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J Res Health Sci. 2020;20(1): e00468. doi: 10.34172/jrhs.2020.03
PMID: 32814689        PMCID: PMC7585760

Original Article

Dynamic Human Error Assessment in Emergency Using Fuzzy Bayesian CREAM

Marzieh Abbasinia, Omid Kalatpour, Majid Motamedzadeh, Alireza Soltanian, Iraj Mohammadfam *

Cited by CrossRef: 14


1- Soltanzadeh A, Mohammadfam I, Mahdinia M, Sadeghi-Yarandi M. Construction accident data mining: A retrospective study using structural equation modeling based on 10-year data. WOR. 2023;75(4):1341 [Crossref]
2- Tang J, Liu X, Wang W. COVID-19 medical waste transportation risk evaluation integrating type-2 fuzzy total interpretive structural modeling and Bayesian network. Expert Systems with Applications. 2023;213:118885 [Crossref]
3- Irshad L, Hulse D. Can Resilience Assessments Inform Early Design Human Factors Decision-making?. IFAC-PapersOnLine. 2022;55(29):61 [Crossref]
4- Lin C, Xu Q, Huang Y. An HFM‐CREAM model for the assessment of human reliability and quantification. Quality & Reliability Eng. 2022;38(5):2372 [Crossref]
5- Salari S, Karimi A, Farvaresh E, Hokmabadi R. An integrated approach to a predictive and ranking model of use error using fuzzy BWM and fuzzy TOPSIS. International Journal of Occupational Safety and Ergonomics. 2024;:1 [Crossref]
6- Borgheipour H, Tehrani G, Eskandari T, Mohammadieh O, Mohammadfam I. Dynamic risk analysis of hydrogen gas leakage using Bow-tie technique and Bayesian network. Int J Environ Sci Technol. 2021;18(11):3613 [Crossref]
7- Fan H, Enshaei H, Jayasinghe S. Human Error Probability Assessment for LNG Bunkering Based on Fuzzy Bayesian Network-CREAM Model. JMSE. 2022;10(3):333 [Crossref]
8- Abbassinia M, Kalatpour O, Motamedzade M, Soltanian A, Mohammadfam I, Ganjipour M, Khodabandehloo L. SOCIAL NETWORK ANALYSIS APPROACH TO ANALYSIS OF EMERGENCY MANAGEMENT TEAM PERFORMANCE. ioh. 2021;18(1):89 [Crossref]
9- Gao S, Wang H. Scenario prediction of public health emergencies using infectious disease dynamics model and dynamic Bayes. Future Generation Computer Systems. 2022;127:334 [Crossref]
10- Liu X, Liu Z, Chen J, Yu X, Lai B, Zhan B, Huang S, Lesiuk G. Ergonomic Reliability Assessment for Passenger Car Interface Design Based on EWM-MADM and Human Cognitive Reliability Experiments. Mathematical Problems in Engineering. 2020;2020:1 [Crossref]
11- Abbassinia M, Kalatpour O, Motamedzadeh M, Soltanian A, Mohammadfam I. The Application of Lean Production in Reducing Human Error and Improving Response in Emergencies: A case Study in a Petrochemical Industry. Iran J Ergon. 2020;8(2):39 [Crossref]
12- Abbasinia M, Mohammadfam I. Identifying, evaluating and prioritizing the causes of occupational accidents in the construction industry using fuzzy AHP and fuzzy TOPSIS. WOR. 2022;72(3):933 [Crossref]
13- Zhang R, Ge J, Zhang J, Cui H, Zhang Q, Zhang Z. A Risk-Data-Based Human Reliability Analysis for Chemical Experiments with Hazardous Processes. Processes. 2023;11(5):1484 [Crossref]
14- Farhadi S, Mohammadfam I, Kalatpour O, Ghasemi F. Determining performance shaping factors to assess human error in the emergency response team in chemical process industries: a case study. International Journal of Occupational Safety and Ergonomics. 2023;29(1):294 [Crossref]
15- Wang D, Yang G, Han J, Duo Y, Zhou X, Tong R. Quantitative assessment of human error of emergency behavior for hazardous chemical spills in chemical parks. Process Safety and Environmental Protection. 2024;189:930 [Crossref]
16- Xu X, Zhang L, Wang S, Gong H, Liu H. An Integrated CREAM for Human Reliability Analysis Based on Consensus Reaching Process under Probabilistic Linguistic Environment. Systems. 2024;12(7):249 [Crossref]