Underwater image enhancement based on color-line model and homomorphic filtering

AbstractUnderwater color image processing has received considerable attention in the last few decades for underwater image-based observation. In this article, a novel underwater image enhancement approach using combining schemes is presented. This study aims to improve color correction under nonuniform illumination conditions. The objective of this approach is threefold. First, to correct nonuniform illumination and enhance contrast in the image, homomorphic filtering is used. Second, the color contrast of an image is equalized by a contrast stretching algorithm in RGB (red, green and blue) color space. Finally, the noise amplified after the previous two steps is suppressed by using wavelet domain denoising based on threshold processing. The comparison of experimental results shows that the proposed approach of underwater image enhancement can correct the color imbalance and is especially suitable for processing underwater color images that have nonuniform lighting.

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Underwater image restoration based on modified color-line model

Journal of Electronic Imaging ◽

10.1117/1.jei.30.2.023010 ◽

2021 ◽

Vol 30 (02) ◽

Author(s):

Xinbin Li ◽

Qian Lou ◽

Haifeng Yu ◽

Song Han ◽

Lei Yan

Keyword(s):

Image Restoration ◽

Color Line ◽

Line Model ◽

Underwater Image

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PERBANDINGAN METODE HOMOMORPHIC FILTERING DAN METODE CONTRAST STRECHING UNTUK PERBAIKAN KUALITAS CITRA UNDERWATER

KOMIK (Konferensi Nasional Teknologi Informasi dan Komputer) ◽

10.30865/komik.v2i1.928 ◽

2018 ◽

Vol 2 (1) ◽

Author(s):

Adi Mora Lubis ◽

Nelly Astuti Hasibuan ◽

Imam Saputra

Keyword(s):

Digital Image ◽

Water Environment ◽

Repair Process ◽

Image Process ◽

Two Dimensional ◽

Two Dimensional Image ◽

Underwater Image ◽

Homomorphic Filtering ◽

Contrast Stretching

Digital imagery is a two-dimensional image process through a digital computer that is used to manipulate and modify images in various ways. Photos are examples of two-dimensional images that can be processed easily. Each photo in the form of a digital image can be processed through a specific software. In the water environment, the light factor greatly influences the results of the quality of the image obtained. With the deepening of underwater shooting, the results obtained will be the darker the quality of the underwater image. . uneven lighting and bluish tones. One of the factors that influence the recognition results in pattern recognition is the quality of the image that is inputted. The image acquired from the source does not always have good quality. The process of repairing digital images that experience interference in lighting. The lighting repair process uses homomorphic filtering and uses contrast striching and will compare the quality of both methods and test to prove the results of image quality between homomorphic filtering and contrast streching. Until later the results of both methods can be seen which is better. homomorphic filtering and contrast stretching can produce image improvements with pretty good performance.Keywords: Digital Image, Underwater Image, Homomorphic Filtering, Contrast Streching, Matlab R2010a

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Underwater Image Enhancement Method Combining color and Luminance

Recent Advances in Electrical & Electronic Engineering (Formerly Recent Patents on Electrical & Electronic Engineering) ◽

10.2174/2352096513999201026225829 ◽

2020 ◽

Vol 13 ◽

Author(s):

ZHAO Baiting ◽

WANG Feng ◽

JIA Xiaofen ◽

GUO Yongcun ◽

WANG Chengjun

Keyword(s):

Image Enhancement ◽

Color Space ◽

Low Frequency ◽

Brightness Enhancement ◽

Color Distortion ◽

Underwater Image ◽

Enhancement Method ◽

Frequency Components ◽

Image Contour ◽

Objective Indicators

Background:: Aiming at the problems of color distortion, low clarity and poor visibility of underwater image caused by complex underwater environment, a wavelet fusion method UIPWF for underwater image enhancement is proposed. Methods:: First of all, an improved NCB color balance method is designed to identify and cut the abnormal pixels, and balance the color of R, G and B channels by affine transformation. Then, the color correction map is converted to CIELab color space, and the L component is equalized with contrast limited adaptive histogram to obtain the brightness enhancement map. Finally, different fusion rules are designed for low-frequency and high-frequency components, the pixel level wavelet fusion of color balance image and brightness enhancement image is realized to improve the edge detail contrast on the basis of protecting the underwater image contour. Results:: The experiments demonstrate that compared with the existing underwater image processing methods, UIPWF is highly effective in the underwater image enhancement task, improves the objective indicators greatly, and produces visually pleasing enhancement images with clear edges and reasonable color information. Conclusion:: The UIPWF method can effectively mitigate the color distortion, improve the clarity and contrast, which is applicable for underwater image enhancement in different environments.

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Underwater Image Enhancement Techniques: A Review

International Journal for Research in Applied Science and Engineering Technology ◽

10.22214/ijraset.2017.8223 ◽

2017 ◽

Vol V (VIII) ◽

pp. 1574-1580 ◽

Cited By ~ 1

Author(s):

Priyanka P. Madhumatke

Keyword(s):

Image Enhancement ◽

Underwater Image

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Underwater Image Enhancement Based on Local Contrast Correction and Multi-Scale Fusion

Journal of Marine Science and Engineering ◽

10.3390/jmse9020225 ◽

2021 ◽

Vol 9 (2) ◽

pp. 225

Author(s):

Farong Gao ◽

Kai Wang ◽

Zhangyi Yang ◽

Yejian Wang ◽

Qizhong Zhang

Keyword(s):

Image Enhancement ◽

Local Contrast ◽

Fusion Method ◽

Formation Model ◽

Low Contrast ◽

White Balance ◽

Multi Scale ◽

Color Distortion ◽

Underwater Image ◽

Enhancement Method

In this study, an underwater image enhancement method based on local contrast correction (LCC) and multi-scale fusion is proposed to resolve low contrast and color distortion of underwater images. First, the original image is compensated using the red channel, and the compensated image is processed with a white balance. Second, LCC and image sharpening are carried out to generate two different image versions. Finally, the local contrast corrected images are fused with sharpened images by the multi-scale fusion method. The results show that the proposed method can be applied to water degradation images in different environments without resorting to an image formation model. It can effectively solve color distortion, low contrast, and unobvious details of underwater images.

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Underwater Image Enhancement Method via the Fusion of Retinex and Pulse Coupled Neural Network

2020 Chinese Automation Congress (CAC) ◽

10.1109/cac51589.2020.9327765 ◽

2020 ◽

Author(s):

Zhengzhong Gao ◽

Junjun Chen ◽

Lixing Yang ◽

Ruixing Lv ◽

Haipeng Li ◽

...

Keyword(s):

Neural Network ◽

Image Enhancement ◽

Pulse Coupled Neural Network ◽

Underwater Image ◽

Enhancement Method

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Underwater Image Enhancement Based on Multi-Scale Fusion and Global Stretching of Dual-Model

Mathematics ◽

10.3390/math9060595 ◽

2021 ◽

Vol 9 (6) ◽

pp. 595

Author(s):

Huajun Song ◽

Rui Wang

Keyword(s):

Image Enhancement ◽

Poor Performance ◽

Weight Coefficient ◽

Color Contrast ◽

Dual Model ◽

Spatial Cues ◽

Multi Scale ◽

Imaging Model ◽

Underwater Image ◽

Enhancement Method

Aimed at the two problems of color deviation and poor visibility of the underwater image, this paper proposes an underwater image enhancement method based on the multi-scale fusion and global stretching of dual-model (MFGS), which does not rely on the underwater optical imaging model. The proposed method consists of three stages: Compared with other color correction algorithms, white-balancing can effectively eliminate the undesirable color deviation caused by medium attenuation, so it is selected to correct the color deviation in the first stage. Then, aimed at the problem of the poor performance of the saliency weight map in the traditional fusion processing, this paper proposed an updated strategy of saliency weight coefficient combining contrast and spatial cues to achieve high-quality fusion. Finally, by analyzing the characteristics of the results of the above steps, it is found that the brightness and clarity need to be further improved. The global stretching of the full channel in the red, green, blue (RGB) model is applied to enhance the color contrast, and the selective stretching of the L channel in the Commission International Eclairage-Lab (CIE-Lab) model is implemented to achieve a better de-hazing effect. Quantitative and qualitative assessments on the underwater image enhancement benchmark dataset (UIEBD) show that the enhanced images of the proposed approach achieve significant and sufficient improvements in color and visibility.

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