Atmosphere (May 2024)

Cloud Top Height Retrieval from FY-4A Data: A Residual Module and Genetic Algorithm Approach

  • Tao Li,
  • Niantai Chen,
  • Fa Tao,
  • Shuzhen Hu,
  • Jianjun Xue,
  • Rui Han,
  • Di Wu

DOI
https://doi.org/10.3390/atmos15060643
Journal volume & issue
Vol. 15, no. 6
p. 643

Abstract

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This paper proposes a ResGA-Net algorithm for cloud top height (CTH) retrieval using FY-4A satellite data. The algorithm utilizes genetic algorithms for data selection and employs a residual module-based neural network for modeling. It takes the spectral channel data from the FY-4A satellite as input features and uses CTH extracted from ground-based millimeter-wave cloud radar reflectivity as the target. By combining the large observation scale of the FY-4A satellite and the high accuracy of ground-based cloud radar observations, the model can generate satellite CTH products with higher precision. To validate the effectiveness of the algorithm, experiments were conducted using data from the Beijing area spanning from January 2020 to January 2022. The experimental results show that the metrics of the proposed ResGA-Net outperform those of various contrastive algorithms, and compared to the original FY-4A CTH product, the RMSE and MAE have decreased by 37.89% and 34.77%, while the PCC and SRCC have increased by 11.17% and 9.47%, respectively, demonstrating the superiority of the proposed method presented in this paper.

Keywords