Semi-supervised learning for marine anomaly detection on board satellites
- URL: http://arxiv.org/abs/2504.03705v1
- Date: Wed, 26 Mar 2025 13:23:34 GMT
- Title: Semi-supervised learning for marine anomaly detection on board satellites
- Authors: Luca Marini,
- Abstract summary: Marine anomalies can be identified by applying trained deep learning (DL) models on satellite imagery.<n>DL models often require a large volume of labeled data for training, which can be both costly and time-consuming.<n>In this project, we study the performance of a semi-supervised algorithm for semantic segmentation.
- Score: 0.0
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: Aquatic bodies face numerous environmental threats caused by several marine anomalies. Marine debris can devastate habitats and endanger marine life through entanglement, while harmful algal blooms can produce toxins that negatively affect marine ecosystems. Additionally, ships may discharge oil or engage in illegal and overfishing activities, causing further harm. These marine anomalies can be identified by applying trained deep learning (DL) models on multispectral satellite imagery. Furthermore, the detection of other anomalies, such as clouds, could be beneficial in filtering out irrelevant images. However, DL models often require a large volume of labeled data for training, which can be both costly and time-consuming, particularly for marine anomaly detection where expert annotation is needed. A potential solution is the use of semi-supervised learning methods, which can also utilize unlabeled data. In this project, we implement and study the performance of FixMatch for Semantic Segmentation, a semi-supervised algorithm for semantic segmentation. Firstly, we found that semi-supervised models perform best with a high confidence threshold of 0.9 when there is a limited amount of labeled data. Secondly, we compare the performance of semi-supervised models with fully-supervised models under varying amounts of labeled data. Our findings suggest that semi-supervised models outperform fully-supervised models with limited labeled data, while fully-supervised models have a slightly better performance with larger volumes of labeled data. We propose two hypotheses to explain why fully-supervised models surpass semi-supervised ones when a high volume of labeled data is used. All of our experiments were conducted using a U-Net model architecture with a limited number of parameters to ensure compatibility with space-rated hardware.
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