Stacking Ensemble Learning in Deep Domain Adaptation for Ophthalmic Image Classification

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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

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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 -