Influence of the Training Set Value on the Quality of the Neural Network to Identify Selected Moulding Sand Properties

Abstract Artificial neural networks are one of the modern methods of the production optimisation. An attempt to apply neural networks for controlling the quality of bentonite moulding sands is presented in this paper. This is the assessment method of sands suitability by means of detecting correlations between their individual parameters. The presented investigations were aimed at the selection of the neural network able to predict the active bentonite content in the moulding sand on the basis of this sand properties such as: permeability, compactibility and the compressive strength. Then, the data of selected parameters of new moulding sand were set to selected artificial neural network models. This was made to test the universality of the model in relation to other moulding sands. An application of the Statistica program allowed to select automatically the type of network proper for the representation of dependencies occurring in between the proposed moulding sand parameters. The most advantageous conditions were obtained for the uni-directional multi-layer perception (MLP) network. Knowledge of the neural network sensitivity to individual moulding sand parameters, allowed to eliminate not essential ones.

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An Efficient Hybrid Forecasting Approach for Wind Speed Time Series

International Journal of Advanced Research in Computer Science and Software Engineering ◽

10.23956/ijarcsse.v7i9.404 ◽

2017 ◽

Vol 7 (9) ◽

pp. 13

Author(s):

Bhargavi Munnaluri ◽

K. Ganesh Reddy

Keyword(s):

Neural Networks ◽

Artificial Neural Networks ◽

Wind Speed ◽

Fossil Fuels ◽

Renewable Energy Sources ◽

Support Vector ◽

Hybrid Forecasting ◽

Artificial Neural ◽

Future Utilization

Wind forecasting is one of the best efficient ways to deal with the challenges of wind power generation. Due to the depletion of fossil fuels renewable energy sources plays a major role for the generation of power. For future management and for future utilization of power, we need to predict the wind speed. In this paper, an efficient hybrid forecasting approach with the combination of Support Vector Machine (SVM) and Artificial Neural Networks(ANN) are proposed to improve the quality of prediction of wind speed. Due to the different parameters of wind, it is difficult to find the accurate prediction value of the wind speed. The proposed hybrid model of forecasting is examined by taking the hourly wind speed of past years data by reducing the prediction error with the help of Mean Square Error by 0.019. The result obtained from the Artificial Neural Networks improves the forecasting quality.

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Predictive performance modeling of Habesha brewery wastewater treatment plant using artificial neural networks

10.31221/osf.io/cjv7p ◽

2019 ◽

Author(s):

Chem Int

Keyword(s):

Neural Networks ◽

Water Quality ◽

Wastewater Treatment ◽

Artificial Neural Networks ◽

Performance Modeling ◽

Predictive Performance ◽

Mathematical Tool ◽

Effluent Water ◽

Artificial Neural

Recently, process control in wastewater treatment plants (WWTPs) is, mostly accomplished through examining the quality of the water effluent and adjusting the processes through the operator’s experience. This practice is inefficient, costly and slow in control response. A better control of WTPs can be achieved by developing a robust mathematical tool for performance prediction. Due to their high accuracy and quite promising application in the field of engineering, Artificial Neural Networks (ANNs) are attracting attention in the domain of WWTP predictive performance modeling. This work focuses on applying ANN with a feed-forward, back propagation learning paradigm to predict the effluent water quality of the Habesha brewery WTP. Data of influent and effluent water quality covering approximately an 11-month period (May 2016 to March 2017) were used to develop, calibrate and validate the models. The study proves that ANN can predict the effluent water quality parameters with a correlation coefficient (R) between the observed and predicted output values reaching up to 0.969. Model architecture of 3-21-3 for pH and TN, and 1-76-1 for COD were selected as optimum topologies for predicting the Habesha Brewery WTP performance. The linear correlation between predicted and target outputs for the optimal model architectures described above were 0.9201 and 0.9692, respectively.

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General Melting Point Prediction Based on a Diverse Compound Data Set and Artificial Neural Networks.

ChemInform ◽

10.1002/chin.200532200 ◽

2005 ◽

Vol 36 (32) ◽

Author(s):

M. Karthikeyan ◽

Robert C. Glen ◽

Andreas Bender

Keyword(s):

Neural Networks ◽

Artificial Neural Networks ◽

Melting Point ◽

Data Set ◽

Artificial Neural

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Artificial neural networks applied for soil class prediction in mountainous landscape of the Serra do Mar¹

Revista Brasileira de Ciência do Solo ◽

10.1590/s0100-06832014000600003 ◽

2014 ◽

Vol 38 (6) ◽

pp. 1681-1693 ◽

Cited By ~ 7

Author(s):

Braz Calderano Filho ◽

Helena Polivanov ◽

César da Silva Chagas ◽

Waldir de Carvalho Júnior ◽

Emílio Velloso Barroso ◽

...

Keyword(s):

Neural Network ◽

Neural Networks ◽

Artificial Neural Networks ◽

Kappa Index ◽

Class Prediction ◽

Soil Class ◽

Serra Do Mar ◽

The Neural Network ◽

Artificial Neural ◽

Local Geology

Soil information is needed for managing the agricultural environment. The aim of this study was to apply artificial neural networks (ANNs) for the prediction of soil classes using orbital remote sensing products, terrain attributes derived from a digital elevation model and local geology information as data sources. This approach to digital soil mapping was evaluated in an area with a high degree of lithologic diversity in the Serra do Mar. The neural network simulator used in this study was JavaNNS and the backpropagation learning algorithm. For soil class prediction, different combinations of the selected discriminant variables were tested: elevation, declivity, aspect, curvature, curvature plan, curvature profile, topographic index, solar radiation, LS topographic factor, local geology information, and clay mineral indices, iron oxides and the normalized difference vegetation index (NDVI) derived from an image of a Landsat-7 Enhanced Thematic Mapper Plus (ETM+) sensor. With the tested sets, best results were obtained when all discriminant variables were associated with geological information (overall accuracy 93.2 - 95.6 %, Kappa index 0.924 - 0.951, for set 13). Excluding the variable profile curvature (set 12), overall accuracy ranged from 93.9 to 95.4 % and the Kappa index from 0.932 to 0.948. The maps based on the neural network classifier were consistent and similar to conventional soil maps drawn for the study area, although with more spatial details. The results show the potential of ANNs for soil class prediction in mountainous areas with lithological diversity.

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Opportunities and Constraints in Applying Artificial Neural Networks (ANNs) in Food Authentication. Honey—A Case Study

Applied Sciences ◽

10.3390/app11156723 ◽

2021 ◽

Vol 11 (15) ◽

pp. 6723

Author(s):

Ariana Raluca Hategan ◽

Romulus Puscas ◽

Gabriela Cristea ◽

Adriana Dehelean ◽

Francois Guyon ◽

...

Keyword(s):

Neural Networks ◽

Artificial Neural Networks ◽

Training Sample ◽

Training Data ◽

Elemental Content ◽

Neural Structure ◽

Food Authentication ◽

Data Set ◽

Artificial Neural

The present work aims to test the potential of the application of Artificial Neural Networks (ANNs) for food authentication. For this purpose, honey was chosen as the working matrix. The samples were originated from two countries: Romania (50) and France (53), having as floral origins: acacia, linden, honeydew, colza, galium verum, coriander, sunflower, thyme, raspberry, lavender and chestnut. The ANNs were built on the isotope and elemental content of the investigated honey samples. This approach conducted to the development of a prediction model for geographical recognition with an accuracy of 96%. Alongside this work, distinct models were developed and tested, with the aim of identifying the most suitable configurations for this application. In this regard, improvements have been continuously performed; the most important of them consisted in overcoming the unwanted phenomenon of over-fitting, observed for the training data set. This was achieved by identifying appropriate values for the number of iterations over the training data and for the size and number of the hidden layers and by introducing of a dropout layer in the configuration of the neural structure. As a conclusion, ANNs can be successfully applied in food authenticity control, but with a degree of caution with respect to the “over optimization” of the correct classification percentage for the training sample set, which can lead to an over-fitted model.

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Improving Pin-Fin Heat Transfer Predictions Using Artificial Neural Networks

Volume 3A: Heat Transfer ◽

10.1115/gt2013-95903 ◽

2013 ◽

Cited By ~ 1

Author(s):

Jason K. Ostanek

Keyword(s):

Neural Network ◽

Heat Transfer ◽

Neural Networks ◽

Reynolds Number ◽

Artificial Neural Networks ◽

Power Law ◽

Transfer Data ◽

Pin Fin ◽

The Neural Network ◽

Artificial Neural

In much of the public literature on pin-fin heat transfer, Nusselt number is presented as a function of Reynolds number using a power-law correlation. Power-law correlations typically have an accuracy of 20% while the experimental uncertainty of such measurements is typically between 5% and 10%. Additionally, the use of power-law correlations may require many sets of empirical constants to fully characterize heat transfer for different geometrical arrangements. In the present work, artificial neural networks were used to predict heat transfer as a function of streamwise spacing, spanwise spacing, pin-fin height, Reynolds number, and row position. When predicting experimental heat transfer data, the neural network was able to predict 73% of array-averaged heat transfer data to within 10% accuracy while published power-law correlations predicted 48% of the data to within 10% accuracy. Similarly, the neural network predicted 81% of row-averaged data to within 10% accuracy while 52% of the data was predicted to within 10% accuracy using power-law correlations. The present work shows that first-order heat transfer predictions may be simplified by using a single neural network model rather than combining or interpolating between power-law correlations. Furthermore, the neural network may be expanded to include additional pin-fin features of interest such as fillets, duct rotation, pin shape, pin inclination angle, and more making neural networks expandable and adaptable models for predicting pin-fin heat transfer.

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Nikolaeva M. S. On application of artificial neural networks to control quality of protection environment

90 - Operation of Maritime Transport ◽

10.34046/aumsuomt92/21 ◽

2019 ◽

pp. 136-140

Keyword(s):

Neural Networks ◽

Artificial Neural Networks ◽

Control Quality ◽

Quality Of Protection ◽

Artificial Neural

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Artificial neural networks in the problem of determining the position and size of the solar disk in wide-angle photographs of the sky

10.5194/egusphere-egu21-13051 ◽

2021 ◽

Author(s):

Mikhail Borisov ◽

Mikhail Krinitskiy

Keyword(s):

Neural Network ◽

Neural Networks ◽

Artificial Neural Networks ◽

Solar Disk ◽

Weather Conditions ◽

Wide Angle ◽

Know How ◽

The Neural Network ◽

Artificial Neural ◽

The Moment

Total cloud score is a characteristic of weather conditions. At the moment, there are algorithms that automatically calculate cloudiness based on a photograph of the sky These algorithms do not know how to find the solar disk, so their work is not absolutely accurate.To create an algorithm that solves this data, the data used, obtained as a result of sea research voyages, is used, which is marked up for training the neural network.As a result of the work, an algorithm was obtained based on neural networks, based on a photograph of the sky, in order to determine the size and position of the solar disk, other algorithms can be used to work with images of the visible hemisphere of the sky.

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Predicting Students Grades Using Artificial Neural Networks and Support Vector Machine

Advanced Methodologies and Technologies in Modern Education Delivery - Advances in Educational Technologies and Instructional Design ◽

10.4018/978-1-5225-7365-4.ch059 ◽

2019 ◽

pp. 751-766

Author(s):

Sajid Umair ◽

Muhammad Majid Sharif

Keyword(s):

Neural Networks ◽

Support Vector Machine ◽

Artificial Neural Networks ◽

Student Performance ◽

Semantic Analysis ◽

Vital Role ◽

Support Vector ◽

Data Set ◽

Important Research Topic ◽

Artificial Neural

Prediction of student performance on the basis of habits has been a very important research topic in academics. Studies show that selection of the correct data set also plays a vital role in these predictions. In this chapter, the authors took data from different schools that contains student habits and their comments, analyzed it using latent semantic analysis to get semantics, and then used support vector machine to classify the data into two classes, important for prediction and not important. Finally, they used artificial neural networks to predict the grades of students. Regression was also used to predict data coming from support vector machine, while giving only the important data for prediction.

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