Image Enhancement for Surveillance Video of Coal Mining Face Based on Single-Scale Retinex Algorithm Combined with Bilateral Filtering

Si, Lina; Wang, Zhongbin; Xu, Rongxin; Tan, Chao; Liu, Xinhua; Xu, Jing

doi:10.3390/sym9060093

Cited by 18 publications

(17 citation statements)

References 38 publications

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“…To further verify the advantages of the proposed method, the performance of the proposed method was compared with two histogram based techniques, HE [8] and CLAHE [11]; three Retinex theory based techniques, SSR [13], MSR [17] and SSR + BF [14]; and two transform domain based techniques, HF [19] and UIC [21]. The most representative image was selected from each type of image (four types) as the test image for further analysis.…”

Section: Comparison With Other Methodsmentioning

confidence: 99%

“…In this article, some of the images in the LIVE database are used as training sample. As different methods score the image quality in different ways, and the order of magnitude is different, the image quality ratio R is adopted to verify the effectiveness of the method proposed in this paper, which is represented by Q After Befor Q R  (14) where QBefor and QAfter represent the pre-enhancement and post-enhancement image quality scores under the same image quality assessment method, respectively. The results are shown in the following figures.…”

Section: Image Quality Analysismentioning

confidence: 99%

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Image Enhancement for Inspection of Cable Images Based on Retinex Theory and Fuzzy Enhancement Method in Wavelet Domain

Huang

et al. 2018

Symmetry

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Inspection images of power transmission line provide vision interaction for the operator and the environmental perception for the cable inspection robot (CIR). However, inspection images are always contaminated by severe outdoor working conditions such as uneven illumination, low contrast, and speckle noise. Therefore, this paper proposes a novel method based on Retinex and fuzzy enhancement to improve the image quality of the inspection images. A modified multi-scale Retinex (MSR) is proposed to compensate the uneven illumination by processing the low frequency components after wavelet decomposition. Besides, a fuzzy enhancement method is proposed to perfect the edge information and improve contrast by processing the high frequency components. A noise reduction procedure based on soft threshold is used to avoid the noise amplification. Experiments on the self-built standard test dataset show that the algorithm can improve the image quality by 3–4 times. Compared with several other methods, the experimental results demonstrate that the proposed method can obtain better enhancement performance with more homogeneous illumination and higher contrast. Further research will focus on improving the real-time performance and parameter adaptation of the algorithm.

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Section: Comparison With Other Methodsmentioning

confidence: 99%

Section: Image Quality Analysismentioning

confidence: 99%

Image Enhancement for Inspection of Cable Images Based on Retinex Theory and Fuzzy Enhancement Method in Wavelet Domain

Huang

et al. 2018

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“…Visual inspection has been extensively investigated and is a well-established approach for a myriad of engineering applications. In dynamic scenes, visual inspection helps to improve the efficiency of monitoring tasks, but low visual quality may undermine its effectiveness [1][2][3][4]. For instance, in manufacturing environments, the object under inspection moves along the assembly line during exposure time, resulting in motion blur.…”

Section: Introductionmentioning

confidence: 99%

Blind Deblurring of Saturated Images Based on Optimization and Deep Learning for Dynamic Visual Inspection on the Assembly Line

Wang

Liu

2019

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Image deblurring can improve visual quality and mitigates motion blur for dynamic visual inspection. We propose a method to deblur saturated images for dynamic visual inspection by applying blur kernel estimation and deconvolution modeling. The blur kernel is estimated in a transform domain, whereas the deconvolution model is decoupled into deblurring and denoising stages via variable splitting. Deblurring predicts the mask specifying saturated pixels, which are then discarded, and denoising is learned via the fast and flexible denoising network (FFDNet) convolutional neural network (CNN) at a wide range of noise levels. Hence, the proposed deconvolution model provides the benefits of both model optimization and deep learning. Experiments demonstrate that the proposed method suitably restores visual quality and outperforms existing approaches with good score improvements.

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“…On the other hand, most haze removal research assumes that the atmospheric light intensity is uniform, and A is estimated as a constant. According to Equation (9), if the input image has sufficient illumination, which means A = 255 = U J = A J , the proposed model is equivalent to the dehaze model. Nevertheless, the light intensity of a real scene is always nonuniform.…”

Section: Relationship With Retinex Model and Dehaze Modelmentioning

confidence: 99%

“…Therefore, Jobson continued his research and proposed the MSR (multiscale Retinex) algorithm [5], which has been the most widely used in recent years. Most improved Retinex algorithms [6][7][8][9][10][11][12][13][14][15] are based on MSR. However, the Gaussian filtering used by the MSR algorithm calculates a large number of floating data, which makes the algorithm take too much time.…”

Section: Introductionmentioning

confidence: 99%

Enhancement of Low Contrast Images Based on Effective Space Combined with Pixel Learning

Han

2017

Information

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Images captured in bad conditions often suffer from low contrast. In this paper, we proposed a simple, but efficient linear restoration model to enhance the low contrast images. The model's design is based on the effective space of the 3D surface graph of the image. Effective space is defined as the minimum space containing the 3D surface graph of the image, and the proportion of the pixel value in the effective space is considered to reflect the details of images. The bright channel prior and the dark channel prior are used to estimate the effective space, however, they may cause block artifacts. We designed the pixel learning to solve this problem. Pixel learning takes the input image as the training example and the low frequency component of input as the label to learn (pixel by pixel) based on the look-up table model. The proposed method is very fast and can restore a high-quality image with fine details. The experimental results on a variety of images captured in bad conditions, such as nonuniform light, night, hazy and underwater, demonstrate the effectiveness and efficiency of the proposed method.

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Image Enhancement for Surveillance Video of Coal Mining Face Based on Single-Scale Retinex Algorithm Combined with Bilateral Filtering

Cited by 18 publications

References 38 publications

Image Enhancement for Inspection of Cable Images Based on Retinex Theory and Fuzzy Enhancement Method in Wavelet Domain

Image Enhancement for Inspection of Cable Images Based on Retinex Theory and Fuzzy Enhancement Method in Wavelet Domain

Blind Deblurring of Saturated Images Based on Optimization and Deep Learning for Dynamic Visual Inspection on the Assembly Line

Enhancement of Low Contrast Images Based on Effective Space Combined with Pixel Learning

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