The Hydrological Modelling Class: The lab
Go to:
- Introduction
- Software Used
- The Foreseen Schedule
- The lab (you are already here)
- The Webinars
- Installations (Vimeo 2021)
- Some issue resolved during the class (2021-02-25)
- The Horton Machine 0.10 can be downloaded here.
- Test case
- A video (2021) that explains quickly what to download and address to the proper contents.
- Using the Horton Machine toolbox, Part I
- DEM data
- Python Notebook to visualize basins. Warning it requires some libraries like rasterio that are not at present inserted in the geoframe_rossano environment.
- Where are my data ? (Zoom2020, PDF)
- A little about GIS
- Brief introduction to GIS (Zoom2020 , Vimeo2021, PDF)
- Raster in QGIS (Vimeo2021)
- How to create a shapefile with QGIS (Vimeo2021)
- Files etc
- Old material
- QGIS (Zoom2020 Part I, Zoom2020 Part II, PDF)
- Material for QGIS (QGIS_introduction.zip)
- Extra notes on GIS not addressed in class( PDF I, PDF II
- Time series
- Debate on data ( Zoom2020)
- Handle time series (Zoom2020)
- Material on time series (TimeSeries.zip)
- Discharge notebook
- Storyboard of the class
- Introduction to the Object Modelling System (The manual chapter here, YouTube 2019,YouTube2020, Vimeo 2021)
- The Working Environment (The manual chapter here, YouTube 2019,YouTube2020, Vimeo 2021)
- The .sim files (The manual chapter here, YouTube 2019,YouTube2020, Vimeo 2021)
- The main features of the Console (YouTube2020, Vimeo 2021)
- Further examples and details
- can be found at the Winter School 2021 pages (in English) with videos.
- The larger DEM containing the Nera Catchment
- The Hydrometric stations shapefiles
- Elaborations on the Nera Catchment (Vimeo 2021 – part I, part II)
- The Nera Project by Shima Azimi (This is the OMS3 project generated by Shima. You can generate your project by simply copying it and cleaning from the various specific files. The great of this is that you can redistribute executable, data, outputs and the scripts that drive the simulations all together to everybody with almost no effort)
- The Jupyter Notebook for creating the .sim file in the appropriate folders (Vimeo 2021)
- Running the Nera Example (Vimeo2021)
- Explanation of the graph.sim file (Vimeo2021)
- Same topic, more detailed but on a different catchment from the GWS2021 (VimeoGWS2021)
- Another view of the Net3 graph (for sending in parallel various simulations with the Prospero ET model)
- Explanation of the contents of a single .sim of ERM (Vimeo2021)
- The Rainfall-Runoff GWS page
- Data for the class (the zip file contains data and Jupyter Notebooks)
- What is in the Jupyter Notebooks (Vimeo2021)
- The OMS3 csv file (Vimeo2021)
- Creation of an OMS3 csv file with Python (Vimeo2021)
- Getting the data (from Meteo Trentino) and checking the data integrity (Vimeo2021)
- Getting the data (from Ufficio Idrografico di Bolzano). Just the Notebooks here.
- Other data for the class and even other data (the zip file contains data and Jupyter Notebooks)
- Checking the data from the hydrological point of view (Vimeo2021)
- The Normal Score (Vimeo 2021)
- The Example (alternative download of the data) (Vimeo2021)
- Again on Kriging (Vimeo2021)
- Leave One Out (Vimeo2021)
- The estimation of Radiation (Vimeo2021)
- The estimation of Evapotranspiration (Vimeo2021)
- How to create the sim files for the ERM simulations using the distributed environment Net3 (Vimeo2021)
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