T. Tang*, P. H. Taylor, Y. Chen, T. A. A. Adcock (2025) Solitary wave interactions modelled using conserved and empirically-conserved quantities discovered with machine learning. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences
T. Monahan, T. Tang, S. Roberts, T. A. A. Adcock (2025) Tidal corrections from and for SWOT using a spatially coherent variational Bayesian harmonic analysis. Journal of Geophysical Research: Oceans, 130 (3), e2024JC021533
G. V. Ryan, T. Tang, R. A. McAdam, T. A. A. Adcock (2025) Influence of non-linear wave load models on monopile supported offshore wind turbines for extreme conditions. Ocean Engineering, 323, 120510
H. Ding, G. Zhao, T. Tang, P. H. Taylor, T. A. A. Adcock, S. Dai, D. Ning, L. Chen, J. Li, R. Wang, J. Zang (2025) Experimental investigation of nonlinear forces on a monopile offshore wind turbine foundation under directionally spread waves. Journal of Offshore Mechanics and Arctic Engineering, 147, 4
T. Tang, H. Ding*, S. Dai, P. H. Taylor, J. Zang, T. A. A. Adcock (2024) Quasi-impulsive reverse wave force on a vertical cylinder. Journal of Fluid Mechanics, 994, A9
T. Tang*, G. Ryan, H. Ding, S. Dai, X. Chen, P. H. Taylor, J. Zang, T. A. A. Adcock (2024) A new Gaussian Process based model for non-linear wave loading on vertical cylinders. Coastal Engineering, 188, 104427.
P. H. Taylor, T. Tang*, T. A. A. Adcock, J. Zang (2024) Transformed-FNV: wave forces on a vertical cylinder-a free-surface formulation. Coastal Engineering, 189, 104454
T. Tang*, H. Ding, S. Dai, X. Chen, P. H. Taylor, J. Zang, T. A. A. Adcock (2024) Data Informed Model Test Design With Machine Learning - an Example in Nonlinear Wave Load on a Vertical Cylinder. Journal of Offshore Mechanics and Arctic Engineering. 146(2): 021204.
B. Tai, Y. Ma, G. Dong, C. G. Koh, T. Tang, M. Perlin (2024) An enhanced model for an extreme wave impacting a vertical cylinder. Coastal Engineering, 104630
Z. Zhang, T. Tang, X. Zheng, W. Xu, L. Zhang, J. Lee, T. A. A. Adcock, J. P. Monty, A. Slunyaev, T. S. Van Den Bremer, Y. Li (2024) Laboratory study of wind impact on steep unidirectional waves in a long tank. Physical Review Fluids, 9 (10), 104801
Z. Zhang, T. Tang, Y. Li (2024) Spatial estimation of unidirectional wave evolution based on ensemble data assimilation. European Journal of Mechanics-B/Fluids, 106, 1-12
B. Zhou, K. Ding, Y. Xiao, L. Wang, T. Tang (2024) Energy transfer in the spatial evolution of double-wave-group focusing. Physics of Fluids 36 (4)
T. Tang*, C. Moss, S. Draycott, H.B. Bingham, T. S. van den Bremer, Y. Li, T. A. A. Adcock (2023) The influence of directional spreading on rogue waves triggered by abrupt depth transitions, Journal of Fluid Mechanics, 972, R2.
T. Monahan, T. Tang, T. A. A. Adcock (2023) A hybrid model for online short-term tidal energy forecasting. Applied Ocean Research. 1;137, 103596.
Y. Liu, D. Eeltink, T. Tang, D. Barratt, Y. Li, T. A. A. Adcock & T. S. van den Bremer (2023) Comparison of breaking models in envelope-based surface gravity wave evolution equations. Physical Review Fluids.
B. Zhou, K. Ding, J. Wang, L. Wang, P. Jin, T. Tang (2023) Experimental study on the interactions between wave groups in double-wave-group focusing. Physics of Fluids, 35, 037118
L. Wang, K. Ding, B. Zhou, J. Li, S. Liu, T. Tang (2023) Quantitative prediction of the freak wave occurrence probability in co-propagating mixed waves. Ocean Engineering, 271, 113810.
T. Tang*, D. Barratt, H. B. Bingham, T. S. van den Bremer, T. A. A. Adcock (2022) The impact of removing the high-frequency spectral tail on rogue wave statistics, Journal of Fluid Mechanics. 953, A9.
T. Tang*, T. A. A. Adcock, (2022) A reduced order model for space-time wave statistics using probabilistic decomposition-synthesis method, Ocean Engineering. 111860.
T. Tang*, T. A. A. Adcock, (2022) Estimating space-time wave statistics using a sequential sampling method and Gaussian process regression, Applied Ocean Research. 103127.
Z. Li, T. Tang, Y. Li, S. Draycott, T. S. van den Bremer, T. A. A. Adcock (2022) Wave loads on ocean infrastructure increase as a result of waves passing over abrupt depth transitions. Journal of Ocean Engineering and Marine Energy. 23:1-9.
Q. Liu, X. Feng, T. Tang (2022) A machine learning model for wave prediction based on support vector machine. International Journal of Offshore and Polar Engineering. 32(04):394-401.
C. R. Vogel, T. Tang, S. L. Dubon, J. Steynor (2021) Simulations of tidal turbine blade loading in flood and ebb tides, International Marine Energy Journal
T. Tang*, T. A. A. Adcock, (2021) Data-driven analysis on the extreme wave statistics over an area. Applied Ocean Research, 115, 102809.
T. Tang*, T. A. A. Adcock, (2021) The influence of finite depth on the evolution of extreme wave statistics in wave tanks, Coastal Engineering. 103870.
T. Tang*, W. Xu, D. Barratt, H. B. Bingham, Y. Li, P.H. Taylor, T. S. van den Bremer, T.A.A. Adcock (2020) Spatial evolution of the kurtosis of steep unidirectional random waves, Journal of Fluid Mechanics. 908, A3.
T. Tang*, P. Tromans, T. A. A. Adcock, (2019) Field measurement of nonlinear changes to large gravity wave groups. Journal of Fluid Mechanics, 873, 1158-1178.
T. Tang, Y. Chen, P. H. Taylor, T. A. A. Adcock (2024) Discovering equations that govern wave breaking evolution using scientific machine learning. EGU General Assembly Conference Abstracts
T. Monahan, T. Tang, S. Roberts, T. A. A. Adcock (2024) A framework for early-stage coastal and estuarine tidal and mean sea surface correction from the Surface Water Ocean Topography mission. EGU General Assembly Conference Abstracts, 15396
T. Tang, H. Ding, S. Dai, X. Chen, P. H. Taylor, J. Zang, T. A. A. Adcock (2023) Data Informed Model Test Design With Machine Learning - an Example in Nonlinear Wave Load on a Vertical Cylinder, 42nd International Conference on Ocean, Offshore and Arctic Engineering
T. Monahan, T. Tang, T. A. A. Adcock (2023) Enhancing Tidal Energy Forecasting Using Hybrid Online Machine Learning. EGU General Assembly Conference Abstracts, EGU-17544
T. Tang, H. Ding, S. Dai, P. H. Taylor, J. Zang, T. A. A. Adcock (2023) An experimental investigation of nonlinear wave loading on a vertical cylinder - Stokes type expansion and secondary load cycle, The 2023 International Workshop on Water Waves and Floating Bodies
G. Zhao, S. Dai, H. Ding, T. Tang, P. H. Taylor, T. A. A. Adcock, J. Zang (2023) Recent experimental wave load study on bottom fixed vertical cylinder study at the Kelvin Hydrodynamics Laboratory. 10th PRIMaRE Conference on Marine Renewable Energy
Z. Li, T. Tang, S. Draycott, Y. Li, T. S. van den Bremer, T. A. A. Adcock (2022) On rogue waves generated by abrupt depth transitions, 41st International Conference on Ocean, Offshore and Arctic Engineering
T. Tang, T. A. A. Adcock, (2022) A reduced order parameterization of random wave fields with deterministic wave groups, 41st International Conference on Ocean, Offshore and Arctic Engineering
T. Tang, Y. Li, H. B. Bingham, T. A. A. Adcock (2020) Comparison of two versions of the MNLS with the full water wave equations, 40th International Conference on Ocean, Offshore and Arctic Engineering
T. A. A. Adcock, X. Feng, T. Tang, T. S. van den Bremer, A.H. Day, S. Dai, Y. Li, Z. Lin, W. Xu, P.H. Taylor (2019) Application of 4-phase decomposition to the analysis of random time series from wave basin tests, 38th International Conference on Ocean, Offshore and Arctic Engineering
T. Tang, M. J. Yelland, T. A. A. Adcock (2019) The average shape of large waves in the Norwegian sea -- is non-linear physics important? 38th ASME International Conference on Ocean, Offshore and Arctic Engineering
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