Wind-Topo_model

Wind-Topo is a statistical downscaling model for near surface wind fields especially suited for highly complex terrain.

It is based on deep learning and was trained (calibrated) using the hourly wind speed and direction from 261 automatic measurement stations (IMIS and SwissMetNet) located in Switzerland. The periods 1st October 2015 to 1st October 2016 and 1st October 2017 to 1st October 2018 were used for training. The model was validated using 60 other stations on the period 1st October 2016 to 1st October 2017. Wind-Topo was trained using COSMO-1 data and a 53-meter Digital Elevation Model as input.

This dataset provides all the necessary code to understand, use and incorporate Wind-Topo in a new downscaling scheme. Specifically, the dataset contains the architecture of Wind-Topo and its optimized parameters, as well as a python script to downscale uniform wind fields with a prescribed vertical profile for any given 53-meter DEM.

Accompanies the publication "Wind-Topo: Downscaling near-surface wind fields to high-resolution topography in highly complex terrain with deep learning" Dujardin and Lehning, Quarterly Journal of the Royal Meteorological Society, 2022. https://doi.org/10.1002/qj.4265 Please cite this publication if you use Wind-Topo or derive new models from it. The code can be used under the GNU Affero General Public License (AGPL).

Funding Information:

This work was supported by:
  • SNF
  • SFOE
  • Innosuisse

Related Datasets

  • Wind-Topo is an ongoing development. New versions can be found at: https://gitlabext.wsl.ch/dujardin/wind-topo

  • The model and its performance are described in: "Wind-Topo: Downscaling near-surface wind fields to high-resolution topography in highly complex terrain with deep learning" Dujardin and Lehning, Quarterly Journal of the Royal Meteorological Society, 2022. https://doi.org/10.1002/qj.4265 Please cite this publication if you use Wind-Topo or derive new models from it.

Related Publications

  • "Wind-Topo: Downscaling near-surface wind fields to high-resolution topography in highly complex terrain with deep learning" Dujardin and Lehning, Quarterly Journal of the Royal Meteorological Society, 2022. https://doi.org/10.1002/qj.4265

Citation:

Dujardin, Jérôme; Lehning, Michael (2022). Wind-Topo_model. EnviDat. doi:10.16904/envidat.301.

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Data and Resources

Metadata

Field Values
DOI 10.16904/envidat.301
Publication State Published
Authors
  • Email: jerome.dujardinfoo(at)slf.ch ORCID: 0000-0001-5404-7734 Given Name: Jérôme Family Name: Dujardin Affiliation: CRYOS, ENAC, EPFL Additional Affiliation : SLF / WSL DataCRediT: Collection, Validation, Curation, Software, Publication, Supervision
  • Email: lehningfoo(at)slf.ch ORCID: 0000-0002-8442-0875 Given Name: Michael Family Name: Lehning Affiliation: CRYOS, ENAC, EPFL Additional Affiliation : SLF / WSL Additional Affiliation : EPFL DataCRediT: Publication, Supervision
Contact Person Given Name: Jérôme Family Name: Dujardin Email: jerome.dujardinfoo(at)slf.ch Affiliation: CRYOS, ENAC, EPFL ORCID: 0000-0001-5404-7734
Subtitles
Publication Publisher: EnviDat Year: 2022
Dates
  • Type: Created Date: 2022-03-14
Version 0.1.0
Type software
General Type Software
Language English
Location Switzerland
Content License Other (Specified in the description)
Last Updated March 16, 2022, 15:21 (UTC)
Created January 7, 2022, 11:24 (UTC)