Investigation of Multimodel Ensemble Performance Using Machine Learning Method for Operational Dam Safety

The efficient and effective management of hydropower reservoirs is vital for hydroelectric power plant operation. Therefore, accurate and reliable flow forecasting forms an important basis for efficient real-time hydropower reservoir operation. The inflow forecast modeling process involves various c...

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Main Authors: Basri H., Marufuzzaman M., Mohd Sidek L., Ismail N.
Other Authors: 57065823300
Format: Book Chapter
Published: Springer 2023
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Institution: Universiti Tenaga Nasional
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spelling my.uniten.dspace-258052023-05-29T16:14:35Z Investigation of Multimodel Ensemble Performance Using Machine Learning Method for Operational Dam Safety Basri H. Marufuzzaman M. Mohd Sidek L. Ismail N. 57065823300 57205234835 35070506500 26649849000 The efficient and effective management of hydropower reservoirs is vital for hydroelectric power plant operation. Therefore, accurate and reliable flow forecasting forms an important basis for efficient real-time hydropower reservoir operation. The inflow forecast modeling process involves various computations and modeling techniques, which results in uncertainties various factors. The inflow forecasting techniques also may vary with the purpose of the system, physical characteristics and availability of data. Over the decades, there is an increasing awareness of the risk of relying on a single model among researchers and practitioners. There is clearly a potential danger in relying entirely on one rainfall-runoff model in such systems, as each model, provides, through its forecast, an important source of information that may be different in some detail from those of the other models calibrated with the same data set. Moreover, the failure of the model to yield consistent and reasonably accurate forecasts may undermine its credibility and results in poor reservoir planning and operation. Hence, consideration of the development of more flexible inflow forecasting systems is needed. These will not be based on a single substantive rainfall-runoff model, but efficient utilization of the synchronous flow forecasts from several substantive rainfall-runoff models, each having different strengths and weaknesses, to produce improved forecasts. In this study, multi-model ensemble strategies will be developed by considering outputs from a committee of models. Multi-model ensemble methods using a machine-learning algorithm combining different model outputs to the water level forecasts will be applied. The performance of the different machine-learning algorithms against the component models and accuracy improvement will be investigated. � 2020, Springer Nature Singapore Pte Ltd. Final 2023-05-29T08:14:35Z 2023-05-29T08:14:35Z 2020 Book Chapter 10.1007/978-981-15-1971-0_61 2-s2.0-85076785439 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85076785439&doi=10.1007%2f978-981-15-1971-0_61&partnerID=40&md5=c4ec706758459c09dffc90d828f36523 https://irepository.uniten.edu.my/handle/123456789/25805 625 632 Springer Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
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country Malaysia
content_provider Universiti Tenaga Nasional
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description The efficient and effective management of hydropower reservoirs is vital for hydroelectric power plant operation. Therefore, accurate and reliable flow forecasting forms an important basis for efficient real-time hydropower reservoir operation. The inflow forecast modeling process involves various computations and modeling techniques, which results in uncertainties various factors. The inflow forecasting techniques also may vary with the purpose of the system, physical characteristics and availability of data. Over the decades, there is an increasing awareness of the risk of relying on a single model among researchers and practitioners. There is clearly a potential danger in relying entirely on one rainfall-runoff model in such systems, as each model, provides, through its forecast, an important source of information that may be different in some detail from those of the other models calibrated with the same data set. Moreover, the failure of the model to yield consistent and reasonably accurate forecasts may undermine its credibility and results in poor reservoir planning and operation. Hence, consideration of the development of more flexible inflow forecasting systems is needed. These will not be based on a single substantive rainfall-runoff model, but efficient utilization of the synchronous flow forecasts from several substantive rainfall-runoff models, each having different strengths and weaknesses, to produce improved forecasts. In this study, multi-model ensemble strategies will be developed by considering outputs from a committee of models. Multi-model ensemble methods using a machine-learning algorithm combining different model outputs to the water level forecasts will be applied. The performance of the different machine-learning algorithms against the component models and accuracy improvement will be investigated. � 2020, Springer Nature Singapore Pte Ltd.
author2 57065823300
author_facet 57065823300
Basri H.
Marufuzzaman M.
Mohd Sidek L.
Ismail N.
format Book Chapter
author Basri H.
Marufuzzaman M.
Mohd Sidek L.
Ismail N.
spellingShingle Basri H.
Marufuzzaman M.
Mohd Sidek L.
Ismail N.
Investigation of Multimodel Ensemble Performance Using Machine Learning Method for Operational Dam Safety
author_sort Basri H.
title Investigation of Multimodel Ensemble Performance Using Machine Learning Method for Operational Dam Safety
title_short Investigation of Multimodel Ensemble Performance Using Machine Learning Method for Operational Dam Safety
title_full Investigation of Multimodel Ensemble Performance Using Machine Learning Method for Operational Dam Safety
title_fullStr Investigation of Multimodel Ensemble Performance Using Machine Learning Method for Operational Dam Safety
title_full_unstemmed Investigation of Multimodel Ensemble Performance Using Machine Learning Method for Operational Dam Safety
title_sort investigation of multimodel ensemble performance using machine learning method for operational dam safety
publisher Springer
publishDate 2023
_version_ 1806426661530370048