Research Published
Paper published in Géotechnique
August 23 Contents Out new paper has been publish in Nature Reviews Earth & Environment This is a review paper summarizing recent research progress of tsunami monitoring, early warning and hazard assessment. Manuscript Mori, N., K. Satake, D. Cox, K. Goda, P. A. Catalan, T.C. Ho, F. Imamura, T. Tomiczek, P. Lynett, T. Miyashita, A. […]
Paper published in Géotechnique
August 16 Contents Out new paper has been publish in Géotechnique. This is a collaborative research on failure of seawall due to wave pressure and overtopping between Port and Airport Research Institute and Imperial College. Manuscript Destabilisation of seawall ground by ocean wavesHidenori Takahashi, Lidija Zdravković, Aikaterini Tsiampousi, and Nobuhito Mori, Géotechnique, 1-16
Paper published in Nature Climate Change
June 17 Contents Our new research has published from Nature Climate Change. We find a group of coastal locations around the world highly vulnerable to one specific climate-driven change: stronger waves, or waves coming from a different direction, which may cause widespread coastal erosion. Manuscript Odériz, I, N. Mori, T. Shimura, A. Webb, R. Silva, […]
Paper published in Journal of Geophysical Research, Oceans
May 28 Contents We used 3D-printed mangrove models, 1:7 replicas of a typical mature Rhizophora apiculata, in laboratory experiments Empirical formulas for drag and inertia coefficients were proposed based on the direct measurements of wave forces and fluid velocity The change in force coefficients, fluid velocity and turbulent kinetic energy with varying water depths shows the […]
Paper published in Nature Communications
April 29 Contents A joint paper has been published in Nature Communications. The blended machine learning and physics-based nonlinear evolution model for deep-water are developed to predict the evolution of breaking waves. Manuscript Eeltink, D., H. Branger, C. Luneau, Y. He, A. Chabchoub, J. Kasparian, and T. P. Sapsis (2022) Nonlinear wave evolution with data-driven breaking, Nature […]