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859,247 results

139. Neuro-Symbolic Empowered Denoising Diffusion Probabilistic Models for Real-Time Anomaly Detection in Industry 4.0: Wild-and-Crazy-Idea Paper

Author

Capogrosso, Luigi, primary, Mascolini, Alessio, additional, Girella, Federico, additional, Skenderi, Geri, additional, Gaiardelli, Sebastiano, additional, Dall'Ora, Nicola, additional, Ponzio, Francesco, additional, Fraccaroli, Enrico, additional, Di Cataldo, Santa, additional, Vinco, Sara, additional, Macii, Enrico, additional, Fummi, Franco, additional, and Cristani, Marco, additional

Published
2023
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148. Importance of Depolarization Current in the Diagnosis of Oil-Paper Insulation of Power Transformer

Author

Alok Kumar, Deepak Mishra, and Arijit Baral

Subjects
Power transformer, oil-paper insulation, residual charge, dissipation factor, paper moisture, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Recently, Polarization Depolarization current (PDC) measurement is widely accepted time domain spectroscopy-based method for assessing the insulation condition. Various performance parameters like Dissipation factor (%tan $\delta $ ), Paper Moisture (%pm), Dielectric Adsorption Ratio (DAR), Polarization index (PI) etc. can be estimated by analyzing the PDC data. During field measurement various factors influences the recorded PDC data. As per existing literature, presence of low frequency noise, effect of temperature variation and influence of residual charge are common during field measurement. These factors significantly affect recorded polarization current and hence estimated performance parameters. Hence, analysis using recorded polarization current data may provide misleading information regarding insulation condition. Under such practical situation where polarization current is affected by above mentioned factors that generally observed during field measurement, depolarization current should be used for analysis of insulation condition. The depolarization current does not influence by such external factors. The present work shows the importance of depolarization current where polarization current is influenced by external low frequency noise and residual charge. The analysis firstly applied on sample prepared in the laboratory and then on data collected from real life in-situ transformers. The results obtained from the analysis shows that the data obtained from depolarization current is more reliable.

Published
2023
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149. A Novel Approach for Cardiotocography Paper Digitization and Classification for Abnormality Detection

Author

Sibel Ozturk, Safiye Agapinar Sahin, Ayse Nur Aksoy, Berna Ari, and Alex Akinbi

Subjects
EMD, feature selection, image enhancement, printing CTG paper, signal reconstruction, SVM classifier, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Cardiotocography (CTG) is a clinical procedure that is used to track and gauge the severity of fetal distress. Although CTG is the most often used equipment to monitor and assess the health of the fetus, the high rate of false positive results due to visual interpretation significantly contributes to needless surgical delivery or delayed intervention. In this study, a novel approach is introduced where both printing CTG paper is digitized and a machine learning approach is employed to detect the abnormality in the digitized CTG signal. Image processing-based preprocessing steps are employed to make the printing of CTG paper more convenient to extract the CTG signal. Various signal-processing techniques are used to calibrate the extracted CTG signal. Then, Empirical Mode Decomposition (EMD) is used to decompose the CTG signal into its frequency components and instantaneous frequency and spectral entropy features are extracted. After feature normalization and feature selection with ReliefF algorithm, support vector machines (SVM) is used for the classification of the normal and abnormal classes. A novel dataset is used in the experimental works and various performance evaluation metrics are used for the evaluation of the achievement of the proposed method. 10-fold cross-validation-based experiments show that the proposed method is quite efficient in abnormality detection in printing CTG papers where an average accuracy score of around 90.0% is produced.

Published
2023
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150. Effect of Electric-Field Components on the Flashover Characteristics of Oil-Paper Insulation Under Combined AC-DC Voltage

Author

Jin Fubao and Zhou Yuanxiang

Subjects
Oil-paper insulation, AC-DC combined voltage, DC voltage component, creepage discharge, electrical field component, flashover voltage, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Flashover characteristics are closely related to the electrical field distribution on the surface of oil-paper insulation. In this study, the effects of electrical field and DC voltage components on the creepage flashover characteristics of oil-paper insulation under combined AC-DC voltage (CADV) are investigated using two electrode models. The results demonstrate that when the DC voltage component is large, the flashover voltage under the influence of strong parallel electric field component is approximately 1.2 times higher than that under the influence of strong normal electric field component. When the DC voltage component value increases under the influence of strong normal electric field component, the value of corresponding AC voltage component of the creepage flashover voltage exhibits a decreasing trend. It is believed that due to the strong normal electric field component, the electrons intensify the collision on the surface of the insulating pressboard. Under the influence of the DC voltage component and due to the presence of space charge on the insulating pressboard, the distribution shape of carbonized particles on the surface of the insulating pressboard after creepage flashover is different. Furthermore, the instantaneous energy release during creepage flashover under CADV is higher than that under AC voltage, and the greater the DC voltage component value, more severe is the damage to the fibers on the insulating pressboard surface.

Published
2023
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