Tomas Beuzen
Tomas Beuzen
Solar Analytics
Dirección de correo verificada de - Página principal
Citado por
Citado por
Blind testing of shoreline evolution models
J Montaño, G Coco, JAA Antolínez, T Beuzen, KR Bryan, L Cagigal, ...
Scientific reports 10 (1), 2137, 2020
Laboratory investigation of the Bruun Rule and beach response to sea level rise
AL Atkinson, TE Baldock, F Birrien, DP Callaghan, P Nielsen, T Beuzen, ...
Coastal Engineering 136, 183-202, 2018
Bayesian Networks in coastal engineering: Distinguishing descriptive and predictive applications
T Beuzen, KD Splinter, LA Marshall, IL Turner, MD Harley, ML Palmsten
Coastal Engineering 135, 16-30, 2018
A comparison of methods for discretizing continuous variables in Bayesian Networks
T Beuzen, L Marshall, KD Splinter
Environmental modelling & software 108, 61-66, 2018
Controls of variability in berm and dune storm erosion
T Beuzen, MD Harley, KD Splinter, IL Turner
Journal of Geophysical Research: Earth Surface 124 (11), 2647-2665, 2019
Ensemble models from machine learning: an example of wave runup and coastal dune erosion
T Beuzen, EB Goldstein, KD Splinter
Natural Hazards and Earth System Sciences 19 (10), 2295-2309, 2019
Physical model study of beach profile evolution by sea level rise in the presence of seawalls
T Beuzen, IL Turner, CE Blenkinsopp, A Atkinson, F Flocard, TE Baldock
Coastal Engineering 136, 172-182, 2018
Performance of a dynamic cobble berm revetment for coastal protection, under increasing water level.
PM Bayle, CE Blenkinsopp, D Conley, G Masselink, T Beuzen, R Almar
Coastal Engineering 159, 103712, 2020
Machine learning and coastal processes
T Beuzen, K Splinter
Sandy beach morphodynamics, 689-710, 2020
pybeach: A Python package for extracting the location of dune toes on beach profile transects
T Beuzen
Journal of Open Source Software 4 (44), 1890, 2019
A new approach for scaling beach profile evolution and sediment transport rates in distorted laboratory models
PM Bayle, T Beuzen, CE Blenkinsopp, TE Baldock, IL Turner
Coastal Engineering 163, 103794, 2021
Labeling poststorm coastal imagery for machine learning: Measurement of interrater agreement
EB Goldstein, D Buscombe, ED Lazarus, SD Mohanty, SN Rafique, ...
Earth and Space Science 8 (9), e2021EA001896, 2021
High-resolution, large-scale laboratory measurements of a sandy beach and dynamic cobble berm revetment
CE Blenkinsopp, PM Bayle, DC Conley, G Masselink, E Gulson, I Kelly, ...
Scientific data 8 (1), 22, 2021
A variable selection package driving Netica with Python
T Beuzen, J Simmons
Environmental modelling & software 115, 1-5, 2019
Predicting storm erosion on sandy coastlines using a Bayesian network
T Beuzen, KD Splinter, IL Turner, MD Harley, L Marshall
Australasian Coasts & Ports 2017: Working with Nature: Working with Nature …, 2017
Blind testing of shoreline evolution models, Sci. Rep., 10, 2137
J Montaño, G Coco, JAA Antolínez, T Beuzen, KR Bryan, L Cagigal, ...
Estimating shoreline response in a changing wave climate
KD Splinter, MA Davidson, IL Turner, T Beuzen
Coastal Engineering Proceedings 1, 34-37, 2014
Beach profile changes under sea level rise in laboratory flume experiments at different scale
PM Bayle, T Beuzen, CE Blenkinsopp, TE Baldock, IL Turner
Journal of Coastal Research 95 (SI), 192-196, 2020
Dynamic coastal protection: Resilience of dynamic revetments (DYNAREV)
CE Blenkinsopp, PM Bayle, D Conley, G Masselink, E Gulson, I Kelly, ...
Hydralab+ joint user meeting, 129-139, 2019
Python Packages
T Beuzen, T Timbers
Chapman and Hall/CRC, 2022
El sistema no puede realizar la operación en estos momentos. Inténtalo de nuevo más tarde.
Artículos 1–20