Hamed Kashi scite author profile

This paper describes the application of multilayer perceptron (MLP), radial basis network and adaptive neuro-fuzzy inference system (ANFIS) models for computing dissolved oxygen (DO), biochemical oxygen demand (BOD) and chemical oxygen demand (COD) levels in the Karoon River (Iran). Nine input water quality variables including EC, PH, Ca, Mg, Na, Turbidity, PO 4 , NO 3 and NO 2 , which were measured in the river water, were employed for the models. The performance of these models was assessed by the coefficient of determination R 2 , root mean square error and mean absolute error. The results showed that the computed values of DO, BOD and COD using both the artificial neural network and ANFIS models were in close agreement with their respective measured values in the river water. MLP was also better than other models in predicting water quality variables. Finally, the sensitive analysis was done to determine the relative importance and contribution of the input variables. The results showed that the phosphate was the most effective parameters on DO, BOD and COD.

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Prediction of Water Quality Parameters Using ANFIS Optimized by Intelligence Algorithms (Case Study: Gorganrood River)

Azad

Karami

Farzin

et al. 2017

KSCE J Civ Eng

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Modeling Groundwater Quality Parameters Using Hybrid Neuro-Fuzzy Methods

Kişi

Azad

Kashi

et al. 2018

Water Resour Manage

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Comparative evaluation of intelligent algorithms to improve adaptive neuro-fuzzy inference system performance in precipitation modelling

Azad

Manoochehri

Kashi

et al. 2019

Journal of Hydrology

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Estimation of Soil Infiltration and Cation Exchange Capacity Based on Multiple Regression, ANN (RBF, MLP), and ANFIS Models

Kashi

Emamgholizadeh

Ghorbani

2014

Communications in Soil Science and Plant Analysis

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Hamed Kashi

Prediction of water quality parameters of Karoon River (Iran) by artificial intelligence-based models

Prediction of Water Quality Parameters Using ANFIS Optimized by Intelligence Algorithms (Case Study: Gorganrood River)

Modeling Groundwater Quality Parameters Using Hybrid Neuro-Fuzzy Methods

Comparative evaluation of intelligent algorithms to improve adaptive neuro-fuzzy inference system performance in precipitation modelling

Estimation of Soil Infiltration and Cation Exchange Capacity Based on Multiple Regression, ANN (RBF, MLP), and ANFIS Models

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