Abstract
Water is an essential resource that facilitates the existence of human life forms. In recent years, the demand for the consumption of freshwater has substantially increased. Seawater contains a high concentration of salt particles and salinity, making it unfit for consumption and domestic use. Water treatment plants used to treat seawater are less efficient and reliable. Deep learning systems can prove to be efficient and highly accurate in analyzing salt particles in seawater with higher efficiency that can improve the performance of water treatment plants. Therefore, this work classified different concentrations of salt particles in water using convolutional neural networks with the implementation of transfer learning. Salt salinity concentration images were captured using a designed Raspberry Pi based model and these images were further used for training purposes. Moreover, a data augmentation technique was also employed for the state-of-the-art results. Finally, a deep learning neural network was used to classify saline particles of varied concentration range images. The experimental results show that the proposed approach exhibited superior outcomes by achieving an overall accuracy of 90% and f-score of 87% in classifying salt particles. The proposed model was also evaluated using other evaluation metrics such as precision, recall, and specificity, and showed robust results.
Highlights
Published: 29 April 2021Water is an essential element for the survival of different life forms existing on Earth.Freshwater is consumed across a diverse array of applications such as agriculture [1], health care [2], domestic use, industrial applications [3,4], etc
This section discusses the classification metrics used to evaluate the robustness of the deep CNN model
This was evaluated by estimating the accuracy and Kappa [37] (represented mathematically using Equation (5)) on our training dataset with respect to the proposed model, Bayesian generalized linear model [37] and rotation forest [37] models
Summary
Water is an essential element for the survival of different life forms existing on Earth. Freshwater is consumed across a diverse array of applications such as agriculture [1], health care [2], domestic use, industrial applications [3,4], etc. The present freshwater sources such as lakes, ponds, and reservoirs are becoming dehydrated and disappearing at an extreme rate. With advanced industry evolution and globalization, different issues regarding water, pollution, environment, and energy, etc. Water resources are assessed at national, international, urban, and industrial scales [5]. Desalination treatment as a water production system that can be used for freshwater supply from seawater is a solution for water resource conservation. Practices based on RO shows better thermodynamic performances compared to thermal scales
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