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Analysis of the Generalization Ability of Defogging Algorithms on RICE Remote Sensing Images

Sensors, ISSN: 1424-8220, Vol: 24, Issue: 14
2024
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    Citations
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    Usage
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    Captures
  • 2
    Mentions
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    Social Media
Metric Options:   Counts1 Year3 Year

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  • Captures
    1
  • Mentions
    2
    • Blog Mentions
      1
      • Blog
        1
    • News Mentions
      1
      • 1

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Study Data from Shaanxi University of Technology Provide New Insights into Sensor Research (Analysis of the Generalization Ability of Defogging Algorithms on RICE Remote Sensing Images)

2024 JUL 31 (NewsRx) -- By a News Reporter-Staff News Editor at Math Daily News -- A new study on sensor research is now available.

Article Description

This paper explores the generalization ability of defogging algorithms on RICE (A Remote Sensing Image Dataset for Cloud Removal) remotely sensed images. RICE is a dataset of remotely sensed images used for removing clouds, allowing the researcher to better evaluate the performance of defogging algorithms for cloud removal from remotely sensed images. In this paper, four classical defogging algorithms, including AOD-Net, FFA-Net, dark channel prior, and DehazeFormer, are selected and applied to the task of de-cloud in RICE remote sensing images. The performance of these algorithms on the RICE dataset is analyzed by comparing the experimental results, and their differences, advantages, and disadvantages in dealing with de-clouded remote sensing images are explored. The experimental results show that the four defogging algorithms are capable of performing well on uniform thin cloud images, but there is a color distortion and the performance is weak when it comes to inhomogeneous clouds as well as thick clouds. So, the generalization ability of the algorithms is weak when the defogging algorithms are applied to the problem of cloud removal. Finally, this paper proposes improvement ideas for the de-cloud problem of RICE remote sensing images and looks forward to possible future research directions.

Bibliographic Details

Miao, Guisheng; Zhang, Zhongpeng; Wang, Zhanbei

MDPI AG

Chemistry; Computer Science; Physics and Astronomy; Biochemistry, Genetics and Molecular Biology; Engineering

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