Abstract
In this research, an attempt was made to reduce the dimension of wavelet-ANFIS/ANN (artificial neural network/adaptive neuro-fuzzy inference system) models toward reliable forecasts as well as to decrease computational cost. In this regard, the principal component analysis was performed on the input time series decomposed by a discrete wavelet transform to feed the ANN/ANFIS models. The models were applied for dissolved oxygen (DO) forecasting in rivers which is an important variable affecting aquatic life and water quality. The current values of DO, water surface temperature, salinity, and turbidity have been considered as the input variable to forecast DO in a three-time step further. The results of the study revealed that PCA can be employed as a powerful tool for dimension reduction of input variables and also to detect inter-correlation of input variables. Results of the PCA-wavelet-ANN models are compared with those obtained from wavelet-ANN models while the earlier one has the advantage of less computational time than the later models. Dealing with ANFIS models, PCA is more beneficial to avoid wavelet-ANFIS models creating too many rules which deteriorate the efficiency of the ANFIS models. Moreover, manipulating the wavelet-ANFIS models utilizing PCA leads to a significant decreasing in computational time. Finally, it was found that the PCA-wavelet-ANN/ANFIS models can provide reliable forecasts of dissolved oxygen as an important water quality indicator in rivers.
Highlights
Due to the importance of environmental issues that play a vital role in health, food supply, and in general in the ecosystem, reliable forecasting of water quality indicators is beneficial for better management and probably to mitigate risk impacts
It was found that the principal component analysis (PCA)-wavelet-Artificial neural networks (ANNs)/adaptive neuro-fuzzy inference inference system (ANFIS) models can provide reliable forecasts of dissolved oxygen as an important water quality indicator in rivers
In the sub-section, the results of the models fed by the the outputs of the discrete wavelet transform (DWT) are given
Summary
Due to the importance of environmental issues that play a vital role in health, food supply, and in general in the ecosystem, reliable forecasting of water quality indicators is beneficial for better management and probably to mitigate risk impacts. Dissolved oxygen (DO) represents the amount of oxygen dissolved in water which is available to living aquatic organisms. These aquatic organisms are the main elements in the food supply chain as they feed other larger species. It is among the key variables indicating water quality. Sound forecasts of the water quality parameters such as DO can provide suitable information for environmental monitoring and assessment. Reliable forecasting models can be considered as an early warning to take serious actions in case of emergency
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