Conflict resolution in the multi-stakeholder stepped spillway design under uncertainty by machine learning techniques
Author:
Publisher
Elsevier BV
Subject
Software
Reference81 articles.
1. Cavitation potential of flow on stepped spillways;Frizell;J. Hydraul. Eng.,2012
2. Prediction of energy dissipation of flow over stepped spillways using data-driven models;Parsaie;Iran. J. Sci. Technol. Trans. Civ. Eng.,2018
3. Fuzzy multi-objective simulation–optimization of stepped spillways considering flood uncertainty;Mooselu;Water Resour. Manag.,2019
4. Potential of Meyer-Peter and Müller approach for estimation of bed-load sediment transport under different hydraulic regimes;Kuriqi;Model. Earth Syst. Environ.,2020
5. Flood susceptibility modelling using advanced ensemble machine learning models;Islam;Geosci. Front.,2021
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