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Automatic Recognition of Oil Spills Using Neural Networks and Classic Image Processing
Oil spill events are one of the major risks to marine and coastal ecosystems and, therefore, early detection is crucial for minimizing environmental contamination. Oil spill events have a unique appearance in satellite images created by Synthetic Aperture Radar (SAR) technology, because they are byproducts of the oil’s influence on the surface capillary, causing short gravity waves that change the radar’s backscatter intensity and result in unique dark formations in the SAR images. This signature’s appearance can be utilized to monitor and automatically detect oil spills in SAR images. Although SAR sensors capture these dark formations, which are likely connected to oil spills, it is hard to distinguish them from ships, ocean, land, and other oil-like formations. Most of the approaches for automatic detection and classification of oil spill events employ semantic segmentation with convolutional neural networks (CNNs), using a custom-made dataset. However, these approaches struggle to distinguish between oil spills and spots that resemble them. Therefore, developing a tailor-made sequence of methods for the oil spill recognition challenge is an essential need, and should include examination and choice of the most effective preprocessing tools, CNN models, and datasets that are specifically effective for the oil spill detection challenge. This paper suggests a new sequence of methods for accurate oil spill detection. First, a SAR image filtering technique was used for emphasizing the unique physical characteristics and appearance of oil spills. Each filter’s impact on leading CNN architectures performances was examined. Then, a method of a model ensemble was used, aiming to reduce the generalization error. All experiments demonstrated in this paper confirm that using the sequence suggested, in comparison to the common formula, leads to a 4.2% of improvement in the intersection over union score (IoU) for oil spill detection, and a 9.3% of improvement in the mean IoU among several relevant classes.
Automatic Recognition of Oil Spills Using Neural Networks and Classic Image Processing
Oil spill events are one of the major risks to marine and coastal ecosystems and, therefore, early detection is crucial for minimizing environmental contamination. Oil spill events have a unique appearance in satellite images created by Synthetic Aperture Radar (SAR) technology, because they are byproducts of the oil’s influence on the surface capillary, causing short gravity waves that change the radar’s backscatter intensity and result in unique dark formations in the SAR images. This signature’s appearance can be utilized to monitor and automatically detect oil spills in SAR images. Although SAR sensors capture these dark formations, which are likely connected to oil spills, it is hard to distinguish them from ships, ocean, land, and other oil-like formations. Most of the approaches for automatic detection and classification of oil spill events employ semantic segmentation with convolutional neural networks (CNNs), using a custom-made dataset. However, these approaches struggle to distinguish between oil spills and spots that resemble them. Therefore, developing a tailor-made sequence of methods for the oil spill recognition challenge is an essential need, and should include examination and choice of the most effective preprocessing tools, CNN models, and datasets that are specifically effective for the oil spill detection challenge. This paper suggests a new sequence of methods for accurate oil spill detection. First, a SAR image filtering technique was used for emphasizing the unique physical characteristics and appearance of oil spills. Each filter’s impact on leading CNN architectures performances was examined. Then, a method of a model ensemble was used, aiming to reduce the generalization error. All experiments demonstrated in this paper confirm that using the sequence suggested, in comparison to the common formula, leads to a 4.2% of improvement in the intersection over union score (IoU) for oil spill detection, and a 9.3% of improvement in the mean IoU among several relevant classes.
Automatic Recognition of Oil Spills Using Neural Networks and Classic Image Processing
Rotem Rousso (author) / Neta Katz (author) / Gull Sharon (author) / Yehuda Glizerin (author) / Eitan Kosman (author) / Assaf Shuster (author)
2022
Article (Journal)
Electronic Resource
Unknown
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