Prediction of magnetic remanence of NdFeB magnets by using novel machine learning intelligence approach — Support vector regression

Studies have shown that the chemical compositions affecting the magnetic properties of NdFeB magnets. In order to get the right NdFeB magnets, it is advantageous to have an accurate model with which one can predict the magnetic properties with different components. In this paper, according to an experimental dataset on the magnetic remanence of NdFeB, a predicting and optimizing model using support vector regression (SVR) combined with particle swarm optimization (PSO) was developed. The estimated result of SVR agreed with the experimental data well. Test results of leave-one-out cross validation show that the mean absolute error does not exceed 0.0036, the mean absolute percentage error is solely 0.53%, and the correlation coefficient () is as high as 0.839. This implies that one can estimate an available combination of different proportion components by using support vector regression model to get suitable magnetic remanence of NdFeB.

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IMPLEMENTASI SUPPORT VECTOR MACHINE PADA PREDIKSI HARGA SAHAM GABUNGAN (IHSG)

Jurnal Ilmiah Teknologi dan Rekayasa ◽

10.35760/tr.2020.25i1.2571 ◽

2020 ◽

Vol 25 (1) ◽

pp. 24-38

Author(s):

Eka Patriya

Keyword(s):

Machine Learning ◽

Support Vector Machine ◽

Support Vector Regression ◽

Support Vector

Saham adalah instrumen pasar keuangan yang banyak dipilih oleh investor sebagai alternatif sumber keuangan, akan tetapi saham yang diperjual belikan di pasar keuangan sering mengalami fluktuasi harga (naik dan turun) yang tinggi. Para investor berpeluang tidak hanya mendapat keuntungan, tetapi juga dapat mengalami kerugian di masa mendatang. Salah satu indikator yang perlu diperhatikan oleh investor dalam berinvestasi saham adalah pergerakan Indeks Harga Saham Gabungan (IHSG). Tindakan dalam menganalisa IHSG merupakan hal yang penting dilakukan oleh investor dengan tujuan untuk menemukan suatu trend atau pola yang mungkin berulang dari pergerakan harga saham masa lalu, sehingga dapat digunakan untuk memprediksi pergerakan harga saham di masa mendatang. Salah satu metode yang dapat digunakan untuk memprediksi pergerakan harga saham secara akurat adalah machine learning. Pada penelitian ini dibuat sebuah model prediksi harga penutupan IHSG menggunakan algoritma Support Vector Regression (SVR) yang menghasilkan kemampuan prediksi dan generalisasi yang baik dengan nilai RMSE training dan testing sebesar 14.334 dan 20.281, serta MAPE training dan testing sebesar 0.211% dan 0.251%. Hasil penelitian ini diharapkan dapat membantu para investor dalam mengambil keputusan untuk menyusun strategi investasi saham.

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Optimizing machine learning models for granular NdFeB magnets by very fast simulated annealing

Scientific Reports ◽

10.1038/s41598-021-83315-9 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Hyeon-Kyu Park ◽

Jae-Hyeok Lee ◽

Jehyun Lee ◽

Sang-Koog Kim

Keyword(s):

Machine Learning ◽

Simulated Annealing ◽

Permanent Magnets ◽

Supervised Machine Learning ◽

Support Vector ◽

Micromagnetic Simulations ◽

Ndfeb Magnets ◽

Average Grain Size ◽

Macroscopic Properties ◽

Very Fast Simulated Annealing

AbstractThe macroscopic properties of permanent magnets and the resultant performance required for real implementations are determined by the magnets’ microscopic features. However, earlier micromagnetic simulations and experimental studies required relatively a lot of work to gain any complete and comprehensive understanding of the relationships between magnets’ macroscopic properties and their microstructures. Here, by means of supervised learning, we predict reliable values of coercivity (μ0Hc) and maximum magnetic energy product (BHmax) of granular NdFeB magnets according to their microstructural attributes (e.g. inter-grain decoupling, average grain size, and misalignment of easy axes) based on numerical datasets obtained from micromagnetic simulations. We conducted several tests of a variety of supervised machine learning (ML) models including kernel ridge regression (KRR), support vector regression (SVR), and artificial neural network (ANN) regression. The hyper-parameters of these models were optimized by a very fast simulated annealing (VFSA) algorithm with an adaptive cooling schedule. In our datasets of randomly generated 1,000 polycrystalline NdFeB cuboids with different microstructural attributes, all of the models yielded similar results in predicting both μ0Hc and BHmax. Furthermore, some outliers, which deteriorated the normality of residuals in the prediction of BHmax, were detected and further analyzed. Based on all of our results, we can conclude that our ML approach combined with micromagnetic simulations provides a robust framework for optimal design of microstructures for high-performance NdFeB magnets.

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Application of machine learning in predicting construction project profit in Ghana using Support Vector Regression Algorithm (SVRA)

Engineering Construction & Architectural Management ◽

10.1108/ecam-08-2020-0618 ◽

2021 ◽

Vol ahead-of-print (ahead-of-print) ◽

Author(s):

Emmanuel Adinyira ◽

Emmanuel Akoi-Gyebi Adjei ◽

Kofi Agyekum ◽

Frank Desmond Kofi Fugar

Keyword(s):

Machine Learning ◽

Support Vector Regression ◽

Cash Flow ◽

Predictive Accuracy ◽

Model Development ◽

Construction Project ◽

Support Vector ◽

Sensitivity Index ◽

Content Type ◽

Hyperparameter Selection

PurposeKnowledge of the effect of various cash-flow factors on expected project profit is important to effectively manage productivity on construction projects. This study was conducted to develop and test the sensitivity of a Machine Learning Support Vector Regression Algorithm (SVRA) to predict construction project profit in Ghana.Design/methodology/approachThe study relied on data from 150 institutional projects executed within the past five years (2014–2018) in developing the model. Eighty percent (80%) of the data from the 150 projects was used at hyperparameter selection and final training phases of the model development and the remaining 20% for model testing. Using MATLAB for Support Vector Regression, the parameters available for tuning were the epsilon values, the kernel scale, the box constraint and standardisations. The sensitivity index was computed to determine the degree to which the independent variables impact the dependent variable.FindingsThe developed model's predictions perfectly fitted the data and explained all the variability of the response data around its mean. Average predictive accuracy of 73.66% was achieved with all the variables on the different projects in validation. The developed SVR model was sensitive to labour and loan.Originality/valueThe developed SVRA combines variation, defective works and labour with other financial constraints, which have been the variables used in previous studies. It will aid contractors in predicting profit on completion at commencement and also provide information on the effect of changes to cash-flow factors on profit.

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Support Vector Regression Method for Regional Economic Mid- and Long-Term Predictions Based on Wireless Network Communication

Wireless Communications and Mobile Computing ◽

10.1155/2021/1837681 ◽

2021 ◽

Vol 2021 ◽

pp. 1-14

Author(s):

Lingyu Dong

Keyword(s):

Machine Learning ◽

Communication Network ◽

Support Vector Regression ◽

Wireless Network ◽

Regression Method ◽

Network Communication ◽

Support Vector ◽

Network Coverage ◽

Data Packets

In recent years, wireless sensor network technology has continued to develop, and it has become one of the research hotspots in the information field. People have higher and higher requirements for the communication rate and network coverage of the communication network, which also makes the problems of limited wireless mobile communication network coverage and insufficient wireless resource utilization efficiency become increasingly prominent. This article is aimed at studying a support vector regression method for long-term prediction in the context of wireless network communication and applying the method to regional economy. This article uses the contrast experiment method and the space occupancy rate algorithm, combined with the vector regression algorithm of machine learning. Research on the laws of machine learning under the premise of less sample data solves the problem of the lack of a unified framework that can be referred to in machine learning with limited samples. The experimental results show that the distance between AP1 and AP2 is 0.4 m, and the distance between AP2 and Client2 is 0.6 m. When BPSK is used for OFDM modulation, 2500 MHz is used as the USRP center frequency, and 0.5 MHz is used as the USRP bandwidth; AP1 can send data packets. The length is 100 bytes, the number of sent data packets is 100, the gain of Client2 is 0-38, the receiving gain of AP2 is 0, and the receiving gain of AP1 is 19. The support vector regression method based on wireless network communication for regional economic mid- and long-term predictions was completed well.

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A novel method for total chlorine detection using machine learning with electrode arrays

RSC Advances ◽

10.1039/c9ra06609h ◽

2019 ◽

Vol 9 (59) ◽

pp. 34196-34206

Author(s):

Zhe Li ◽

Shunhao Huang ◽

Juan Chen

Keyword(s):

Machine Learning ◽

Principal Component Analysis ◽

Cyclic Voltammetry ◽

Support Vector Regression ◽

Principal Component ◽

Measurement Model ◽

Support Vector ◽

Electrode Arrays ◽

Soft Measurement ◽

Novel Method

Establish soft measurement model of total chlorine: cyclic voltammetry curves, principal component analysis and support vector regression.

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Machine learning prediction of interaction energies in rigid water clusters

Physical Chemistry Chemical Physics ◽

10.1039/c8cp03138j ◽

2018 ◽

Vol 20 (35) ◽

pp. 22987-22996 ◽

Cited By ~ 2

Author(s):

Samik Bose ◽

Diksha Dhawan ◽

Sutanu Nandi ◽

Ram Rup Sarkar ◽

Debashree Ghosh

Keyword(s):

Machine Learning ◽

Support Vector Regression ◽

Water Clusters ◽

High Accuracy ◽

Support Vector ◽

Interaction Energies ◽

Many Body ◽

New Machine

A new machine learning based approach combining support vector regression (SVR) and many body expansion (MBE) that can predict the interaction energies of water clusters with high accuracy (for decamers: 2.78% of QM estimates).

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Magnetic properties prediction of NdFeB magnets by using support vector regression

Modern Physics Letters B ◽

10.1142/s0217984914501772 ◽

2014 ◽

Vol 28 (23) ◽

pp. 1450177

Author(s):

Wende Cheng

Keyword(s):

Magnetic Properties ◽

Support Vector Regression ◽

Magnetic Energy ◽

Practical Method ◽

Percentage Error ◽

Support Vector ◽

Ndfeb Magnets ◽

Energy Product ◽

Experimental Process ◽

Leave One Out

A novel model using support vector regression (SVR) combined with particle swarm optimization (PSO) was employed to construct mathematical model for prediction of the magnetic properties of the NdFeB magnets. The leave-one-out cross-validation (LOOCV) test results strongly supports that the generalization ability of SVR is high enough. Predicted results show that the mean absolute percentage error for magnetic remanence Br, coercivity Hcj and maximum magnetic energy product (BH) max are 0.53%, 3.90%, 1.73%, and the correlation coefficient (R2) is as high as 0.839, 0.967 and 0.940, respectively. This investigation suggests that the PSO-SVR is not only an effective and practical method to simulate the properties of NdFeB , but also a powerful tool to optimatize designing or controlling the experimental process.

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24-hour cloud cover calculation using ground-based imager with machine learning

10.5194/amt-2021-179 ◽

2021 ◽

Author(s):

Bu-Yo Kim ◽

Joo Wan Cha ◽

Ki-Ho Chang

Keyword(s):

Machine Learning ◽

Support Vector Regression ◽

Cloud Cover ◽

Image Data ◽

Support Vector ◽

Machine Learning Method ◽

Learning Method ◽

Learning Methods ◽

Human Eye ◽

Machine Learning Methods

Abstract. In this study, image data features and machine learning methods were used to calculate 24-h continuous cloud cover from image data obtained by a camera-based imager on the ground. The image data features were the time (Julian day and hour), solar zenith angle, and statistical characteristics of the red-blue ratio, blue–red difference, and luminance. These features were determined from the red, green, and blue brightness of images subjected to a pre-processing process involving masking removal and distortion correction. The collected image data were divided into training, validation, and test sets and were used to optimize and evaluate the accuracy of each machine learning method. The cloud cover calculated by each machine learning method was verified with human-eye observation data from a manned observatory. Supervised machine learning models suitable for nowcasting, namely, support vector regression, random forest, gradient boosting machine, k-nearest neighbor, artificial neural network, and multiple linear regression methods, were employed and their results were compared. The best learning results were obtained by the support vector regression model, which had an accuracy, recall, and precision of 0.94, 0.70, and 0.76, respectively. Further, bias, root mean square error, and correlation coefficient values of 0.04 tenth, 1.45 tenths, and 0.93, respectively, were obtained for the cloud cover calculated using the test set. When the difference between the calculated and observed cloud cover was allowed to range between 0, 1, and 2 tenths, high agreement of approximately 42 %, 79 %, and 91 %, respectively, were obtained. The proposed system involving a ground-based imager and machine learning methods is expected to be suitable for application as an automated system to replace human-eye observations.

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Strict-Feedback Backstepping Digital Twin and Machine Learning Solution in AE Signals for Bearing Crack Identification

Sensors ◽

10.3390/s22020539 ◽

2022 ◽

Vol 22 (2) ◽

pp. 539

Author(s):

Farzin Piltan ◽

Rafia Nishat Toma ◽

Dongkoo Shon ◽

Kichang Im ◽

Hyun-Kyun Choi ◽

...

Keyword(s):

Machine Learning ◽

Acoustic Emission ◽

Support Vector Regression ◽

Support Vector ◽

Signal Estimation ◽

Digital Twin ◽

Crack Type ◽

Type Size ◽

Ae Signal ◽

Strict Feedback

Bearings are nonlinear systems that can be used in several industrial applications. In this study, the combination of a strict-feedback backstepping digital twin and machine learning algorithm was developed for bearing crack type/size diagnosis. Acoustic emission sensors were used to collect normal and abnormal data for various crack sizes and motor speeds. The proposed method has three main steps. In the first step, the strict-feedback backstepping digital twin is designed for acoustic emission signal modeling and estimation. After that, the acoustic emission residual signal is generated. Finally, a support vector machine is recommended for crack type/size classification. The proposed digital twin is presented in two steps, (a) AE signal modeling and (b) AE signal estimation. The AE signal in normal conditions is modeled using an autoregressive technique, the Laguerre algorithm, a support vector regression technique and a Gaussian process regression procedure. To design the proposed digital twin, a strict-feedback backstepping observer, an integral term, a support vector regression and a fuzzy logic algorithm are suggested for AE signal estimation. The Ulsan Industrial Artificial Intelligence (UIAI) Lab’s bearing dataset was used to test the efficiency of the combined strict-feedback backstepping digital twin and machine learning technique for bearing crack type/size diagnosis. The average accuracies of the crack type diagnosis and crack size diagnosis of acoustic emission signals for the bearings used in the proposed algorithm were 97.13% and 96.9%, respectively.

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