Dr WANG Maoxin

Maoxin
WANG
王茂鑫

PhD in Civil Engineering
Research Assistant Professor
Rm 3599
23587152
0000 0000
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Research Area
Geotechnical engineering
Earthquake engineering
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Profile

PhD in Civil Engineering, Wuhan University

Selected Publications

(Published journal papers)

  • Wang, M. X., Leung, Y. F., Wang, G., Zhang, P. (2024). Semiempirical predictive models for seismically induced slope displacements considering ground motion directionality. Journal of Geotechnical and Geoenvironmental Engineering, ASCE, 150(9), 04024080

  • Wang, M. X., Zhang, C. Y., Li, D. Q., Du, W. (2024). Comparative study of decoupled-and coupled-based predictive models for seismically-induced slope displacements during shallow crustal earthquakes. Engineering Geology, 336, 107561

  • Wang, M. X., Wang, G. (2024). Damping‐dependent correlations between horizontal‐horizontal, horizontal‐vertical, and vertical‐vertical pairs of spectral accelerations. Earthquake Engineering & Structural Dynamics, 53(7), 2423-2444

  • Wang, M. X., Leung, Y. F., Lo, M. K. (2024). Incorporating region-variability of model bias into liquefaction-triggering procedures for sandy and gravelly soils through BUS-powered hierarchical Bayesian updating. Canadian Geotechnical Journal. doi:10.1139/cgj-2024-0059

  • Wang, M. X., Leung, Y. F. (2024). Amplification factors of intensity measures for site-specific PSHA using spectrally equivalent pulse-like and non-pulse-like ground motion records. Soil Dynamics and Earthquake Engineering, 187, 108970

  • Wang, M. X., Wu, Q. (2023). Artificial neural network-aided decoupled prediction of earthquake-induced shallow and deep sliding displacements of slopes. Computers and Geotechnics, 164, 105844

  • Wang, M. X., Wu, Q., Li, D. Q., Du, W. (2023). Numerical-based seismic displacement hazard analysis for earth slopes considering spatially variable soils. Soil Dynamics and Earthquake Engineering, 171, 107967

  • Wang, M. X., Li, D. Q., Du, W. (2021). Probabilistic seismic displacement hazard assessment of earth slopes incorporating spatially random soil parameters. Journal of Geotechnical and Geoenvironmental Engineering, ASCE, 147(11), 04021119

  • Wang, M. X., Huang, D., Wang, G., Li, D. Q. (2020). SS-XGBoost: A machine learning framework for predicting Newmark sliding displacements of slopes. Journal of Geotechnical and Geoenvironmental Engineering, ASCE, 146(9), 04020074

  • Wang, M. X., Huang, D., Wang, G., Du, W., Li, D. Q. (2020). Vine copula-based dependence modeling of multivariate ground-motion intensity measures and the impact on probabilistic seismic slope displacement hazard analysis. Bulletin of the Seismological Society of America, 110(6), 2967-2990