Safety Risk Assessment Analysis of Bridge Construction Using Backpropagation Neural Network

Wang HX, Wu XG, Zhou Q, 2006, Research on the Risk Evaluation of Construction Projects Based on the Improved Hierarchical Analysis Method. Construction Economy, 2006: 70¬–73.

Sun SX, 2008, Application of Multi-Level Fuzzy Comprehensive Risk Evaluation Model in Water Conservancy Projects. Hydropower and Energy Science, 2008: 94–96 + 112.

Zhang L, 2011, Risk Assessment of Long-Span Bridge Engineering Projects Based on Fuzzy Synthesis Theory. Highway Traffic Technology (Applied Technology Edition), 7(12): 270–272.

Shang XF, 2014, Project Risk Research Based on Hierarchical Analysis. Shang, 2014(20): 15–16.

Pu TT, 2018, Risk Early Warning Analysis of Engineering Projects based on the AHP Model. Statistics and Decision Making, 34(21): 182–185.

Wei Q, 2011, Research on the Construction Risk of Large-Span Bridge, thesis, Chang’an University, Shaanxi.

Dariusz S, 2008, Identification and Initial Risk Assessment of Construction Projects in Poland. Journal of Management in Engineering, 24(3).

Alberto D, Dan MF, 2011, Risk Assessment of Highway Bridges under Multiple Hazards. Journal of Risk Research, 2011, 14(9).

Sexsmith RG, Reibd SG, 2003, Safety Factors for Bridge Falsework by Risk Management. Structural Safety, 25(2): 227–243.

Zhang LY, 2005, Research on the Risk Management Methods of Bridge Projects, thesis, Chang’an University, Shaanxi.

Xu DZ, 2008, Risk Assessment and Risk Management during the Continuous Construction Stage of the Cantilever Pouring Prestressed Concrete, thesis, Tongji University, Shanghai.

Kang WK, 2013, Research on the Risk and Safety Control Technology of Bridge Engineering Project, thesis, Zhengzhou University, Sichuan.

Zhang Wei, 2013, Study on the Safety Evaluation of Temporary Structures in Bridge Construction, thesis, Chongqing Jiaotong University, Chongqing.

Biegler-König F, Barmann FA, 1993, A Learning Algorithm for Multilayered Neural Networks Based on Linear Least Squares Problems. Neural Networks 1993(6): 127–131.

Hagan MT, Demuth HB, Beale M, 1996, Neural Network Design. PWS Publishing Co, Boston.

Huang BR, 2016, Analysis of Traffic Flow based on Data Mining Techniques. Global Market, 2016(13).

Wang F, Zheng ZL, Guo JJ, et al., 2014, Prediction Model of Highway Engineering Cost Based on Neural Network. Journal of Hebei University of Engineering (Natural Science Edition), 31(04): 102–104.

Chen M, 2013, MATLAB Principle and Examples of Neural Network. Tsinghua University Press, 2013(03): 156–165.

Sanchez PM, 2005, Neural-Risk Assessment System for Construction Projects. Construction Research Congress 2005: Broadening Perspectives, 1–11.

Hu X, 2009, Application of BP Neural Network with Improved Self-Genetic Algorithm in Bridge Construction Control, thesis, Wuhan University of Technology, Hubei.

Zhang, Liu G, 2010, Line-type Control of a Large-Span Bridge Based on a Neural Network. Transportation Technology and Economy, 59(3): 62–64.

Liu JY, 2013, Study on the Risk Assessment of Large-Span Continuous Rigid-Frame Bridge Girder Engineering Project, thesis, Changsha University of Science and Technology, Hunan.

He Q, 2021, Cost Model of Railway Bridge Concrete Engineering Based on BP Neural Network. Construction Technology Development, 48(17): 106–108.

Liu DB, 2021, Application Research of BP Neural Network in Safety Risk Assessment of High-Speed Railway Bridge Construction Across Existing Lines. Sichuan Cement, 2021(02): 316–317.

Wang FQ, Huang JL, Fu J, et al., 2019, Safety Risk Assessment of High-Speed Railway Bridge Construction Across Existing Lines Based on BP Neural Network. Journal of Railway Science and Engineering, 16(05): 1129–1136.