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TY  - BOOK
ID  - 134122072
TI  - Multiscale, Multiphysics Modelling of Coastal Ocean Processes: Paradigms and Approaches
AU  - Tang, Hansong
AU  - Nichols, C. Reid
AU  - Resio, Donald T.
AU  - Wright, Don
PY  - 2022
PB  - Basel MDPI - Multidisciplinary Digital Publishing Institute
DB  - UniCat
KW  - Technology: general issues
KW  - History of engineering & technology
KW  - high performance computing
KW  - HPC
KW  - PETSc
KW  - parallelization
KW  - scalability
KW  - parallel performance
KW  - streams
KW  - curvilinear
KW  - non-hydrostatic
KW  - ocean modeling
KW  - GCCOM
KW  - open boundaries
KW  - domain decomposition
KW  - variational data assimilation
KW  - inverse problems
KW  - shallow water equations
KW  - boundary conditions
KW  - mathematical modelling
KW  - coastal ocean modelling
KW  - computational methods
KW  - hydrodynamic
KW  - modeling
KW  - sea level rise
KW  - mobile application
KW  - app
KW  - crowdsourcing
KW  - SCHISM
KW  - Tidewatch
KW  - StormSense
KW  - Catch the King
KW  - downstream blocking
KW  - compound flooding
KW  - coastal storm surge and inundation
KW  - explosive lateral flooding
KW  - hurricane inland and upland flooding
KW  - coastal modelling
KW  - operational forecasting
KW  - model evaluation
KW  - inter-comparison
KW  - NEMO
KW  - FVCOM
KW  - Ocean Protection Plan
KW  - turbidity current
KW  - suspended sediment
KW  - numerical model
KW  - Gulf of Mexico
KW  - cold front
KW  - Hurricane Barry
KW  - numerical simulation
KW  - subtidal hydrodynamics
KW  - multi-inlet
KW  - volume flux
KW  - multiscale
KW  - multiphysics
KW  - model coupling
KW  - data collection
KW  - machine learning
UR  - https://www.unicat.be/uniCat?func=search&query=sysid:134122072
AB  - This Special Issue includes papers on physical phenomena, such as wind-driven flows, coastal flooding, and turbidity currents, and modeling techniques, such as model comparison, model coupling, parallel computation, and domain decomposition. These papers illustrate the need for modeling coastal ocean flows with multiple physical processes at different scales. Additionally, these papers reflect the current status of such modeling of coastal ocean flows, and they present a roadmap with numerical methods, data collection, and artificial intelligence as future endeavors.
ER  -