Semi-Supervised Facial Acne Segmentation Using Bidirectional Copy-Paste

Facial acne is a prevalent dermatological condition regularly observed in the general population. However, it is important to detect acne early as the condition can worsen if not treated. For this purpose, deep-learning-based methods have been proposed to automate detection, but acquiring acne train...

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Bibliographic Details
Published in:Diagnostics (Basel) 2024-05, Vol.14 (10), p.1040
Main Authors: Kim, Semin, Yoon, Huisu, Lee, Jongha
Format: Article
Language:English
Subjects:
Ablation
Acne
acne segmentation
bidirectional copy–paste
Deep learning
Diagnosis
Image segmentation
Machine learning
Medical research
Methods
Neural networks
semantic segmentation
Semantics
semi-supervised learning
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Summary:Facial acne is a prevalent dermatological condition regularly observed in the general population. However, it is important to detect acne early as the condition can worsen if not treated. For this purpose, deep-learning-based methods have been proposed to automate detection, but acquiring acne training data is not easy. Therefore, this study proposes a novel deep learning model for facial acne segmentation utilizing a semi-supervised learning method known as bidirectional copy-paste, which synthesizes images by interchanging foreground and background parts between labeled and unlabeled images during the training phase. To overcome the lower performance observed in the labeled image training part compared to the previous methods, a new framework was devised to directly compute the training loss based on labeled images. The effectiveness of the proposed method was evaluated against previous semi-supervised learning methods using images cropped from facial images at acne sites. The proposed method achieved a Dice score of 0.5205 in experiments utilizing only 3% of labels, marking an improvement of 0.0151 to 0.0473 in Dice score over previous methods. The proposed semi-supervised learning approach for facial acne segmentation demonstrated an improvement in performance, offering a novel direction for future acne analysis.
ISSN:2075-4418
2075-4418
DOI:10.3390/diagnostics14101040