Application of CREAM Algorithm in Navigation
DOI:
https://doi.org/10.54097/ajst.v1i2.311Keywords:
Human factor reliability analysis, CREAM, status analysis, Bayesian algorithmAbstract
The method for reliability analysis of the second generation of person's representative methods cognitive reliability and error analysis method (CREAM) were summarized, the developing course of CREAM method was introduced in detail, the main feature of CREAM method are summarized in the working principle and working characteristics, and the working process of the CREAM method was introduced in detail, the present situation of the application of CERAM method are analyzed and the future development of the CREAM methods is discussed.
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Yang Yue, ZHANG Yanfei, Wang Jianzhong. Prediction method of atc error probability based on CREAM and bayesian network [J]. China safety science and technology,2020,16(03):37-43.
Hofman Zonne L M,Clark Chantal C,Sanrattana Wariya,Nosairi Aziz,Parr Naomi M J, ž ivkovic Minka,Krause Karoline,Mahnke Niklas A,Scheffel Jorg,Hack C Erik,Maurer Marcus, De Maat Steven,Maas Coen. A mutation in the Kringle Domain of human factor XII that causes autoinflammation, disturbs zymogen quiescence, And accelerates the activation. [J]. Journal of Pubmed, 2020295 (2).
Pu Tongzheng, He Min, Zong Rong, Liu Junqi. Human factor reliability analysis of unmanned aerial vehicle operator based on improved CREAM [J]. Journal of command and control,2019,5(03):236-242.
Yong-Hong Kuo,Andrew Kusiak. From data to big data in production research: the past and future trends[J]. Taylor & Francis, 2019,57 (15-16).
Shirali Gh A,Hosseinzadeh T,Ahamadi Angali K,Rostam Niakan Kalhori Sh. Modifying a method for human reliability A case study of cream-bn in control room of A petrochemical plant [J]. Acta petrolei sinica,2019,6.
Science - Laboratory Science; Ahvaz Jundishapur University of Medical Sciences Describes Findings in Laboratory Science (Modifying a method for human reliability assessment based on CREAM-BN: A case study in control room of a petrochemical plant)[J]. Science Letter,2019.
Wang Ning, Du Xiuli, Zhang Mingju, XU Chengshun, Lu Xinyue. Weighted fuzzy CREAM model for human factor reliability analysis of subway shield construction [J]. Journal of tianjin university (natural science and engineering),2019,52(02):200-210.
LI Jingjing. Quantitative analysis of Human Factor reliability of Fire Emergency Rescue based on CREAM [C]. China Fire Protection Association.2018 China Fire Protection Association Science and Technology Annual Conference proceedings. China Fire Protection Association: China Fire Protection Association,2018:31-34.
LAN baorong. Analysis of human fault in coal mine accident based on CREAM [J]. Energy and environmental protection,2018,40(08):86-88+93.
Shang Mei, Ma Shixuan. Quantitative prediction and analysis of human-caused accidents in building construction based on CREAM [J]. Industrial safety and environmental protection,2018,44(08):19-23.
Wang Yanfu, Li Biao, Wang Jing, Yan Peina. Fire and explosion risk assessment of offshore platforms based on improved CREAM method [J]. China offshore platforms,2018,33(02):74-78.
Wu Guanyin, Hu Lisheng, Zhang Jianbo. Research on human factor Reliability of nuclear Power plant digital Human-machine Interface based on Improved CREAM Method [J]. Automation Applications,2017(11):26-28+31.
Jiang Feifei, Huang Ming, Jiang Fucai. Research on human factor reliability prediction of ship pilot based on CREAM [J]. Traffic information and safety,2017,35(03):26-33.
Chen Meiru, PEI Yulong. Journal of wuhan university of technology (traffic science and engineering),2017,41(03):375-378+384.
Y.T. Xi,Z.L. Yang,Q.G. Fang,W.J. Chen,J. Wang. A new hybrid approach to human error probability Quantification -- applications in maritime operations[J]. Elsevier Ltd,2017,138.
Lv Zongping, WANG Songtao, ZHANG Zhaoning. Collision Risk Assessment of Aircraft under free flight Based on CREAM and IDAC Comprehensive Analysis method [J]. Safety and environmental engineering,2017,24(01):111-114+120.
Emre Akyuz. Quantification of human error probability towards the gas inerting process on-board crude oil Tankers [J]. Elsevier Ltd, 2015.
Xi Yongtao, Hu Xiaoping, Chen Weijiong, Zhang Di. China safety science journal,2015,25(11):3-9.
Shuen-tai Ung. Weighted CREAM model for maritime human reliability analysis[J]. Elsevier India Pvt Ltd.,2015,72.
Seung Min Lee,Jun Su Ha,Poong Hyun Seong. CREAM-based communication error analysis method (CEAM) for nuclear power Plant operators' communication[J]. Elsevier Ltd,2010,24(1).
Marzio Marseguerra,Enrico Zio,Massimo Librizzi. Quantitative developments in the cognitive reliability and error Analysis of CREAM for the assessment of human performance[J]. Elsevier Ltd.,2006,33(10).









