Number of items: 5.
A Bayesian method for improving probabilistic wave forecasts by weighting ensemble members.
Harpham, Q.and Tozer, N. and Cleverley, P. and Wyncoll, D. and Cresswell, D.
Environmental Modelling & Software, 84 . pp. 482-493. (2016)
A multivariate extreme value analysis for the design of coastal structures in England.
In: The Second meeting of the Challenger Society Special Interest Group on Ocean Wind Waves, 19-20 October 2016, HR Wallingford, Oxfordshire. (2016)
Applying Gaussian process emulators for coastal wave modelling.
Malde, S.and Tozer, N. and Oakley, J. and Gouldby, B.P. and Liu, Y. and Wyncoll, D.
Coastal Engineering Journal . (Submitted) (2018)
Assessing the joint probability of sea conditions: a robust approach.
Gouldby, B.P.and Panzeri, M. and Hames, D. and Wyncoll, D. and Tozer, N. and Hawkes, P.J. and Pullen, T. and Hunt, T. and Franklin, M. and Dornbusch, U.
In: ICE Coasts, Marine Structures and Breakwaters 2017, 5-7 September 2017, Liverpool, UK. (2017)
Multivariate extreme value modelling of sea conditions around the coast of England.
Gouldby, B.P.and Wyncoll, D. and Panzeri, M. and Franklin, M and Hunt, T. and Hames, D. and Tozer, N. and Hawkes, P.J. and Dornbusch, U. and Pullen, T.
Proceedings of the Institution of Civil Engineers - Maritime Engineering, 170 (1). pp. 3-20. (2017)