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Stacking Ensemble Learning in Deep Domain Adaptation for Ophthalmic Image Classification

Research output: Contribution to conferencePaperpeer-review

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Stacking Ensemble Learning in Deep Domain Adaptation for Ophthalmic Image Classification. / Madadi, Yeganeh ; Seydi, Vahid; Sun, Jian et al.
2021.

Research output: Contribution to conferencePaperpeer-review

HarvardHarvard

Madadi, Y, Seydi, V, Sun, J, Chaum, E & Yousefi2, S 2021, 'Stacking Ensemble Learning in Deep Domain Adaptation for Ophthalmic Image Classification'. <https://link.springer.com/chapter/10.1007/978-3-030-87000-3_18>

APA

Madadi, Y., Seydi, V., Sun, J., Chaum, E., & Yousefi2, S. (2021). Stacking Ensemble Learning in Deep Domain Adaptation for Ophthalmic Image Classification. https://link.springer.com/chapter/10.1007/978-3-030-87000-3_18

CBE

Madadi Y, Seydi V, Sun J, Chaum E, Yousefi2 S. 2021. Stacking Ensemble Learning in Deep Domain Adaptation for Ophthalmic Image Classification.

MLA

Madadi, Yeganeh et al. Stacking Ensemble Learning in Deep Domain Adaptation for Ophthalmic Image Classification. Paper, 2021.

VancouverVancouver

Madadi Y, Seydi V, Sun J, Chaum E, Yousefi2 S. Stacking Ensemble Learning in Deep Domain Adaptation for Ophthalmic Image Classification. 2021.

Author

Madadi, Yeganeh ; Seydi, Vahid ; Sun, Jian et al. / Stacking Ensemble Learning in Deep Domain Adaptation for Ophthalmic Image Classification.

RIS

TY - CONF

T1 - Stacking Ensemble Learning in Deep Domain Adaptation for Ophthalmic Image Classification

AU - Madadi, Yeganeh

AU - Seydi, Vahid

AU - Sun, Jian

AU - Chaum, Edward

AU - Yousefi2, Siamak

PY - 2021/9/27

Y1 - 2021/9/27

N2 - Domain adaptation is an attractive approach given the availability of a large amount of labeled data with similar properties but different domains. It is effective in image classification tasks where obtaining sufficient label data is challenging. We propose a novel method, named SELDA, for stacking ensemble learning via extending three domain adaptation methods for effectively solving real-world problems. The major assumption is that when base domain adaptation models are combined, we can obtain a more accurate and robust model by exploiting the ability of each of the base models. We extend Maximum Mean Discrepancy (MMD), Low-rank coding, and Correlation Alignment (CORAL) to compute the adaptation loss in three base models. Also, we utilize a two-fully connected layer network as a meta-model to stack the output predictions of these three well-performing domain adaptation models to obtain high accuracy in ophthalmic image classification tasks. The experimental results using Age-Related Eye Disease Study (AREDS) benchmark ophthalmic dataset demonstrate the effectiveness of the proposed model.

AB - Domain adaptation is an attractive approach given the availability of a large amount of labeled data with similar properties but different domains. It is effective in image classification tasks where obtaining sufficient label data is challenging. We propose a novel method, named SELDA, for stacking ensemble learning via extending three domain adaptation methods for effectively solving real-world problems. The major assumption is that when base domain adaptation models are combined, we can obtain a more accurate and robust model by exploiting the ability of each of the base models. We extend Maximum Mean Discrepancy (MMD), Low-rank coding, and Correlation Alignment (CORAL) to compute the adaptation loss in three base models. Also, we utilize a two-fully connected layer network as a meta-model to stack the output predictions of these three well-performing domain adaptation models to obtain high accuracy in ophthalmic image classification tasks. The experimental results using Age-Related Eye Disease Study (AREDS) benchmark ophthalmic dataset demonstrate the effectiveness of the proposed model.

KW - Stacking ensemble learning

KW - Domain adaptation

KW - Ophthalmic image classification

M3 - Paper

ER -