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Showing 6,041 - 6,060 results of 17,850 for search '(( significant decrease decrease ) OR ( significant a decrease ))~', query time: 0.58s Refine Results
  1. 6041
    The ATG8-interacting motif 1 (AIM1) and AIM5 in p20 are indispensable for its interaction with ATG8 and autophagy induction.

    The ATG8-interacting motif 1 (AIM1) and AIM5 in p20 are indispensable for its interaction with ATG8 and autophagy induction. by Yongle Zhang (11355546)

    Published 2025
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  2. 6042
    TRV-based silencing of <i>NbATG5</i> and <i>NbATG7</i> in <i>Nicotiana benthamiana</i> plants.

    TRV-based silencing of <i>NbATG5</i> and <i>NbATG7</i> in <i>Nicotiana benthamiana</i> plants. by Yongle Zhang (11355546)

    Published 2025
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  3. 6043
    The p20-ATG8 interaction is important for the VSR activity of p20.

    The p20-ATG8 interaction is important for the VSR activity of p20. by Yongle Zhang (11355546)

    Published 2025
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  4. 6044
    PCA-CGAN model parameter settings.

    PCA-CGAN model parameter settings. by Chao Tang (10925)

    Published 2025
    “…This research addresses core challenges in ECG signal classification—extremely imbalanced data, significant individual physiological differences, and difficulties in long sequence fitting—by proposing a Principal Component Analysis-based Conditional Generative Adversarial Network (PCA-CGAN). …”
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  5. 6045
    MIT-BIH dataset proportion analysis chart.

    MIT-BIH dataset proportion analysis chart. by Chao Tang (10925)

    Published 2025
    “…This research addresses core challenges in ECG signal classification—extremely imbalanced data, significant individual physiological differences, and difficulties in long sequence fitting—by proposing a Principal Component Analysis-based Conditional Generative Adversarial Network (PCA-CGAN). …”
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  6. 6046
    Wavelet transform preprocessing results.

    Wavelet transform preprocessing results. by Chao Tang (10925)

    Published 2025
    “…This research addresses core challenges in ECG signal classification—extremely imbalanced data, significant individual physiological differences, and difficulties in long sequence fitting—by proposing a Principal Component Analysis-based Conditional Generative Adversarial Network (PCA-CGAN). …”
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  7. 6047
    PCAECG_GAN.

    PCAECG_GAN. by Chao Tang (10925)

    Published 2025
    “…This research addresses core challenges in ECG signal classification—extremely imbalanced data, significant individual physiological differences, and difficulties in long sequence fitting—by proposing a Principal Component Analysis-based Conditional Generative Adversarial Network (PCA-CGAN). …”
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  8. 6048
    MIT dataset expansion quantities and Proportions.

    MIT dataset expansion quantities and Proportions. by Chao Tang (10925)

    Published 2025
    “…This research addresses core challenges in ECG signal classification—extremely imbalanced data, significant individual physiological differences, and difficulties in long sequence fitting—by proposing a Principal Component Analysis-based Conditional Generative Adversarial Network (PCA-CGAN). …”
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  9. 6049
    Experimental hardware and software environment.

    Experimental hardware and software environment. by Chao Tang (10925)

    Published 2025
    “…This research addresses core challenges in ECG signal classification—extremely imbalanced data, significant individual physiological differences, and difficulties in long sequence fitting—by proposing a Principal Component Analysis-based Conditional Generative Adversarial Network (PCA-CGAN). …”
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  10. 6050
    PCA-CGAN K-fold experiment table.

    PCA-CGAN K-fold experiment table. by Chao Tang (10925)

    Published 2025
    “…This research addresses core challenges in ECG signal classification—extremely imbalanced data, significant individual physiological differences, and difficulties in long sequence fitting—by proposing a Principal Component Analysis-based Conditional Generative Adversarial Network (PCA-CGAN). …”
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  11. 6051
    Classification model parameter settings.

    Classification model parameter settings. by Chao Tang (10925)

    Published 2025
    “…This research addresses core challenges in ECG signal classification—extremely imbalanced data, significant individual physiological differences, and difficulties in long sequence fitting—by proposing a Principal Component Analysis-based Conditional Generative Adversarial Network (PCA-CGAN). …”
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  12. 6052
    MIT-BIH expanded dataset proportion chart.

    MIT-BIH expanded dataset proportion chart. by Chao Tang (10925)

    Published 2025
    “…This research addresses core challenges in ECG signal classification—extremely imbalanced data, significant individual physiological differences, and difficulties in long sequence fitting—by proposing a Principal Component Analysis-based Conditional Generative Adversarial Network (PCA-CGAN). …”
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  13. 6053
    AUROC Graphs of RF Model and ResNet.

    AUROC Graphs of RF Model and ResNet. by Chao Tang (10925)

    Published 2025
    “…This research addresses core challenges in ECG signal classification—extremely imbalanced data, significant individual physiological differences, and difficulties in long sequence fitting—by proposing a Principal Component Analysis-based Conditional Generative Adversarial Network (PCA-CGAN). …”
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  14. 6054
    PCA-CGAN Model Workflow Diagram.

    PCA-CGAN Model Workflow Diagram. by Chao Tang (10925)

    Published 2025
    “…This research addresses core challenges in ECG signal classification—extremely imbalanced data, significant individual physiological differences, and difficulties in long sequence fitting—by proposing a Principal Component Analysis-based Conditional Generative Adversarial Network (PCA-CGAN). …”
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  15. 6055
    Structural Diagrams of RF Model and ResNet Model.

    Structural Diagrams of RF Model and ResNet Model. by Chao Tang (10925)

    Published 2025
    “…This research addresses core challenges in ECG signal classification—extremely imbalanced data, significant individual physiological differences, and difficulties in long sequence fitting—by proposing a Principal Component Analysis-based Conditional Generative Adversarial Network (PCA-CGAN). …”
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  16. 6056
    PCA-CGAN model convergence curve.

    PCA-CGAN model convergence curve. by Chao Tang (10925)

    Published 2025
    “…This research addresses core challenges in ECG signal classification—extremely imbalanced data, significant individual physiological differences, and difficulties in long sequence fitting—by proposing a Principal Component Analysis-based Conditional Generative Adversarial Network (PCA-CGAN). …”
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  17. 6057
    PCA-CGAN Structure Diagram.

    PCA-CGAN Structure Diagram. by Chao Tang (10925)

    Published 2025
    “…This research addresses core challenges in ECG signal classification—extremely imbalanced data, significant individual physiological differences, and difficulties in long sequence fitting—by proposing a Principal Component Analysis-based Conditional Generative Adversarial Network (PCA-CGAN). …”
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  18. 6058
    Comparison of Model Five-classification Results.

    Comparison of Model Five-classification Results. by Chao Tang (10925)

    Published 2025
    “…This research addresses core challenges in ECG signal classification—extremely imbalanced data, significant individual physiological differences, and difficulties in long sequence fitting—by proposing a Principal Component Analysis-based Conditional Generative Adversarial Network (PCA-CGAN). …”
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  19. 6059
    PCAECG-GAN K-fold experiment table.

    PCAECG-GAN K-fold experiment table. by Chao Tang (10925)

    Published 2025
    “…This research addresses core challenges in ECG signal classification—extremely imbalanced data, significant individual physiological differences, and difficulties in long sequence fitting—by proposing a Principal Component Analysis-based Conditional Generative Adversarial Network (PCA-CGAN). …”
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  20. 6060
    PCA-CGAN Pseudocode Table.

    PCA-CGAN Pseudocode Table. by Chao Tang (10925)

    Published 2025
    “…This research addresses core challenges in ECG signal classification—extremely imbalanced data, significant individual physiological differences, and difficulties in long sequence fitting—by proposing a Principal Component Analysis-based Conditional Generative Adversarial Network (PCA-CGAN). …”
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