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Underwater image enhancement method based on dark channel prior algorithm and white balance

A dark channel prior, underwater image technology, applied in the field of image enhancement based on dark channel prior and white balance, can solve the problems of attenuation, contrast reduction, and low algorithm practicability.

Inactive Publication Date: 2016-07-13
TIANJIN UNIV
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Problems solved by technology

However, in the process of underwater imaging, due to the absorption of light by water bodies and the scattering of light by suspended particles, underwater images often have insufficient resolution and strong attenuation, resulting in color distortion in underwater images and a sharp drop in contrast. , at the same time, the low visibility underwater will blur the image, and the underwater image quality is often poor
Some of today's underwater image enhancement algorithms are either aimed at the color degradation caused by different attenuation of light of different wavelengths when it is transmitted underwater, or for the blurring effect of underwater images caused by the scattering of water molecules and suspended particles. At the same time, some algorithms still have problems of low practicability, such as: image acquisition equipment is expensive, a large number of input pictures are required, and the processing method does not consider the particularity of the underwater environment, etc. Therefore, the underwater image enhancement algorithm still needs further in-depth research
[0003] In 2006, Bazeille et al. [1] proposed a new type of image preprocessing algorithm, which consists of multiple filtering steps. First, high-pass homomorphic filtering is performed on the degraded image, and then wavelet transformation is used to remove noise. Anisotropic filtering further removes noise, then stretches the brightness of the image to a range of 0-255, and finally uses the average intensity of each color channel to equalize the color of the image, but this algorithm ignores the particularity of the underwater environment and takes a long time , not suitable for underwater image processing
In 2007, Hou et al. [2] combined the point spread function and the modulation transfer function, and used it to remove the blurring effect of underwater images, but the image acquisition equipment used by this algorithm is relatively complicated, and it is difficult to apply it in practice

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  • Underwater image enhancement method based on dark channel prior algorithm and white balance
  • Underwater image enhancement method based on dark channel prior algorithm and white balance
  • Underwater image enhancement method based on dark channel prior algorithm and white balance

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[0069] Underwater images are widely used in the fields of marine energy exploration and development, marine archaeology, marine environmental monitoring and protection, etc. However, due to the particularity of the underwater environment, the quality of the acquired images is often poor, making it difficult to use for subsequent image analysis and applications. Aiming at the blurring effect of underwater images caused by the scattering of light by water molecules and water particles, the present invention uses a dark channel prior algorithm and modifies the background light in combination with the special transmission characteristics of underwater light, so as to better achieve image enhancement , so that the picture clarity and contrast are improved, and the purpose of image optimization is achieved; for the degradation of object color during underwater imaging caused by different incident light attenuation, the present invention uses white balance to realize the removal of the...

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Abstract

The invention relates to an underwater image enhancement method based on dark channel prior algorithm and white balance. The method achieves better image enhancement through the modification of background light, improves the image definition and contrast, and achieves the purpose of image optimization. The employed technical scheme is that the method comprises the following steps: A, background light processing step; B, dark channel prior step: 1, obtaining a fined transmissivity t(x) after image cut and a defogged image through employing the dark channel prior algorithm; 2, exporting a depth map d(x) through the transmissivity t(x); 3, obtaining a needed mask; 4, extracting an AOI (area of interest); C, white balance step. The method is mainly used in an occasion of underwater image enhancement.

Description

technical field [0001] The invention relates to an underwater image enhancement method in the field of digital image processing, in particular to an underwater image enhancement method based on dark channel prior and white balance. Background technique [0002] With the continuous growth of population and the rapid development of economy, land resources can no longer meet the growing needs of people, and marine technology has increasingly become the focus of economic and technological competition around the world. Underwater image enhancement is an important part of underwater detection, and it also provides strong support for the study of marine related subjects. However, in the process of underwater imaging, due to the absorption of light by water bodies and the scattering of light by suspended particles, underwater images often have insufficient resolution and strong attenuation, resulting in color distortion in underwater images and a sharp drop in contrast. , and the l...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06T5/00
CPCG06T3/40G06T2207/30181G06T5/73
Inventor 徐岩马硕韦镇余王权威
Owner TIANJIN UNIV
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