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An interactive simulation and visualization tool for flood analysis usable for practitioners.

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Summary
This summary is machine-generated.

This study introduces an accessible analytical tool for flood management, enabling practitioners and experts to collaborate on simulations. The system enhances decision-making for climate change adaptation and sustainable flood mitigation strategies.

Keywords:
Decision-makingFloodLarge-scale renderingVisualization

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Area of Science:

  • Environmental Science
  • Computer Science
  • Urban Planning

Background:

  • Climate change exacerbates urban flood risks due to rising sea levels and altered precipitation.
  • Existing analytical tools for flood risk assessment are complex and inaccessible to practitioners.
  • Effective flood mitigation and adaptation strategies require better collaboration between domain experts and practitioners.

Purpose of the Study:

  • To develop an accessible analytical tool for flood management simulations.
  • To bridge the gap between domain experts and practitioners in flood risk assessment.
  • To support collaborative decision-making for sustainable flood mitigation and adaptation.

Main Methods:

  • Development of novel algorithms for interactive flood data visualization and simulation control.
  • Integration of realistic visualizations to aid practitioners in mapping simulation results to real-world scenarios.
  • User study to evaluate practitioner acceptance and interaction with the developed system.

Main Results:

  • The developed system makes complex flood simulation processes accessible to practitioners.
  • Interactive control and realistic visualization facilitate better understanding and trust in simulation outcomes.
  • Practitioners can effectively collaborate with domain experts in interactive flood simulation sessions.

Conclusions:

  • The system significantly enhances accessibility of flood management tools for practitioners.
  • Improved collaboration through the tool can lead to more informed and sustainable flood mitigation and adaptation strategies.
  • This work has the potential to transform decision-making processes in urban flood risk management.