[1]. Deng, E, Dong, Y., Yue, H. and Ni, Y.Q.* (2024). Reflections on potential applications of LiDAR for in situ observations of high-rise buildings during typhoons: focusing on wind-driven rain and windborne debris. Advances in Wind Engineering, 1(1), 100004.
[2]. Tan, Y.K., Wang, Y.L., Ni, Y.Q., Zhang, Q.L., and Wang, Y.W.* (2024). Improved bidirectional echo state network-based time series reconstruction and prediction for structural response. Structural Health Monitoring. 0(0).
[3]. Chen, S.Y., Wang, Y.W.*, Ni, Y.Q.*, and Zhang, Y. (2024). When Transfer Learning Meets Dictionary Learning: A New Hybrid Method for Fast and Automatic Detection of Cracks on Concrete Surfaces. Structural Control and Health Monitoring. 3185640.
[4]. Zhou, J., Li, H.W., Wang, Y.W.*, and Ni, Y.Q. (2024). Comparative study of earthquake effects on the Canton Tower based on full-scale measurements. Journal of Building Engineering. 96, 110430.
[5]. Cai, K., Huang, M.F.*, Wang, C.H., Yang, C., Ni, Y.Q., and Li, B.B. (2024). A combined approach to estimate modal parameters for updating the finite element model of a high-rise building. Structural Control and Health Monitoring. 3650202.
[6]. Cai, K., Huang, M.F.*, Li, Q., Wang, Q., and Ni, Y.Q. (2025). Fractal-based numerical simulation of multivariate typhoon wind speeds utilizing Weierstrass Mandelbrot function. Journal of Infrastructure Intelligence and Resilience, 4(2), 100135.
[7]. Cai, K., Huang, M.F.*, Dong, Y., Liao, S., Ni, Y.Q., and P.W. Chan. (2024). Nonstationary turbulent wind speed models and their effects on wind-induced responses of tall buildings. Journal of Structural Engineering, 151(3), 04025003.
