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RESEARCH PRODUCT

Hydropower Optimization Using Deep Learning

Ole-christopher GranmoJivitesh SharmaBernt Viggo Matheussen

subject

Mathematical optimizationMarkov chainArtificial neural networkbusiness.industryComputer science020209 energyDeep learning0208 environmental biotechnologyScheduling (production processes)02 engineering and technologyInflow020801 environmental engineering0202 electrical engineering electronic engineering information engineeringProduction (economics)Stochastic optimizationArtificial intelligencebusinessHydropower

description

This paper demonstrates how deep learning can be used to find optimal reservoir operating policies in hydropower river systems. The method that we propose is based on the implicit stochastic optimization (ISO) framework, using direct policy search methods combined with deep neural networks (DNN). The findings from a real-world two-reservoir hydropower system in southern Norway suggest that DNNs can learn how to map input (price, inflow, starting reservoir levels) to the optimal production pattern directly. Due to the speed of evaluating the DNN, this approach is from an operational standpoint computationally inexpensive and may potentially address the long-standing problem of high dimensionality in hydropower optimization. Further on, our method may be used as an input for decision-theoretic planning, suggesting the policy that will give the highest expected profit. The approach also permits for a broader use of pre-trained neural networks in historical reanalysis of production patterns and studies of climate change effects.

yearjournalcountryeditionlanguage
2019-01-01
https://doi.org/10.1007/978-3-030-22999-3_11