Property:Additional comments model

From CSDMS

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Showing 50 pages using this property.
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More will be filled out soon (10/18/2010)  +
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More will be filled out soon (10/18/2010)  +
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Most recent model available from ah6p@virginia.edu.  +
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NOTICE: REGISTRATION IS NEEDED TO RECEIVE THE SOURCE CODE: http://adcirc.org/  +
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NOTICE: REGISTRATION IS NEEDED TO RECEIVE THE SOURCE CODE: http://chinacat.coastal.udel.edu/programs/funwave/funwave.html  +
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NOTICE: REGISTRATION IS NEEDED TO RECEIVE THE SOURCE CODE: http://www.hydro.washington.edu/Lettenmaier/Models/DHSVM/index.shtml  +
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NOTICE: REGISTRATION IS NEEDED TO RECEIVE THE SOURCE CODE, SEND THE OWNER A LETTER THAT YOU ARE INTERESTED IN THE SOURCE CODE: http://www.cesm.ucar.edu/models/ccsm4.0/  +
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NOTICE: code is free available through CCSM UCAR website: http://www.ccsm.ucar.edu/models/atm-cam/ No need to register  +
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No  +
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None  +
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Notice: Code is freely available through the following site: http://mitgcm.org/ No need to register  +
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Notice: SWAN can be freely downloaded from the next site: https://sourceforge.net/projects/swanmodel/files/swan/ No registration is needed.  +
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Particulates model is regression-based, while dissolved model is more conceptual-mechanistic. Conceptual framework and data sets in development since 2002. Integrated modeling code framework (GNE) developed in 2007; currently tested on Windows only, but can be easily adapted to other platforms.  +
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Please send any questions or comments to mark.piper@colorado.edu or csdmssupport@colorado.edu.  +
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Questionnaire is filled out by Albert Kettner  +
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Questions which arise about the module, the model it implements, and the associated theory, may be addressed by the preprint available at https://arxiv.org/abs/1801.02810.  +
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RCPWAVE is distributed as a component of the Coastal Engineering Design and Analysis System (CEDAS). http://chl.erdc.usace.army.mil/cedas  +
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Requirements To run these codes, you will need the following software: • Python 2.7 or earlier (not compatible with Python 3) The following Python packages are also required: • matplotlib • scipy • numpy • cPickle • osgeo • fiona • shapely • utilities • sklearn • seaborn • clusterpy • itertools • pandas • pysal • collections What input is required? To run this code, the following shape files are required: • network shapefile, containing the river network extracted from satellite imagery • island shapefile, containing the land masses or islands of the delta • patch shapefile, containing the outline of channels What does the code do? The file all.ipynb contains codes run the analysis. From start to finish, the Jupyter Notebook contains code blocks that: • loads in the shapefiles • calculate the parameters for the network that both surround and drain the islands • calculate the base metrics (e.g. perimeter, area, solidity, aspect ratio...) • calculates maximum distance from the island center to the nearest water body • estimates minimum, average and maximum widths of all network channels • evaluates the fractal dimension of each delta island • creates shapefiles based on the metrics calculated earlier in the code • saves all metrics to an output file • generates PCA and GeoSOM results from the island and channel metrics • plots the U-matrix and dendrogram based on the GeoSOM results  +
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Run this model via MATLAB  +
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SBEACH is distributed as a component of the Coastal Engineering Design and Analysis System (CEDAS).  +
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See ReadMe.md at https://github.com/nathandbrown/LuSS for more details.  +
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See also: https://models.slf.ch/docserver/snowpack/html/  +
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See model description, validation and analysis in: Haney, N., Cohen, S. (2015), Predicting 21st century global agricultural land use with a spatially and temporally explicit regression-based model. Applied Geography, 62: 366-376. http://sdml.ua.edu/publications/  +
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See users manual and publication: Brown, RA, Pasternack, GB, Wallender, WW. 2013. Synthetic River Valleys: Creating Prescribed Topography for Form-Process Inquiry and River Rehabilitation Design. Geomorphology 214: 40–55. http://dx.doi.org/10.1016/j.geomorph.2014.02.025  +
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See: Version 2.0: Cohen et al. (2019), The Floodwater Depth Estimation Tool (FwDET v2.0) for Improved Remote Sensing Analysis of Coastal Flooding. Natural Hazards and Earth System Sciences (NHESS) Version 1.0: Cohen, S., G. R. Brakenridge, A. Kettner, B. Bates, J. Nelson, R. McDonald, Y. Huang, D. Munasinghe, and J. Zhang (2017), Estimating Floodwater Depths from Flood Inundation Maps and Topography. Journal of the American Water Resources Association (JAWRA):1–12.  +
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TRAINING Watershed Systems Modeling I (SW2008TC), offered annually at the USGS National Training Center. Watershed Systems Modeling II (SW3018TC), offered upon request at the USGS National Training Center.  +
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The CoastMorpho2D model encompasses the MarshMorpho2D v2.0 (https://csdms.colorado.edu/wiki/Model:MarshMorpho2D) but includes many other coastal processes  +
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The Early earth haze microphysical code is working, incorporating fractal particle structures. Development is needed on linking microphysics to RT. NOTICE: REGISTRATION IS NEEDED TO RECEIVE THE SOURCE CODE. SEND THE OWNER A LETTER THAT YOU ARE INTERESTED IN THE SOURCE CODE. http://www.cesm.ucar.edu/working_groups/WACCM/  +
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The code is freely available and can be applied or modified as preferred. People are asked to cite the following paper: Bogoni et al., WRR 2017. DOI: 10.1002/2017WR020726. or, alternatively, the model DOI  +
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The computation routines can be accessed from different interfaces: a console program for batch-processing data from The computation routines can be accessed from different interfaces: a console program for batch-processing data from file or for interactively entering data, a graphic user interface for Microsoft Windows (especially useful for teaching or exploring the model), a Matlab MEX function to call Sedtrans05 directly from Matlab. The FORTRAN77 routines can also easily called from other programs.  +
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The documentation about ROMS can be found in WikiROMS: https://www.myroms.org/wiki There is a very active ROMS user's forum: https://www.myroms.org/forum NOTICE: REGISTRATION IS NEEDED TO RECEIVE THE SOURCE CODE: https://www.myroms.org/index.php?page=login  +
The documentation about ROMS can be found in WikiROMS: https://www.myroms.org/wiki There is a very active ROMS user's forum: https://www.myroms.org/forum NOTICE: REGISTRATION IS NEEDED TO RECEIVE THE SOURCE CODE: https://www.myroms.org/index.php?page=login  +
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The documentation about ROMS can be found in WikiROMS: https://www.myroms.org/wiki There is a very active ROMS user's forum: https://www.myroms.org/forum NOTICE: REGISTRATION IS NEEDED TO RECEIVE THE SOURCE CODE: https://www.myroms.org/index.php?page=login  +
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The documentation about ROMS can be found in WikiROMS: https://www.myroms.org/wiki There is a very active ROMS user's forum: https://www.myroms.org/forum NOTICE: REGISTRATION IS NEEDED TO RECEIVE THE SOURCE CODE: https://www.myroms.org/index.php?page=login  +
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The model description paper is submitted to Geoscientific Model Development, which can be downloaded from the link: https://doi.org/10.5194/gmd-2017-101  +
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This entry, with the name 'Coastline Evolution Model' should replace the 'Murray model' currently listed. Thanks Albert!  +
This form is fill out by Albert Kettner  +
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This form is filled out by Albert Kettner, based on the SPARROW website  +
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This information is captured from the web and incorporated here by Albert Kettner  +
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This model is actively under development as of the spring of 2009.  +
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This model is not users' friendly. I would welcome anyone to collaborate with me to develop interface to make this model users's friendly. The unique of this model is # every module was developed based physics-based conservation principles of fluid, momentum, enery, and mass; # rigious coupling processes between media to internalize fluxes across media boundaries, # general paradigm to model water quality based on reactive biogeochemistry, # many numerical options were implemented. I have already posted the technical report. For those who are interested in "true" physics-based watershed models, please read the report and I hope you like it.  +
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This model is unlikely to become available in any form other than snapshots of output. It is provided for reference.  +
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This model supports the article Malatesta, L. C., J. P. Prancevic, and J.-P. Avouac (2017), Autogenic entrenchment patterns and terraces due to coupling with lateral erosion in incising alluvial channels, J. Geophys. Res. Earth Surf., 122, 335–355, doi:10.1002/2015JF003797.  +
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This model was initially published as Shobe et al in Geophysical Research Letters, May 2016: http://onlinelibrary.wiley.com/doi/10.1002/2016GL069262/abstract Other publications are in preparation.  +
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This module is interfaced via the Coastal Engineering Design and Analysis System (CEDAS) interface.  +
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This project was funded by NSF-CCLI program. The purpose was primarily for education.  +
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This questionnaire is filled out by Albert Kettner, based on the TOPOG website  +
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To learn how to use the NWM data component, please try with the Jupyter Notebook tutorial at https://csdms.colorado.edu/wiki/Lab-0018  +
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To learn how to use the SoilGrids data component, please try with the CSDMS EKT Lab (including the Jupyter Notebook tutorial) at https://csdms.colorado.edu/wiki/Lab-0019  +
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To run RHESSys successfully, the user will need to invest quite a bit of time gathering both spatial and observed data, which may require additional work to format the data correctly. A sample dataset can be downloaded with tutorials to familiarize users with the data and formats required in order to run RHESSys.  +