HYDROINFORMATICSÂ for sustainable & secure water resources
OBJECTIVES
Improve understanding of the complexities in urban water systems
Develop state of the art methods to highlight variability, uncertainty & risk
Create tools & design to manage risks & make systems resilient to threats
METHODS
Use holistic, systems-based & sustainable approach to water resources:
- Numerical modelling
- Uncertainty assessment
- Extreme events & risk analysis
- Infrastructure design
- Decision-making tools
- Influence policy
KEYWORDS
urban hydrology, hydroinformatics, data-driven modelling, uncertainty analysis, risk assessment, floods, water quality, stormwater management, low impact development, artificial neural networks, fuzzy set theory
