A sparrow search algorithm-optimized convolutional neural network for imbalanced data classification using synthetic minority over-sampling technique

Deng, Wu; He, Qi; Zhou, Xiangbing; Chen, Huayue; Zhao, Huimin

doi:10.1088/1402-4896/acff2c

Phys. Scr.

2023

DOI: 10.1088/1402-4896/acff2c

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A sparrow search algorithm-optimized convolutional neural network for imbalanced data classification using synthetic minority over-sampling technique

Wu Deng,

Qi He,

Xiangbing Zhou

et al.

Abstract: Due to the large span of flight delay, numerous influencing factors and large number of flights, the collected flight delay data is characterized by large-scale and imbalance, which is considered as one of the largest challenges in balanced flight delay data classification by using conventional classification algorithms. To solve this problem, an adaptive multi-class classification approach of imbalanced flight delay data using synthetic minority over-sampling technique (SMOTE)-based convolutional neural netwo… Show more

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2024

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Cited by 2 publications

References 67 publications

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Aero-engine gas path anomaly monitoring based on unsupervised structure and deep slow feature representation

Li,

Cai

et al. 2024

Phys. Scr.

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Gas path anomaly monitoring holds a crucial position in aero-engine health management due to the dynamic nature of gas path parameters, data imbalance, and the lack of labels, presenting significant challenges. To address these issues, this study proposes a novel method for dynamic anomaly monitoring in aero-engines utilizing Kernel Slow Feature Analysis (KSFA) and Deep Support Vector Data Description (Deep SVDD). In this approach, the original gas path parameter values undergo preprocessing using the KSFA algorithm to extract pertinent features indicative of gradual changes in gas path status. The Deep SVDD model, employing a one-dimensional Convolutional Neural Network (1D-CNN) fused with a feature attention mechanism, is iteratively trained to identify the optimal hypersphere. The Health Indicator (HI) is then determined by quantifying the distance between the test set and the hypersphere's center, enabling a quantitative assessment of the aero-engine's performance degradation. Experimental findings demonstrate that this method outperforms alternative evaluation techniques by effectively tracking the aero-engine's degradation process and anticipating engine anomalies, showcasing its practical value in engineering applications.

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Aero-engine gas path anomaly monitoring based on unsupervised structure and deep slow feature representation

Li,

Cai

et al. 2024

Phys. Scr.

View full text Add to dashboard Cite

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Enhancing Cover Management Factor Classification Through Imbalanced Data Resolution

Nguyen,

Chen

2024

Environments

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This study addresses the persistent challenge of class imbalance in land use and land cover (LULC) classification within the Shihmen Reservoir watershed in Taiwan, where LULC is used to map the Cover Management factor (C-factor). The dominance of forests in the LULC categories leads to an imbalanced dataset, resulting in poor prediction performance for minority classes when using machine learning techniques. To overcome this limitation, we applied the Synthetic Minority Over-sampling Technique (SMOTE) and the 90-model SMOTE-variants package in Python to balance the dataset. Due to the multi-class nature of the data and memory constraints, 42 models were successfully used to create a balanced dataset, which was then integrated with a Random Forest algorithm for C-factor classification. The results show a marked improvement in model accuracy across most SMOTE variants, with the Selected Synthetic Minority Over-sampling Technique (Selected_SMOTE) emerging as the best-performing method, achieving an overall accuracy of 0.9524 and a sensitivity of 0.6892. Importantly, the previously observed issue of poor minority class prediction was resolved using the balanced dataset. This study provides a robust solution to the class imbalance issue in C-factor classification, demonstrating the effectiveness of SMOTE variants and the Random Forest algorithm in improving model performance and addressing imbalanced class distributions. The success of Selected_SMOTE underscores the potential of balanced datasets in enhancing machine learning outcomes, particularly in datasets dominated by a majority class. Additionally, by addressing imbalance in LULC classification, this research contributes to Sustainable Development Goal 15, which focuses on the protection, restoration, and sustainable use of terrestrial ecosystems.

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A sparrow search algorithm-optimized convolutional neural network for imbalanced data classification using synthetic minority over-sampling technique

Cited by 2 publications

References 67 publications

Aero-engine gas path anomaly monitoring based on unsupervised structure and deep slow feature representation

Aero-engine gas path anomaly monitoring based on unsupervised structure and deep slow feature representation

Enhancing Cover Management Factor Classification Through Imbalanced Data Resolution

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