Gözen Elkiran scite author profile

In the present study, three different artificial intelligence based non-linear models, i.e. feed forward neural network (FFNN), adaptive neuro fuzzy inference system (ANFIS), support vector machine (SVM) approaches and a classical multi-linear regression (MLR) method were applied for predicting the performance of Nicosia wastewater treatment plant (NWWTP), in terms of effluent biological oxygen demand (BODeff), chemical oxygen demand (CODeff) and total nitrogen (TNeff). The daily data were used to develop single and ensemble models to improve the prediction ability of the methods. The obtained results of single models proved that, ANFIS model provides effective outcomes in comparison with single models. In the ensemble modeling, simple averaging ensemble, weighted averaging ensemble and neural network ensemble techniques were proposed subsequently to improve the performance of the single models. The results showed that in prediction of BODeff, the ensemble models of simple averaging ensemble (SAE), weighted averaging ensemble (WAE) and neural network ensemble (NNE), increased the performance efficiency of artificial intelligence (AI) modeling up to 14%, 20% and 24% at verification phase, respectively, and less than or equal to 5% for both CODeff and TNeff in calibration phase. This shows that NNE model is more robust and reliable ensemble method for predicting the NWWTP performance due to its non-linear averaging kernel.

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Multi-station artificial intelligence based ensemble modeling of reference evapotranspiration using pan evaporation measurements

Nourani

Elkiran

Abdullahi

2019

Journal of Hydrology

119

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Multi-step ahead modelling of river water quality parameters using ensemble artificial intelligence-based approach

Elkiran

Nourani

Abba

2019

Journal of Hydrology

192

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Multi-step ahead modeling of reference evapotranspiration using a multi-model approach

Nourani

Elkiran

Abdullahi

2020

Journal of Hydrology

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Multi-region Modeling of Daily Global Solar Radiation with Artificial Intelligence Ensemble

Nourani

Elkiran²,

Abdullahi³

et al. 2019

Nat Resour Res

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Gözen Elkiran

Wastewater treatment plant performance analysis using artificial intelligence – an ensemble approach

Multi-station artificial intelligence based ensemble modeling of reference evapotranspiration using pan evaporation measurements

Multi-step ahead modelling of river water quality parameters using ensemble artificial intelligence-based approach

Multi-step ahead modeling of reference evapotranspiration using a multi-model approach

Multi-region Modeling of Daily Global Solar Radiation with Artificial Intelligence Ensemble

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