An Empirical Review on Image Dehazing Techniques for Change Detection of Land Cover

The turbulence effects in the weather like smog, haze, and fog severely degrade the visibility and performance of outdoor images by causing texture attenuation and color decay in brightness regions, making it difficult to identify object features in the images captured or scenes. The presence of haz...

Full description

Saved in:
Bibliographic Details
Published in2021 Asian Conference on Innovation in Technology (ASIANCON) pp. 1 - 9
Main Authors Kumar, CH.Mohan Sai, Valarmathi, R.S., Aswath, S.
Format Conference Proceeding
LanguageEnglish
Published IEEE 27.08.2021
Subjects
Computational modeling
Deep learning
Dehazing attributes
Image Enhancement
Image Fusion
Image segmentation
Land Use Land Cover
Real-time systems
Remote Sensing Images
Technological innovation
Texture attenuation
Training
Turbulence effects
Uncertainty
Online AccessGet full text

Cover

More Information
Summary:The turbulence effects in the weather like smog, haze, and fog severely degrade the visibility and performance of outdoor images by causing texture attenuation and color decay in brightness regions, making it difficult to identify object features in the images captured or scenes. The presence of haze can affect the techniques of preprocessing, segmentation, and classification of outdoor images similar to aerial and Remote Sensing images used in the Land Use/ Land Cover (LU/ LC) change analysis. To remove atmospheric effects, dark channel prior-based and learning-based dehazing techniques have been suggested. Prior-based algorithms have the disadvantage of oversaturating the sky region, resulting in artifacts, and longer execution time. Image dehazing techniques based on image enhancement, image fusion, image reconstruction, image segmentation, and deep learning-based approaches are discussed in this review article. The review also discusses the techniques for obtaining minimum haze removal parameters and assigning appropriate values to dehazing attributes. The effectiveness of various techniques was assessed with metrics that were specific to the datasets. In the end, future research directions for image dehazing are rendered.
DOI:10.1109/ASIANCON51346.2021.9544917