1.Beer, M.*, Zhang, Y., Quek, S.T., Phoon, K.K. (2013): Reliability analysis with scarce information: comparing alternative approaches in a geotechnical engineering context(*highly cited research paper). In: Structural Safety, 41, 1-10.
2.Zhang, Y., Beer, M.*, Quek, S.T. (2015): Long-term performance assessment and design of offshore structures. In: Computers and Structures, 154, 101-115.
3.Zhang, Y., Lam, J.S.L.* (2015): Reliability analysis of offshore structures within a time varying environment. In: Stochastic Environmental Research and Risk Assessment, 29(6), 1615-1636.
4.Zhang, Y., Lam, J.S.L.* (2015): Estimating the economic losses of port disruption due to extreme wind events. In: Ocean & Coastal Management, 116, 300-310.
5.Zhang, Y., Lam, J.S.L.* (2016): Estimating economic losses of industry clusters due to port disruptions. In: Transportation Research Part A: Policy and Practice, 91, 17-33.
6.Zhang, Y.*, Kim, C.W., Tee, K.F.(2017):Maintenance management of offshore structures using Markov process model with random transition probabilities. In: Structure and Infrastructure Engineering, 13(8), 1068-1080.
7.Zhang, Y.*, Kim, C.W., Tee, K.F., Lam, J.S.L. (2017): Optimal sustainable life cycle maintenance strategies for port infrastructures.(*ESI paper) In: Journal of Cleaner Production, 142, 1693-1709.
8.Zhang, Y.*, Kim, C.W., Beer, M., Dai, H., Guedes Soares, C., (2018): Modeling multivariate ocean data using asymmetric copulas. In: Coastal Engineering, 135, 91-111.
9.Zhang, D., Zhang, Y.*, Cheng, T., Meng, Y, Fang, K, Garg, A., Garg, A. (2017): Measurement of displacement for open pit to underground mining transition using digital photogrammetry. In: Measurement, 109, 187-199.
10.Yan, K., Cheng, T., Zhang, Y.* (2018): A new method in measuring the velocity profile surrounding a fence structure considering snow effects. In: Measurement, 116, 373-381.
11.Zhang, D., Zhang., Y.*, Cheng, T. (2018): Measurement of grass root reinforcement for copper slag mixed soil using shear test apparatus. In: Measurement, 118, 14-22.
12.Cheng, T., Yu, Z., Zheng, J., Du, J., Zhang, Y.*, Garg, A., Garg, A., (2018): Improvement of the cavity expansion theory for the measurement of strain softening in over consolidated saturated clay. In: Measurement, 119, 156-166.
13.Zhang, Y.*, Kim, C.W., Tee, K.F., Garg, A., Garg, A. (2018): Long-term health monitoring for deteriorated bridge structures based on Copula theory. In: Smart Structures & Systems, 21(2), 171-185.
14.Zhang, D., Zhang, Y.*, Kim, C.W., Yuan, M., Garg, A., Garg, A., (2018): Effectiveness of CFG pile-slab structure on soft soil for supporting high-speed railway embankment. In: Soils and Foundation, 58(6), 1458-1475.
15.Zhang, Y.*, Gomes, A., Beer, M., Neumann, I., Nackenhorst, U., (2019): Modeling asymmetric dependences among soil parameters - the asymmetric copula approach. In: Soils and Foundation, 59, 1690-1979.
16.Zhang, Y.*, Kim, C.W., Lin, J. (2019): Removing environmental influences in health monitoring for steel bridges through copula approaches. In: International Journal of Steel Structures, 19, 888-895.
17.Zhang, Y.*, (2018): Investigating dependencies among oil price and tanker market variables by copula-based multivariate models. In: Energy, 161, 435-466.
18.Xu, X., Yang, H.*, Zhang, Y., Neumann, I. (2018): Intelligent 3d data extraction method for deformation analysis of composite structures. In: Composite Structures, 203, 254-258.
19.Zhang, Y.*, Gomes, A., Beer, M., Neumann, I., Nackenhorst, U., (2019): Reliability analysis with consideration of asymmetrically dependent variables: discussion and application to geotechnical examples. In: Reliability Engineering & System Safety, 185, 261-277.
20.Ye, X.*, Zhang, Y., Kim, C.W., Ogai, H., (2019): Hierarchical probability and risk assessment for k-out-of-n system in hierarchy. In: Reliability Engineering & System Safety, 189, 242-260.
21.Wang, B., Guan, S., Zhang, Y., Bai, Y.*, (2019): Experimental behavior and failure modes of hybrid beam-to-column connections with RC wing-walls in industrial construction. In: Construction and Building Materials, 218, 628-643.
22.Zhang Z.*, Liu X., Zhang Y., Zhou M., Chen J., (2020): Time interval of multiple crossings of the Wiener process and a fixed threshold in engineering (*ESI paper). In: Mechanical Systems and Signal Processing 135, 106389.
23.Zhang Y.*, Kim C.-W., Zhang L., Bai Y., Yang H., Xu X., Zhang Z., (2020): Long term structural health monitoring for old deteriorated bridges: a copula-ARMA approach. In: Smart Structures and Systems, 25(3), 285-299.
24.Zhang, Y., Wei, K.*, Shen, Z., Bai, X., Lu, X., Soares, C.G., (2020): Economic impact of typhoon-induced wind disasters on port operations: A case study of ports in China. In: International Journal of Disaster Risk Reduction 50, 101719
25.Huang, L., Zhang, Y.*, Lo, M.K., Cheng, Y.M., (2020): Comparative study of conditional methods in slope reliability evaluation. In: Computers and Geotechnics 127, 103762
26.Zhang, Z., Liu, M., Liu, X., Wang, X., Zhang, Y. (2021): Model identification of durability degradation process of concrete material and structure based on Wiener process. In: International Journal of Damage Mechanics, 1056789520961439
27.Bai, Y., Yue, Y., Chen, Y., Luo, D., Wang, Y., Zhang, Y.* (2021): Local damage identification of high-strength circular concrete-filled steel tubes under low cycle fatigue. In: International Journal of Damage Mechanics, 1056789520963205
28.Zhou, M., Shadabfar, M.*, Xue, Y., Zhang, Y., & Huang, H. (2021): Probabilistic Analysis of Tunnel Roof Deflection under Sequential Excavation Using ANN-Based Monte Carlo Simulation and Simplified Reliability Approach. In: ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems, Part A: Civil Engineering, 7(4), 04021043.
29.Li, N., Zhang, Y., Huang, L.* (2021): Real - time slope monitoring system and risk communication among various parties - case study for a large-scale slope in Shenzhen, China. In: ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems, Part A: Civil Engineering, 7(4), 04021051
30.Zhang, Z.*, Niu, Q., Liu, X., Zhang, Y., Zhao, T., & Liu, M. (2021): Durability Life Prediction of Reinforced Concrete Structure Corroded by Chloride Based on the Gamma Process. In: ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems, Part A: Civil Engineering, 7(4), 04021061.
31.Tian, Z., Zhang, Y.* (2021): Numerical Estimation of the Typhoon-induced Wind and Wave Fields in Taiwan Strait. In: Ocean Engineering, 109803
32.Ma, P., Zhang, Y.* (2022): Modeling asymmetrically dependent multivariate ocean data using truncated copulas. In: Ocean Engineering, 244, 110226.
33.Lin, G., Zhang, Y.*, Liao, Q. (2022): Developing efficient model updating approaches for different structural complexity - an ensemble learning and uncertainty quantifications. In: Smart Structures and Systems, 29(2), 321-336.
34.Cai, E., Zhang, Y.*, Quek, S.T. (2022): Visualizing and quantifying small and nonstationary structural motions in video measurement. In: Computer‐Aided Civil and Infrastructure Engineering 38 (2), 135-159.
35.Cai, E., Zhang, Y.* (2022): Gaussian mixture model based phase prior learning for video motion estimation. In: Mechanical Systems and Signal Processing, 175, 109103.
36.An, P., Fang, K.*, Zhang, Y., Jiang, Y., Yang, Y. (2022): Assessment of the trueness and precision of smartphone photogrammetry for rock joint roughness measurement. In: Measurement, 188, 110598.
37.Shadabfar, M.*, Mahsuli, M., Zhang, Y., Xue, Y., & Huang, H. (2022): Probabilistic data-driven framework for performance assessment of retaining walls against rockfalls. In: Probabilistic Engineering Mechanics, 103339.
38.Sun, C., Gu, D., Zhang, Y., & Lu, X.* (2022): Vision‐based displacement measurement enhanced by super‐resolution using generative adversarial networks. In: Structural Control and Health Monitoring, 29 (10), e3048
39.Ma, P., Zhang, Y.*, Li, K., Li, Q., Wang, J., Li, L., & Yuan, Z. (2022): Smart database design for concrete durability analysis-an application in the Hongkong-Zhuhai-Macau bridge. In: Cement and Concrete Research, 163, 107033.
40.Cai, E., Zhang, Y.*, Ji, X., Lu, X., Xie, L., Zhuang, Y., Zhao, T. & Lin, G. (2023): Estimating small structural motions from multi-view video measurement. In: Engineering Structures, 275, 115259.
41.Cai, E., Zhang, Y.*, Lu, X., Ji, X., Li, Y., Li, J., Song, X., Zhang, H., Liu, Y. (2023): Estimating small structural motions based on sparsity enforcement. In: Computer-Aided Civil and Infrastructure Engineering, 38 (9), 1199-1216.
42.Tian, Z., Zhang, Y.*, Udo, K., & Lu, X. (2023): Regional economic losses of China's coastline due to typhoon-induced port disruptions. In: Ocean & Coastal Management, 237, 106533.
43.Jiang, F. C., Tian, Z., Zhang, Y.*, & Udo, K. (2023): Risk map of typhoon induced wave fields around Hainan Island. In: Applied Ocean Research, 137, 103603.
44.Cai, E., Zhang, Y.*, Lu, X., Li, P., Zhao, T., Lin, G., & Guo, W. (2023): A target-free video structural motion estimation method based on multi-path optimization. In: Mechanical Systems and Signal Processing, 198, 110452.
45.Zheng, Y., & Zhang, Y.* (2023): Reliability analysis for system with dependent components based on survival signature and copula theory. In: Reliability Engineering & System Safety, 109402.
46.Zheng, Y., Zhang, Y.*, & Lin, J. (2023): System reliability analysis for independent and nonidentical components based on survival signature. In: Probabilistic Engineering Mechanics, 103466.
47.Cai, E., Zhang, Y.*, Lu, X., Li, P., Zhao, T., Lin, G., & Guo, W. (2023): A target-free video structural motion estimation method based on multi-path optimization. In: Mechanical Systems and Signal Processing, 198, 110452.
48.Zheng, Y., Zhang, Y.*, & Lin, J. (2023): BIM–based time-varying system reliability analysis for buildings and infrastructures. In: Journal of Building Engineering, 106958.
49.Li, P. P., Zhang, Y.*, Zhao, Y. G., Zhao, Z., & Cai, E. (2023): An Information Reuse-Based Method for Reliability Updating. In: Reliability Engineering & System Safety, 109536.
50.Lin, G., Zhang, Y.*, Cai, E., Zhao, T., Li, Z. (2023): An ensemble learning based Bayesian model updating approach for structural damage identification. In: Smart Structures and Systems, 32(1), 61-81.