Single Remote Sensing Image Dehazing Using Robust Light-Dark Prior

Single Remote Sensing Image Dehazing Using Robust Light-Dark Prior

Haze, generated by floaters (semitransparent clouds, fog, snow, etc.) in the atmosphere, can significantly degrade the utilization of remote sensing images (RSIs). However, the existing techniques for single image dehazing rarely consider that the haze is superimposed by floaters and shadow, and the...

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Veröffentlicht in:Remote sensing (Basel, Switzerland) Switzerland), 2023-02, Vol.15 (4), p.938
Hauptverfasser: Ning, Jin, Zhou, Yanhong, Liao, Xiaojuan, Duo, Bin
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Cameras
Clouds
Comparative analysis
Datasets
Fog
Haze
Identification and classification
image dehazing
Image processing
Landsat
Light
Methods
Parameter estimation
patch size
Remote sensing
remote sensing image
Remote sensing systems
Robustness
Shadows
Technology application
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Beschreibung
Zusammenfassung:Haze, generated by floaters (semitransparent clouds, fog, snow, etc.) in the atmosphere, can significantly degrade the utilization of remote sensing images (RSIs). However, the existing techniques for single image dehazing rarely consider that the haze is superimposed by floaters and shadow, and they often aggravate the degree of the haze shadow and dark region. In this paper, a single RSI dehazing method based on robust light-dark prior (RLDP) is proposed, which utilizes the proposed hybrid model and is robust to outlier pixels. In the proposed RLDP method, the haze is first removed by a robust dark channel prior (RDCP). Then, the shadow is removed with a robust light channel prior (RLCP). Further, a cube root mean enhancement (CRME)-based stable state search criterion is proposed for solving the difficult problem of patch size setting. The experiment results on benchmark and Landsat 8 RSIs demonstrate that the RLDP method could effectively remove haze.
ISSN:2072-4292
2072-4292
DOI:10.3390/rs15040938