# RepD3D: A tool for representative period identification and associated boundary condition extraction

**Authors:** Clayton Cyril Soares, Arne Knies, Christian Winter

PMC · DOI: 10.1016/j.mex.2024.103109 · MethodsX · 2024-12-13

## TL;DR

RepD3D is a Windows tool that helps modelers identify representative wind-driven periods and extract boundary conditions for simulations, especially in coastal and shallow water studies.

## Contribution

RepD3D introduces a selective-class correlation method for identifying wind-specific representative periods and automates boundary condition extraction for modeling.

## Key findings

- RepD3D uses wind-based unfiltered reduction to identify representative periods efficiently.
- The tool supports boundary condition extraction for Delft3D-4 models using data from EasyGSH and COSMO-REA6.
- Selective-class correlation allows users to focus on specific wind speed and direction classes.

## Abstract

Defining representative periods is a critical step for numerical modelers seeking to understand regional hydro- and morphodynamics in situations when long-term simulations are not feasible or future boundary conditions are unknown. However, identifying these periods and integrating the associated boundary conditions can be a time-intensive process. To address this, RepD3D has been developed as a Windows-based user interface, accompanied by open-source Python code, which helps users formulate and support modeling studies by employing a wind-based unfiltered reduction technique to identify representative periods. This tool is particularly beneficial for modelers investigating shallow-water wind-wave-driven processes or the influence of wind in their area of interest. For studies focusing on extreme events or specific wind directionality, RepD3D offers selective-class correlation, enabling users to identify representative periods for specific wind speed and direction classes. This approach avoids synthetic simulations and preserves the natural state within a simulation. Additionally, the application supports boundary condition extraction for user-defined models and conversion into Delft3D-4-compatible input files. RepD3D integrates water level and wave data from EasyGSH (1996–2016, German North Sea) and wind data from COSMO-REA6 (1995–2019, Europe), with its open-source design allowing for adaptation to other datasets.•RepD3D is a pre-compiled tool for Windows, designed to identify wind-based unfiltered and reduced representative periods and extract associated boundary conditions for modeling studies.•A modified version of the all-class correlation method, known as selective-class correlation, is introduced to identify representative periods specific to user-desired wind speeds and directions.•Boundary conditions for German North Sea (EasyGSH) and Europe (COSMO-REA6) are extracted and converted to DelftD3D-4-readable input files.

RepD3D is a pre-compiled tool for Windows, designed to identify wind-based unfiltered and reduced representative periods and extract associated boundary conditions for modeling studies.

A modified version of the all-class correlation method, known as selective-class correlation, is introduced to identify representative periods specific to user-desired wind speeds and directions.

Boundary conditions for German North Sea (EasyGSH) and Europe (COSMO-REA6) are extracted and converted to DelftD3D-4-readable input files.

Image, graphical abstract

## Full-text entities

- **Diseases:** EM (MESH:C538399)
- **Chemicals:** water (MESH:D014867), RepD3D. (-)

## Full text

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## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12255363/full.md

## References

19 references — full list in the complete paper: https://tomesphere.com/paper/PMC12255363/full.md

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Source: https://tomesphere.com/paper/PMC12255363