| Date | Presenter(s) | Title | Total Youtube views | Annual average Youtube views |
|---|
| 2025/05/07 | Penuela Fernandez, Andres |
Demystifying Modelling: an Interactive, Educational and Exploratory Approach | 23 | {{{9}}} |
| 2025/04/15 | Martin, Jo |
How to Use Convolutional Neural Networks (CNN) for Spatial Data | 48 | {{{9}}} |
| 2025/02/13 | Shapero, Daniel |
Docker, or, What to do When Software Has Betrayed You | 40 | {{{9}}} |
| 2024/11/13 | Zellner, Moira & Anarde, Katherine |
CSDMS Human Dimensions Group – Virtual Coffee Hour | 56 | {{{9}}} |
| 2024/11/07 | Pfeiffer, Allison |
Migrating stripes and pulses that race to oblivion: Exploring gravel bed river morphodynamics with the Landlab NetworkSedimentTransporter | 61 | {{{9}}} |
| 2024/09/17 | 2024 Cohort, ESPIn Students |
Earth Surface Processes Institute Student Project Presentations | 42 | {{{9}}} |
| 2024/04/29 | Vanderbauwhede, Wim |
Frugal computing: On the need for low carbon and sustainable computing | 94 | {{{9}}} |
| 2024/04/16 | Salles, Tristan |
Landscape dynamics dictate the evolution of biodiversity on Earth | 122 | {{{9}}} |
| 2024/03/26 | Piper, Mark |
What can CSDMS do for you? An overview of CSDMS Products and Services | | {{{9}}} |
| 2024/02/19 | Byrne, James & Smith, Jonathan |
Developing AI and research pipelines for operational use: towards
Digital Twins | 214 | {{{9}}} |
| 2023/12/06 | Jouvet, Guillaume |
IGM, a data assimilation and glacier evolution model boosted by deep-learning | 146 | {{{9}}} |
| 2023/11/14 | Shapero, Dan |
Modeling the Flow of Glaciers and Ice Sheets with icepack | 124 | {{{9}}} |
| 2023/10/05 | Blair, Gordon |
Digital Twins of the Natural Environment: Achieving a Synergy of Process and Data Understanding | 129 | {{{9}}} |
| 2023/09/13 | CSDMS, Student Modelers & Neuharth, Derek & Xie, Danghan |
CSDMS Student Modelers (Runners Up) | 140 | {{{9}}} |
| 2023/04/18 | Vanzo, Davide |
BASEMENT: a not-so-basic simulation environment for river process modelling | 1,318 | {{{9}}} |
| 2023/03/08 | Willis, Craig & Ludaescher, Bertram |
Publishing Transparent and Reproducible Computational Research with Whole Tale | 97 | {{{9}}} |
| 2022/11/17 | Buscombe, Dan & Goldstein, Evan |
Machine Learning - Part 2 | 140 | {{{9}}} |
| 2022/11/10 | Buscombe, Dan & Goldstein, Evan |
Machine Learning - Part 1 | 234 | {{{9}}} |
| 2022/11/08 | Shmilovich, Yuval |
Modeling long-term arid cliffs and sub-cliff slopes evolution under short-duration extreme rainstorm events | 94 | {{{9}}} |
| 2022/09/22 | Hut, Rolf |
Removing the Headache of Running and Coupling Hydrological Models by using the eWaterCycle Platform Built on BMI | 80 | {{{9}}} |
| 2022/08/24 | Xue, Z. George |
Assess Water and Mass Exchange at Land-Estuary-Ocean Continuum using a Regional Earth System Modeling Platform | | {{{9}}} |
| 2022/04/26 | Maxwell, Reed & Condon, Laura |
Adventures in developing community modeling platforms: HydroFrame and HydroGEN, two names that are too close to HydroShare | 184 | {{{9}}} |
| 2022/04/19 | Stoica, Maria |
A Simple Introduction to the Scientific Variables Ontology | 59 | {{{9}}} |
| 2022/02/03 | Barnhart, Katherine |
Towards Post-fire Debris Flow Inundation Hazard Assessments | 172 | {{{9}}} |
| 2022/01/27 | Levermann, Anders |
Projecting Antarctica's contribution to future sea level rise: From decades to millennia | 304 | {{{9}}} |
| 2021/12/02 | Syvitski, Jaia |
Earth's Sediment Cycle during the Anthropocene | 932 | {{{9}}} |
| 2021/11/30 | Campforts, Benjamin |
Shuffling Landscapes: the Impact of Landslides on Topographical Evolution through a Modeler’s Lens | 202 | {{{9}}} |
| 2021/11/12 | Gan, Tian & Piper, Mark |
CSDMS Data Components | 61 | {{{9}}} |
| 2021/10/29 | Student presentations, - |
ESPIn Student Project Presentations | 129 | {{{9}}} |
| 2021/09/17 | Tucker, Greg |
Modeling Earth’s Surface with Landlab 2.0 | 857 | {{{9}}} |
| 2021/05/06 | Lamprecht, Anna-Lena & Capella-Gutierrez, Salvador |
FAIR & Research Software | 58 | {{{9}}} |
| 2021/04/27 | Barton, Michael |
The Open Modeling Foundation Initiative: an International Partnership for Next Generation Modeling of Human and Earth Systems | 56 | {{{9}}} |
| 2021/03/16 | Zhang, Yu |
Coastal Wetland Hydrology under Climate Change: Dynamics, Consequences, and Eco-morphologic Feedback | 138 | {{{9}}} |
| 2021/01/21 | Barnhart, Katy |
Testing surface process models with numerical experiments: examples from landscape evolution and debris flow inundation | 103 | {{{9}}} |
| 2021/01/20 | Buiter, Suzanne |
How coupled tectonics and surface processes shape extensional plat boundaries | 232 | {{{9}}} |
| 2021/01/19 | Gasparini, Nicole & Tucker, Greg |
Cyberinfrastructure for modeling surface processes across scales | 131 | {{{9}}} |
| 2020/11/12 | Markstrom, Steve & McDonald, Rich |
USGS National Hydrologic Model: Continental Scale Modeling for Decision-making, Research, and Education | 138 | {{{9}}} |
| 2020/11/11 | Student Presentations, - |
Earth Surface Processes Summer Institute (ESPIn) Student Presentations | 231 | {{{9}}} |
| 2020/07/28 | Ahrendt, Shelby |
CSDMS Summer Science Series III: River morphology and flood risk in the Pacific Northwest, US | 123 | {{{9}}} |
| 2020/07/28 | Vulis, Lawrence |
CSDMS Summer Science Series III: On the Distribution of Lake Sizes in Arctic Deltas | 78 | {{{9}}} |
| 2020/07/28 | Singh, Arvind |
CSDMS Summer Science Series III: On the structural and functional complexity of river networks | 60 | {{{9}}} |
| 2020/07/28 | Kim, Daniel & Gasparini, Nicole & Sklar, Leonard & Willenbring, Jane & Harrison, Emma |
CSDMS Summer Science Series III: Understanding the conversion of rock to regolith using numerical modeling in the Critical Zone of the Luquillo Mountains, Puerto Rico | 50 | {{{9}}} |
| 2020/07/28 | Roth, Danica |
CSDMS Summer Science Series III: Wildfire and surface roughness | 146 | {{{9}}} |
| 2020/07/28 | Del Vecchio, Joanmarie |
CSDMS Summer Science Series III: Topographic signatures of permafrost processes | 72 | {{{9}}} |
| 2020/07/28 | Gabel, Vanessa |
CSDMS Summer Science Series III: Incision across a lithologic boundary: An example from the Central Rocky Mountains and High Plains | 41 | {{{9}}} |
| 2020/07/14 | Ding, Junyan |
CSDMS Summer Science Series II: Understanding Plant Hydraulic Strategy of Conifer Forest and the Impact on Ecosystem Processes at Southern Sierra CZ2 California | 93 | {{{9}}} |
| 2020/07/14 | Zhu, Qingguang |
CSDMS Summer Science Series II: Quantifying seasonal seagrass effects on flow and sediment dynamics in a back-barrier bay | 147 | {{{9}}} |
| 2020/07/14 | Campforts, Benjamin |
CSDMS Summer Science Series II: To slide or not to slide: Explicit integration of landslides and sediment dynamics in a landscape evolution model | 130 | {{{9}}} |
| 2020/07/14 | Bruckner, Muriel |
CSDMS Summer Science Series II: Modelling of interactions between bioturbation and mud distribution reveals effects on large-scale estuarine morphology | 117 | {{{9}}} |
| 2020/07/14 | Cortes, Isamar & Lorenzo-Trueba, Jorge & Twilley, Robert & Rovai, Andre & Chopping, Mark |
CSDMS Summer Science Series II: Quantifying the Role of increasing Net Evaporation rates on Mangrove Island Vegetation in the Caribbean | 95 | {{{9}}} |
| 2020/07/14 | Best, Uwe |
CSDMS Summer Science Series II: Mangrove interaction with tidal flow, waves & long term sedimentation: mechanisms governing adaptation | 127 | {{{9}}} |
| 2020/07/14 | Wang, Pei-Ling |
CSDMS Summer Science Series II: Quantifying Land-Use Impacts on SOC, Soil Texture, and Bulk Density for Earth System Modeling | 58 | {{{9}}} |
| 2020/07/14 | Vernon, Chris |
CSDMS Summer Science Series II: GCAM and Demeter: A global, integrated human-Earth systems perspective to modeling land projections | 168 | {{{9}}} |
| 2020/06/30 | Xu, Kevin |
CSDMS Summer Science Series I: Shelf Sediment Transport during Hurricanes Katrina and Rita | 38 | {{{9}}} |
| 2020/06/30 | Jenkins, Chris |
CSDMS Summer Science Series I: Man-made Objects including old Bombs move around at the Seafloor during Extreme Storms: Modeling Results | 38 | {{{9}}} |
| 2020/06/30 | Moriarty, Julia |
CSDMS Summer Science Series I: Variability in Marsh-Estuarine Sediment Exchanges in Back-Barrier Systems: Barnegat Bay, New Jersey | 58 | {{{9}}} |
| 2020/06/30 | Li, Zhi |
CSDMS Summer Science Series I: pyRiverBed: A Python framework to generate synthetic riverbed topography for constant-width meandering rivers | 515 | {{{9}}} |
| 2020/06/30 | Nienhuis, Jaap |
CSDMS Summer Science Series I: Global morphodynamic response of deltas to sea-level rise in the 21st century | 184 | {{{9}}} |
| 2020/06/30 | Jones, Brandon |
CSDMS Summer Science Series I: Challenges and Opportunities for Increasing Participation of Underrepresented Groups in the Geosciences | 56 | {{{9}}} |
| 2020/06/03 | Rossi, Matt |
Introduction to pyNetLogo; example of a coupled model of tree growth, rock weathering, and soil transport | 110 | {{{9}}} |
| 2020/06/03 | Tucker, Greg |
Introduction to Landlab; example of coupled model built with Landlab + Mesa (sheep-wolves-grass + soil erosion and transport | 132 | {{{9}}} |
| 2020/04/14 | Campforts, Benjamin & Piper, Mark |
Level Up! Your Scientific Coding: Object-Oriented Programming | 188 | {{{9}}} |
| 2020/04/07 | Upton, Phaedra & Tucker, Greg |
Geodynamicist and Geomorphologist introduced to structural geologist + CSDMS | 228 | {{{9}}} |
| 2020/03/17 | Piper, Mark & Campforts, Benjamin |
Level Up! Your Scientific Coding: Unit Testing | 134 | {{{9}}} |
| 2020/02/18 | Piper, Mark & Campforts, Benjamin |
Level Up! Your Scientific Coding: Version Control with Git and GitHub | 117 | {{{9}}} |
| 2019/11/18 | Harris, Courtney & Sherwood, Chris & Tarpley, Danielle & Aretxabaleta, Alfredo |
Cohesive and mixed sediment-transport processes in ROMS | 139 | {{{9}}} |
| 2019/11/14 | Buscombe, Dan |
Continuous Streamflow and Nearshore Wave Monitoring from Time-lapse Cameras using Deep Neural Networks | 189 | {{{9}}} |
| 2019/10/14 | Caers, Jeff |
Bayesian Evidential Learning: a protocol for uncertainty quantification in Earth systems | 131 | {{{9}}} |
| 2019/09/30 | Gasparini, Nicole & West, Nicole & Singha, Kamini & Sullivan, Pamela & Li, Li |
Building capacity to deepen the critical zone: expanding boundaries and exploring gradients through data-model synergy | 83 | {{{9}}} |
| 2019/05/07 | LeVeque, Randy |
The GeoClaw software and tsunami modeling | 2,423 | {{{9}}} |
| 2019/04/24 | Hsu, Leslie & Gasparini, Nicole |
Do I have to make my models FAIR? Current practices in making models and data Findable, Accessible, Interoperable, and Reusable | 64 | {{{9}}} |
| 2019/03/20 | Hutton, Eric |
The CSDMS Python Modeling Toolkit (PyMT) | 213 | {{{9}}} |
| 2018/11/12 | Piper, Mark |
CSDMS Basic Model Interface (BMI) | 429 | {{{9}}} |
| 2018/10/09 | Overeem, Irina |
Using CSDMS in the Classroom | 164 | {{{9}}} |
| 2018/09/14 | Tucker, Greg |
Landlab Toolkit overview | 2,916 | {{{9}}} |
