Machine learning methods for the detection of polar lows in satellite mosaics: major issues and their solutions
Autor: | Krinitskiy, Mikhail, Verezemskaya, Polina, Elizarov, Svyatoslav, Gulev, Sergey |
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Rok vydání: | 2020 |
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Druh dokumentu: | Working Paper |
Popis: | Polar mesocyclones (PMCs) and their intense subclass polar lows (PLs) are relatively small atmospheric vortices that form mostly over the ocean in high latitudes. PLs can strongly influence deep ocean water formation since they are associated with strong surface winds and heat fluxes. Detection and tracking of PLs are crucial for understanding the climatological dynamics of PLs and for the analysis of their impacts on other components of the climatic system. At the same time, visual tracking of PLs is a highly time-consuming procedure that requires expert knowledge and extensive examination of source data. There are known procedures involving deep convolutional neural networks (DCNNs) for the detection of large-scale atmospheric phenomena in reanalysis data that demonstrate a high quality of detection. However, one cannot apply these procedures to satellite data directly since, unlike reanalyses, satellite products register all the scales of atmospheric vortices. It is also known that DCNNs were originally designed to be scale-invariant. This leads to the problem of filtering the scale of detected phenomena. There are other problems to be solved, such as a low signal-to-noise ratio of satellite data and an unbalanced number of negative (without PLs) and positive (where a PL is presented) classes in a satellite dataset. In our study, we propose a deep learning approach for the detection of PLs and PMCs in remote sensing data, which addresses class imbalance and scale filtering problems. We also outline potential solutions for other problems, along with promising improvements to the presented approach. Comment: 11 pages including references. 3 figures and 2 tables. To be published in the Proceedings of the All-Russian conference Climate change: causes, risks, consequences, problems of adaptation and management; CLIMATE-2019, November 26-28, Moscow, Russia; IOP Conference Series, Earth and Environmental Science, 2020 |
Databáze: | arXiv |
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