Assessment of water resources system resilience under hazardous events using system dynamic approach and artificial neural networks. Issue 2 (21st January 2023)
- Record Type:
- Journal Article
- Title:
- Assessment of water resources system resilience under hazardous events using system dynamic approach and artificial neural networks. Issue 2 (21st January 2023)
- Main Title:
- Assessment of water resources system resilience under hazardous events using system dynamic approach and artificial neural networks
- Authors:
- Stojković, Milan
Marjanović, Dusan
Rakić, Dragan
Ivetić, Damjan
Simić, Višnja
Milivojević, Nikola
Trajković, Slaviša - Abstract:
- Abstract: The objective of this research is to propose a novel framework for assessing the consequences of hazardous events on a water resources system using dynamic resilience. Two types of hazardous events were considered: a severe flood event and an earthquake. Given that one or both hazards have occurred and considering the intensity of those events, the main characteristics of flood dynamic resilience were evaluated. The framework utilizes an artificial neural network (ANN) to estimate dynamic resilience. The ANN was trained using a large, generated dataset that included a wide range of situations, from relatively mild hazards to severe ones. A case study was performed on the Pirot water system (Serbia). Dynamic resilience was derived from the developed system dynamics model alongside the hazardous models implemented. The most extreme hazard combination results in the robustness of 0.04, indicating a combination of an earthquake with a significant magnitude and a flood hydrograph with a low frequency of occurrence. In the case of moderate hazards, the system robustness has a median value of 0.2 and a rapidity median value of 162 h. The ANN's efficacy was quantified using the average relative error metric which equals 2.14% and 1.77% for robustness and rapidity, respectively. HIGHLIGHTS: Proposition of a generalized methodological framework to quantify flood dynamic resilience of water systems using a significant amount of generated data related to multiple hazards.Abstract: The objective of this research is to propose a novel framework for assessing the consequences of hazardous events on a water resources system using dynamic resilience. Two types of hazardous events were considered: a severe flood event and an earthquake. Given that one or both hazards have occurred and considering the intensity of those events, the main characteristics of flood dynamic resilience were evaluated. The framework utilizes an artificial neural network (ANN) to estimate dynamic resilience. The ANN was trained using a large, generated dataset that included a wide range of situations, from relatively mild hazards to severe ones. A case study was performed on the Pirot water system (Serbia). Dynamic resilience was derived from the developed system dynamics model alongside the hazardous models implemented. The most extreme hazard combination results in the robustness of 0.04, indicating a combination of an earthquake with a significant magnitude and a flood hydrograph with a low frequency of occurrence. In the case of moderate hazards, the system robustness has a median value of 0.2 and a rapidity median value of 162 h. The ANN's efficacy was quantified using the average relative error metric which equals 2.14% and 1.77% for robustness and rapidity, respectively. HIGHLIGHTS: Proposition of a generalized methodological framework to quantify flood dynamic resilience of water systems using a significant amount of generated data related to multiple hazards. Implementation of the results derived from the dam safety model for accurate estimation of the earthquakes' impacts. Application of ANN to predict the main characteristics of the flood-risk related matrices. Graphical Abstract … (more)
- Is Part Of:
- Journal of hydroinformatics. Volume 25:Issue 2(2023)
- Journal:
- Journal of hydroinformatics
- Issue:
- Volume 25:Issue 2(2023)
- Issue Display:
- Volume 25, Issue 2 (2023)
- Year:
- 2023
- Volume:
- 25
- Issue:
- 2
- Issue Sort Value:
- 2023-0025-0002-0000
- Page Start:
- 208
- Page End:
- 225
- Publication Date:
- 2023-01-21
- Subjects:
- flood dynamic resilience -- flood risk assessment -- machine learning -- Pirot water resources system -- system dynamics modeling approach
Hydrology -- Data processing -- Periodicals
Geographic information systems -- Periodicals
Geographic information systems
Hydrology -- Data processing
Electronic journals
Periodicals
551.480285 - Journal URLs:
- http://www.iwaponline.com/jh/toc.htm ↗
https://iwaponline.com/jh ↗
https://iwaponline.com/jh/issue/browse-by-year ↗
https://iwaponline.com/jh/issue ↗ - DOI:
- 10.2166/hydro.2023.069 ↗
- Languages:
- English
- ISSNs:
- 1464-7141
- Deposit Type:
- Legaldeposit
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