Simulating the Interdependence Between Electricity Production and Water Release, Based on a Methodology that Combines Statistical Models and Artificial Intelligence

Authors

  • Hyllaa Anas Al-Omari Department of Statistics and Informatics, College of Computer Science and Mathematics, University of Mosul, Iraq
  • Najlaa Saad Ibrahim University of Mosul
  • Alla Abdul Alsattar Hamoodat Department of Statistics and Informatics, College of Computer Science and Mathematics, University of Mosul, Iraq

DOI:

https://doi.org/10.19139/soic-2310-5070-3340

Keywords:

neural network, cointegration, long-term equilibrium, power production, water release, error correction model

Abstract

    The research presents a hybrid innovative model that improves the accuracy of the prediction of water release and energy production through the combination of artificial neural networks with econometric modeling techniques. The research assumed a combined approach, taking advantage of the strength of neural networks to discover complex and nonlinear relationships in data and the benefits of the vector regression models in long-term equilibrium relationships. Two integrated hybrid models that address each variable independently while maintaining their interrelationships were created. With notable gains in a number of evaluation criteria on both training and future data, the suggested model outperformed conventional models in terms of prediction accuracy. Utilizing the combination of cutting-edge statistical approaches and artificial intelligence technologies, the created methodology is distinguished by its capacity to handle the intricacies of time series.

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Published

2026-03-24

Issue

Online First

Section

Research Articles

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How to Cite

Simulating the Interdependence Between Electricity Production and Water Release, Based on a Methodology that Combines Statistical Models and Artificial Intelligence. (2026). Statistics, Optimization & Information Computing. https://doi.org/10.19139/soic-2310-5070-3340