Abstract
With increasing advancement of science and technology, remote sensing satellite imaging does not only monitor the Earth’s surface environment instantly and accurately but also helps to prevent destruction from inevitable disasters. The changing weather, e.g., cloudiness or haze formed from atmospheric suspended particles, results in low contrast satellite images, and partial information about Earth’s surface is lost. Therefore, this study proposes an effective dehazing method for one single satellite image, aiming to enhance the image contrast and filter out the region covered with haze, so as to reveal the lost information. First, the initial transmission map of the image is estimated using an Interval Type-2 Recurrent Fuzzy Cerebellar Model Articulation Controller (IT2RFCMAC) model. For the halo and color oversaturation resulted from the processing procedure, a bilateral filter and quadratic function nonlinear conversion are used in turn to refine the initial transmission map. For the estimation of atmospheric light, the first 1% brightest region is used as the color vector of atmospheric light. Finally, the refined transmission map and atmospheric light are used as the parameters for reconstructing the image. The experimental results show that the proposed satellite image dehazing method has good performance in the visibility detail and color contrast of the reconstructed image. In order to further validate the effectiveness of the proposed method, visual assessment and quantitative evaluation were implemented, respectively, and compared with the methods proposed by relevant scholars. The visual assessment and quantitative evaluation analysis demonstrated good results of the proposed approach.
Highlights
Remote sensing images play an important role in monitoring Earth’s surface environment for weather prediction, forest fire management, and agricultural purposes
This section indicates that the parameters used in the IT2RFCMAC model for this study include training time; thegroups, performance is bees, not generation good
This study proposes a dehazing method for satellite images
Summary
Remote sensing images play an important role in monitoring Earth’s surface environment for weather prediction, forest fire management, and agricultural purposes. Radar systems have been widely used in remote sensing, such as with synthetic aperture radar (SAR), since it produces high-resolution images which can be used in terrain segmentation [1,2,3,4]. Optical or infrared instruments are compromised by the effects of cloudiness and impacted by sunlight, especially haze in the atmosphere. To further alleviate these issues, improving the low contrast of image colors and increasing the visibility of observed objects is essential. Fattal et al [5] assumed that the transmission map was uncorrelated with the surface
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