Prediction of Nitrate and Phosphorus Concentrations Using Machine Learning Algorithms in Watersheds with Different Landuse

Bhattarai, Aayush; Dhakal, Sandeep; Gautam, Yogesh; Bhattarai, Rabin

doi:10.3390/w13213096

Cited by 24 publications

(9 citation statements)

References 30 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In the future, more methods such as machine learning and artificial neural network can be used to estimate the mechanisms of influence between water quality and land use . In contrast to traditional methods of building regression equations, machine learning algorithms have been used to estimate water quality to predict concentrations of water quality indicators in different watersheds with different land use practices (Bhattarai et al 2021). Surface water quality problems arise with the development of human society, and land use has an important impact on the change of water environment and water quality.…”

Section: Discussionmentioning

confidence: 99%

What is the relationship between land use and surface water quality? A review and prospects from remote sensing perspective

Cheng

Fei

Shi

et al. 2022

Environ Sci Pollut Res

View full text Add to dashboard Cite

Good surface water quality is critical to human health and ecology. Land use determines the surface water heat and material balance, which cause climate change and affect water quality. There are many factors affecting water quality degradation, and the process of influence is complex. As rivers, lakes, and other water bodies are used as environmental receiving carriers, evaluating and quantifying how impacts occur between land use types and surface water quality is extremely important. Based on the summary of published studies, we can see that (1) land use for agricultural and construction has a negative impact on surface water quality, while woodland use has a certain degree of improvement on surface water quality; (2) statistical methods used in relevant research mainly include correlation analysis, regression analysis, redundancy analysis, etc. Different methods have their own advantages and limitations; (3) in recent years, remote sensing monitoring technology has developed rapidly, and has developed into an effective tool for comprehensive water quality assessment and management. However, the increase in spatial resolution of remote sensing data has been accompanied by a surge in data volume, which has caused difficulties in information interpretation and other aspects.

show abstract

Section: Discussionmentioning

confidence: 99%

What is the relationship between land use and surface water quality? A review and prospects from remote sensing perspective

Cheng

Fei

Shi

et al. 2022

Environ Sci Pollut Res

View full text Add to dashboard Cite

show abstract

“…Gaussian process regression (GPR) is considered to be a strong and robust AI-based model, nonparametric, probabilistic, supervised, and unsupervised learning approach, which generalizes complex and nonlinear function mapping. 25 GPR has recently gained more attention from various modelers and forecasters from different fields ranging from medical sciences to engineering and technology. This is due to the fact that GPR has the ability to handle highly nonlinear phenomena owing to the implementation of Kernel functions.…”

Section: Methodsmentioning

confidence: 99%

Feasibility of the Optimal Design of AI-Based Models Integrated with Ensemble Machine Learning Paradigms for Modeling the Yields of Light Olefins in Crude-to-Chemical Conversions

Usman,

Tanimu,

Abba

et al. 2023

ACS Omega

View full text Add to dashboard Cite

The prediction of the yields of light olefins in the direct conversion of crude oil to chemicals requires the development of a robust model that represents the crude-tochemical conversion processes. This study utilizes artificial intelligence (AI) and machine learning algorithms to develop single and ensemble learning models that predict the yields of ethylene and propylene. Four single-model AI techniques and four ensemble paradigms were developed using experimental data derived from the catalytic cracking experiments of various crude oil fractions in the advanced catalyst evaluation reactor unit. The temperature, feed type, feed conversion, total gas, dry gas, and coke were used as independent variables. Correlation matrix analyses were conducted to filter the input combinations into three different classes (M1, M2, and M3) based on the relationship between dependent and independent variables, and three performance metrics comprising the coefficient of determination (R 2 ), Pearson correlation coefficient (PCC), and mean square error (MSE) were used to evaluate the prediction performance of the developed models in both calibration and validations stages. All four single models have very low R 2 and PCC values (as low as 0.07) and very high MSE values (up to 4.92 wt %) for M1 and M2 in both calibration and validation phases. However, the ensemble ML models show R 2 and PCC values of 0.99−1 and an MSE value of 0.01 wt % for M1, M2, and M3 input combinations. Therefore, ensemble paradigms improve the performance accuracy of single models by up to 58 and 62% in the calibration and validation phases, respectively. The ensemble paradigms predict with high accuracy the yield of ethylene and propylene in the catalytic cracking of crude oil and its fractions.

show abstract

“…An IoT-based smart water quality system was proposed by a few researchers [2,3]. Monitoring water contamination in daily life is becoming more and more crucial nowadays.…”

Section: Literature Reviewmentioning

confidence: 99%

“…The dataset values are normalized with min-max normalization before being given as the input layer of the ANN to increase the system's accuracy. In the min-max normalization technique, the value in the dataset is converted to the new value calculated by the given formulas ( 1) and (2).…”

Section: Water Quality Prediction Using Annmentioning

confidence: 99%

IoT-Based Automatic Water Quality Monitoring System with Optimized Neural Network

2024

KSII TIIS

View full text Add to dashboard Cite

One of the biggest dangers in the globe is water contamination. Water is a necessity for human survival. In most cities, the digging of borewells is restricted. In some cities, the borewell is allowed for only drinking water. Hence, the scarcity of drinking water is a vital issue for industries and villas. Most of the water sources in and around the cities are also polluted, and it will cause significant health issues. Real-time quality observation is necessary to guarantee a secure supply of drinking water. We offer a model of a low-cost system of monitoring realtime water quality using IoT to address this issue. The potential for supporting the real world has expanded with the introduction of IoT and other sensors. Multiple sensors make up the suggested system, which is utilized to identify the physical and chemical features of the water. Various sensors can measure the parameters such as temperature, pH, and turbidity. The core controller can process the values measured by sensors. An Arduino model is implemented in the core controller. The sensor data is forwarded to the cloud database using a WI-FI setup. The observed data will be transferred and stored in a cloud-based database for further processing. It wasn't easy to analyze the water quality every time. Hence, an Optimized Neural Network-based automation system identifies water quality from remote locations. The performance of the feed-forward neural network classifier is further enhanced with a hybrid GA-PSO algorithm. The optimized neural network outperforms water quality prediction applications and yields 91% accuracy. The accuracy of the developed model is increased by 20% because of optimizing network parameters compared to the traditional feed-forward neural network. Significant improvement in precision and recall is also evidenced in the proposed work.

show abstract

Prediction of Nitrate and Phosphorus Concentrations Using Machine Learning Algorithms in Watersheds with Different Landuse

Cited by 24 publications

References 30 publications

What is the relationship between land use and surface water quality? A review and prospects from remote sensing perspective

What is the relationship between land use and surface water quality? A review and prospects from remote sensing perspective

Feasibility of the Optimal Design of AI-Based Models Integrated with Ensemble Machine Learning Paradigms for Modeling the Yields of Light Olefins in Crude-to-Chemical Conversions

IoT-Based Automatic Water Quality Monitoring System with Optimized Neural Network

Contact Info

Product

Resources

About