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HydroLang: An open-source web-based programming framework for hydrological sciences

  • This paper introduces HydroLang, an open-source and integrated community-driven computational web framework for hydrology and water resources research and education. HydroLang employs client-side web technologies and standards to carry out various routines aimed at acquiring, managing, transforming, analyzing, and visualizing hydrological datasets. HydroLang consists of four major high-cohesion low-coupling modules: (1) retrieving, manipulating, and transforming raw hydrological data, (2) statistical operations, hydrological analysis, and model creation, (3) generating graphical and tabular data representations, and (4) mapping and geospatial data visualization. To demonstrate the framework's capabilities, portability, and interoperability, two detailed case studies (assessment of lumped models and construction of a rainfall disaggregation model) have been presented. HydroLang's unique modular architecture and open-source nature allow it to be easily tailored into any use case and web framework, and it encourages iterativeThis paper introduces HydroLang, an open-source and integrated community-driven computational web framework for hydrology and water resources research and education. HydroLang employs client-side web technologies and standards to carry out various routines aimed at acquiring, managing, transforming, analyzing, and visualizing hydrological datasets. HydroLang consists of four major high-cohesion low-coupling modules: (1) retrieving, manipulating, and transforming raw hydrological data, (2) statistical operations, hydrological analysis, and model creation, (3) generating graphical and tabular data representations, and (4) mapping and geospatial data visualization. To demonstrate the framework's capabilities, portability, and interoperability, two detailed case studies (assessment of lumped models and construction of a rainfall disaggregation model) have been presented. HydroLang's unique modular architecture and open-source nature allow it to be easily tailored into any use case and web framework, and it encourages iterative enhancements with community involvement to establish the comprehensive next-generation hydrological software toolkit.show moreshow less

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Metadaten
Author: Carlos RamirezORCiD, Yusuf SermetORCiD, Frank Molkenthin, Ibrahim DemirORCiD
URL:https://www.sciencedirect.com/science/article/abs/pii/S1364815222002250?via%3Dihub
DOI:https://doi.org/10.1016/j.envsoft.2022.105525
ISSN:1364-8152
Title of the source (English):Environmental Modelling & Software
Document Type:Scientific journal article peer-reviewed
Language:English
Year of publication:2022
Volume/Year:157
First Page:1
Last Page:13
Article number:105525
Faculty/Chair:Fakultät 2 Umwelt und Naturwissenschaften / FG Hydrologie
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