Bat algorithm optimised extreme learning machine (Bat‐ELM): A novel approach for daily river water temperature modelling

Bat algorithm optimised extreme learning machine (Bat‐ELM): A novel approach for daily river water temperature modelling

Here, the capability of the Bat algorithm optimised extreme learning machines ELM (Bat‐ELM) is demonstrated for river water temperature (Tw) modelling in the Orda River, Poland. Results using the multilayer perceptron neural network (MLPNN), the classification and regression Tree (CART) and the mult...

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Bibliographic Details
Published in:The Geographical journal Vol. 189; no. 1; pp. 78 - 89
Main Authors: Heddam, Salim, Kim, Sungwon, Danandeh Mehr, Ali, Zounemat‐Kermani, Mohammad, Ptak, Mariusz, Elbeltagi, Ahmed, Malik, Anurag, Tikhamarine, Yazid
Format: Journal Article
Language:English
Published: London Blackwell Publishing Ltd 01-03-2023
Subjects:
Air temperature
Algorithms
Artificial neural networks
Bat‐ELM
Calibration
CART
Learning
Machine learning
MLPNN
Modelling
Multilayer perceptrons
Neural networks
Periodicity
Regression analysis
Rivers
Robustness
Water
Water temperature
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Summary:Here, the capability of the Bat algorithm optimised extreme learning machines ELM (Bat‐ELM) is demonstrated for river water temperature (Tw) modelling in the Orda River, Poland. Results using the multilayer perceptron neural network (MLPNN), the classification and regression Tree (CART) and the multiple linear regression (MLR) models were presented for comparison. The models were developed according to two scenarios: (1) using air temperature (Ta) as input for predicting Tw, and (2) using Ta and the periodicity (i.e., day, month and year number). River Tw calibration and validation results derived from air temperature and the periodicity show its potential application. The Bat‐ELM accurately predicts the Tw and surpassed all other models with coefficient of correlation (R) values ranging within the limits of 0.973 to 0.981, and the Nash‐Sutcliffe efficiency (NSE) values will fall within the interval of 0.947 to 0.963. Findings from this research also highlight the robustness of the Bat‐ELM using the periodicity by enhancing its ability to estimate river Tw. Short New machine learning for better prediction of water temperature using Bat‐ELM model.
ISSN:0016-7398
1475-4959
DOI:10.1111/geoj.12478