Atmosphere (Feb 2024)

Dugs-UNet: A Novel Deep Semantic Segmentation Approach to Convection Detection Based on FY-4A Geostationary Meteorological Satellite

  • Yan Li,
  • Xiaochang Shi,
  • Guangbo Deng,
  • Xutao Li,
  • Fenglin Sun,
  • Yanfeng Zhang,
  • Danyu Qin

DOI
https://doi.org/10.3390/atmos15030243
Journal volume & issue
Vol. 15, no. 3
p. 243

Abstract

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Severe convection is a disastrous mesoscale weather system. The early detection of such systems is very important for saving peoples’ lives and properties. Previous studies address the issue mainly based on thresholding methods, which are not robust and accurate enough. In this paper, we propose a novel semantic segmentation method (Dugs-UNet) to solve the problem. Our method is based on the well-known U-Net framework. As convective clouds mimic fluids, its detection faces two important challenges. First, the shape and boundary features of clouds need to be carefully exploited. Second, the positive and negative samples for convection detection are very imbalanced. To address the two challenges, our method was carefully developed. Regarding the importance of the shape and boundary features for convective target detection, we introduce a shape stream module to extract these features. Also, a data-dependent upsample operation is adopted in the decoder of U-Net to effectively utilize the features. This is one of our contributions. To address the imbalance issue for convective target detection, the a focal loss function is employed to train our method, which is another contribution. Experimental results of 2018 Fengyun-4A satellite observations in China demonstrate the effectiveness of the proposed method. Compared to conventional thresholding-based methods and deep semantic segmentation algorithms such as SegNet, PSPNet, DeepLav-v3+ and U-Net, the proposed approach performs the best.

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