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ARCHIVED: (HS 10) Jupyter notebook for RHESSys modeling workflow using the THREDDS approach at Scotts Level Branch, MD
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This resource does not have an owner who is an active HydroShare user. Contact CUAHSI (help@cuahsi.org) for information on this resource. |
Type: | Resource | |
Storage: | The size of this resource is 102.8 KB | |
Created: | May 13, 2021 at 10:43 p.m. | |
Last updated: | Apr 09, 2024 at 7:05 a.m. | |
Citation: | See how to cite this resource |
Sharing Status: | Public |
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Views: | 1307 |
Downloads: | 26 |
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Abstract
ATTENTION: All 9 workflows for RHESSys modeling are now condensed to one. This resource is kept only for archiving purpose.
This HydroShare resource offers Jupyter Notebooks for the RHESSys modeling workflow, employing the THREDDS approach at Scotts Level Branch, MD. For instructions on running the Jupyter Notebooks, please refer to the provided README file within this resource.
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Content
Readme.md
How to run the Jupyter notebooks for RHESSys modeling workflows
This Readme file provides the users with the step-by-step guide to successfully run the three developed notebooks.
The steps, in the order they need to be taken, are explained in what follows.
STEP 0: Preliminary step
In this step the researchers make sure that they have access to the content files of the resource and required compute platform.
- In order to be able to run the three Jupyter notebooks, researchers need to first have a HydroShare account.
- If the researchers do not have access to CyberGIS-Jupyter for water (CJW), they need to submit an access request to CyberGIS-Jupyter for water.
- To run this notebook:
- Click the OpenWith button in the upper-right corner of this HydroShare resource webpage;
- Select "CyberGIS-Jupyter for water";
- Open the notebook and follow instructions;
STEP 1: Execute 'Step_1_Create_Model_Directory_Download_Raw_Data_and_Compile_RHESSys_EC7_2.ipynb' in CJW
In this step, first, users run the notebook to create model directory, downlaod raw RHESSys input, and compile RHESSysEC 7.2
STEP 2: Execute 'Step_2_Subset_DEM_NLCD_and_SSURGO_from_THREDDS.ipynb' in CJW
In this step, users run the notebook to subset DEM, land cover, and SSURO from THREDDS in HydroShare
STEP 3: Execute 'Step_3_Delineate_Watershed_and_Reclassify_NLCD_and_Soil_Map.ipynb' in CJW
In this step, users run the notebook to delineate DEM, extract land cover, and SSURGO map in Scott Level Branch.
STEP 4: Execute 'Step_4_Create_Landuse_Fraction_Definition_Flow_and_Worldfiles_Model_Input.ipynb' in CJW
In this step, users run the notebook to create land use fraction, definition, flow, and worldfiles for RHESSys input.
STEP 5: Execute 'Step_5_Create_Time_Series_Model_Input.ipynb' in CJW
In this step, first, users run the notebook to create RHESSys time-series input
STEP 6: Execute 'Step_6_Execute_RHESSys_as_Single_Run.ipynb' in CJW
In this step, users run the notebook to execute RHESSys
Related Resources
Title | Owners | Sharing Status | My Permission |
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COPY FOR ARCHIVING OLD RESOURCES: (HS 1) Toward Seamless Environmental Modeling: Integration of HydroShare with Server-side Methods for Exposing Large Datasets to Models | Iman Maghami | Private & Shareable | None |
How to Cite
This resource is shared under the Creative Commons Attribution CC BY.
http://creativecommons.org/licenses/by/4.0/
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