Risk Assessment of Engineering Construction Projects Based on AHP- Fuzzy Evaluation

Volume 8, Issue 1, February 2024     |     PP. 18-25      |     PDF (185 K)    |     Pub. Date: April 1, 2024
DOI: 10.54647/management630145    41 Downloads     38016 Views  

Author(s)

Zi-cheng Zhu, China Heavy Truck Group Co.,Ltd,Jinan,Shandong,250116,China

Abstract
The engineering construction project has the characteristics of huge amount of investment, long construction cycle and many risk factors. In the process of planning, construction and operation, they are affected and restricted by many factors, and the consequences of risks are relatively serious. Taking H welding workshop construction project as an example, this paper makes an in-depth analysis of the risk influencing factors of the engineering construction project, and comprehensively uses the hierarchical analysis method and fuzzy evaluation method to make a more scientific and in-depth analysis of the risk of the project. After practical application verification, this method overcomes the difficulty of the risk assessment index of complex and difficult to quantitative evaluation of engineering construction projects, and provides a new method for the scientific management of engineering construction projects.

Keywords
Project Construction Project;AHP; Fuzzy Evaluation

Cite this paper
Zi-cheng Zhu, Risk Assessment of Engineering Construction Projects Based on AHP- Fuzzy Evaluation , SCIREA Journal of Management. Volume 8, Issue 1, February 2024 | PP. 18-25. 10.54647/management630145

References

[ 1 ] Chen R F, Jiang A M, Dong YC, et al. Constructionand application of risk assessment model for prefabrica-ted construction quality[J]. Joumal of Railway Sci-ence and Engineering,2021,18(10):2788-2796.
[ 2 ] Zhang Wei, Wang Xingren. Simulation Credibility[J]. Journal of System Simulation, 2001, 13(3): 312-314.
[ 3 ] Mou W P, Gao X. A Reliable Process Planning Approach Based on Fuzzy Comprehensive Evaluation Method Incorporating Historical Machining Data[J]. Proceedings of the Institution of Mechanical Engineers (S0954-4062),2020, 234(5): 900-909.
[ 4 ] Wei D Y, Du C F, Lin Y F, et al. Thermal Environment Assessment of Deep Mine Based on Analytic Hierarchy Process and Fuzzy Comprehensive Evaluation[J]. Case Studies in Thermal Engineering (S2214-157X), 2020, 19.
[ 5 ] Wu X L, Hu F. Analysis of Ecological Carrying Capacity Using A Fuzzy Comprehensive Evaluation method[J]. Ecological Indicators (S1470-160X), 2020, 113.
[ 6 ] Liu Jun, Wu Xiaoyan, Chen Yongxing, et al. Research on Fuzzy Comprehensive Evaluation of Simulation Credibility Based on Entropy Weight[J]. Modern Defence Technology, 2012, 40(5): 162-166.
[ 7 ] Xie Lijuan, Chen Qiao. The Selection of Composition Operator in Fuzzy Comprehensive Evaluation[J]. Science & Technology Association Forum, 2012(9): 103-104.