limited PSFs related to human functions, while organization and technology functions have often been ignored. This paper aims to propose a systematic approach to identify PSFs, quantify their importance level and influence on the performance of complex sociotechnical systems’ functions. To this end, we first developed a holistic PSFs Taxonomy based on sociotechnical systems design and then employed novel Interval-Valued Spherical Fuzzy Sets (IVSFS) and Best Worst Method to quantify the importance of performance. We tested the proposed model’s capability on maintenance operations in the chemical process plants and compared the model with the previous research considering fourteen criteria. The findings revealed the approach's effectiveness in dealing with epistemic uncertainty, vagueness, and fuzziness in the knowledge acquisition process. It revealed the critical safety investment factors among different sociotechnical elements and contributing factors to maintenance operations. This helps to effectively allocate safety countermeasures to improve resilience and system safety performance.
AbstractList •A systematic approach to identify and quantify PSFs importance on the performance of complex sociotechnical systems is proposed.•A holistic PSFs Taxonomy based on sociotechnical systems design is proposed.•The proposed model’s capability is tested on maintenance operations in the chemical process plants.•This study helps to allocate safety measures to improve resilience and safety performance. The safety performance of sociotechnical systems (STSs) and their main components (e.g., human, organization, and technology) vary due to numerous performance shaping factors (PSFs). However, previous research mainly focused on studying limited PSFs related to human functions, while organization and technology functions have often been ignored. This paper aims to propose a systematic approach to identify PSFs, quantify their importance level and influence on the performance of complex sociotechnical systems’ functions. To this end, we first developed a holistic PSFs Taxonomy based on sociotechnical systems design and then employed novel Interval-Valued Spherical Fuzzy Sets (IVSFS) and Best Worst Method to quantify the importance of performance. We tested the proposed model’s capability on maintenance operations in the chemical process plants and compared the model with the previous research considering fourteen criteria. The findings revealed the approach's effectiveness in dealing with epistemic uncertainty, vagueness, and fuzziness in the knowledge acquisition process. It revealed the critical safety investment factors among different sociotechnical elements and contributing factors to maintenance operations. This helps to effectively allocate safety countermeasures to improve resilience and system safety performance.
ArticleNumber 105961
Author Khan, Faisal
Zarei, Esmaeil
Abbassi, Rouzbeh
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  surname: Zarei
  fullname: Zarei, Esmaeil
  organization: Centre for Risk, Integrity and Safety Engineering (C-RISE), Faculty of Engineering and Applied Science, Memorial University of Newfoundland, St. John's, NL A1B 3X5, Canada
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  givenname: Faisal
  surname: Khan
  fullname: Khan, Faisal
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  givenname: Rouzbeh
  surname: Abbassi
  fullname: Abbassi, Rouzbeh
  organization: School of Engineering, Faculty of Science and Engineering, Macquarie University, Sydney, NSW, Australia
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Keywords System safety
Performance variability
Performance shaping factors
Human Factors
Functional resonance analysis
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Snippet •A systematic approach to identify and quantify PSFs importance on the performance of complex sociotechnical systems is proposed.•A holistic PSFs Taxonomy...
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SubjectTerms Functional resonance analysis
Human Factors
Performance shaping factors
Performance variability
System safety
Title An advanced approach to the system safety in sociotechnical systems
URI https://dx.doi.org/10.1016/j.ssci.2022.105961
Volume 158
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