Segmentation of Oil Spills on Side-Looking Airborne Radar Imagery with Autoencoders
Copyright policy )Segmentation of Oil Spills on Side-Looking Airborne Radar Imagery with Autoencoders
In this work, we use deep neural autoencoders to segment oil spills from Side-Looking Airborne Radar (SLAR) imagery. Synthetic Aperture Radar (SAR) has been much exploited for ocean surface monitoring, especially for oil pollution detection, but few approaches in the literature use SLAR. Our sensor consists of two SAR antennas mounted on an aircraft, enabling a quicker response than satellite sensors for emergency services when an oil spill occurs. Experiments on TERMA radar were carried out to detect oil spills on Spanish coasts using deep selectional autoencoders and RED-nets (very deep Residual Encoder-Decoder Networks). Different configurations of these networks were evaluated and the best topology significantly outperformed previous approaches, correctly detecting 100% of the spills and obtaining an F 1 score of 93.01% at the pixel level. The proposed autoencoders perform accurately in SLAR imagery that has artifacts and noise caused by the aircraft maneuvers, in different weather conditions and with the presence of look-alikes due to natural phenomena such as shoals of fish and seaweed.
oil spill detection; side-looking airborne radar; neural networks; supervised learning; radar detection, TP1-1185, supervised learning, deep neural autoencoders, Article, oil spill detection, Radar detection, maritime surveillance, Side-looking airborne radar, radar detection, side-looking airborne radar, Chemical technology, Deep learning, SLAR, neural networks, Oil spill detection, Lenguajes y Sistemas Informáticos, Neural networks, Supervised learning, Ingeniería de Sistemas y Automática
oil spill detection; side-looking airborne radar; neural networks; supervised learning; radar detection, TP1-1185, supervised learning, deep neural autoencoders, Article, oil spill detection, Radar detection, maritime surveillance, Side-looking airborne radar, radar detection, side-looking airborne radar, Chemical technology, Deep learning, SLAR, neural networks, Oil spill detection, Lenguajes y Sistemas Informáticos, Neural networks, Supervised learning, Ingeniería de Sistemas y Automática
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