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Quick self-adaption optimizing method for digital image at low illumination level
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Al technical title is built by PatSnap Al team. It summarizes the technical point description of the patent document.
A digital image and optimization technology, applied in the field of image processing, can solve the problems of not being able to use the video field, time-consuming, unfavorable real-time processing of color images, etc.
Inactive Publication Date: 2012-11-28
CHONGQING MEDICAL UNIVERSITY
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However, this method needs to be realized by changing the value of the transformation parameterDelta of the Zadeh-X transformation one by one, which takes a long time, is not conducive to the real-time processing of color images, and cannot be used in the video field.
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Embodiment 1
[0042] Such as figure 1 The flow shown: a fast adaptive optimization method for digital images under low illumination, including the following steps:
[0043] Step 1: Select a digital image acquired in low light figure 2 (a) is the source image S, obtain the chrominance values R(x, y), G(x, y), and B(x, y) of the red, green and blue components of each pixel of the source image S, According to the method in the Chinese patent "High-resolution detection method for image grayscale / chromaticity information for underlying image mining" (patent number: 200610054324.9), the chromaticity spectrum of the three components of red, green and blue is made, and each The luminance value L(x, y) of pixel points obtains the average luminance AL=6.7573 of the source image S;
[0044] Step 2: Generate a standardized image B of the source image S, and the standardized image B can be obtained by the following methods:
[0045] (1) Search for the left boundary values Leftr, Leftg, Leftb and...
Embodiment 2
[0064] This embodiment is roughly the same as Embodiment 1, the difference is that the source image S of this embodiment is such as image 3 As shown in (a), the calculated average brightness is 47.2394; the final optimized image is as follows image 3 As shown in (b), the average brightness is 106.4164. Compared with the source image, the average brightness of the optimized image has been improved, and the quality is also better from the perspective of human visual effect.
Embodiment 3
[0066] The source image S used in this embodiment is as Figure 4 As shown in (a), it is a grayscale image, and its fast adaptive optimization process is as follows figure 1 shown, including the following steps:
[0067] Step 1: Select a digital image acquired in low light Figure 4 (a) is the source image S, because the chrominance values R(x, y), G(x, y), and B(x, y) of the red, green, and blue components of the grayscale image are the same, according to The method in the Chinese patent "High-resolution detection method for image grayscale / chromaticity information for underlying image mining" (Patent No.: 200610054324.9) makes the grayscale spectrum of the image and calculates the brightness value L of each pixel (x, y), obtain the average brightness AL=8.8283 of the source image S;
[0068] Step 2: Generate a standardized image B of the source image S, and the standardized image B can be obtained by the following methods:
[0069] (1) respectively search the left boun...
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Abstract
The invention discloses a quick self-adaption optimizing method for a digital image at a low illumination level. The method comprises the following steps of: selecting the digital image acquired at the low illumination level as a source image, acquiring chromatic values of red, green and blue components of each pixel point of the source image to make chroma spectrum of the red, green and blue components, and calculating the mean brightness of the source image; generating a standard image of the source image; and quickly optimizing the standard image to acquire an optimal image. The quick self-adaption optimizing method has the beneficial effects that the optimization of the digital image at the low illumination level can be realized in a self-adaption mode according to the mean brightness of the original image without multiple times of scanning, so that the processing time is greatly saved, and the real-time processing on quality optimization of the digital image is realized; and the method is effectively applied to the field of video processing.
Description
technical field [0001] The invention belongs to the technical field of image processing, and uses a Zadeh-X transformation method to adaptively and quickly obtain digital images with optimal quality. Background technique [0002] When people use photography and camera equipment, they generally hope to get the best quality images. But few methods are concerned with optimizing the quality of color images. The inventor previously proposed a method for obtaining color images with the best quality (Patent No.: ZL 200910190834.2), which can obtain the maximum value of the color image quality evaluation function NCAF by scanning the value of the transformation parameterDelta of the Zadeh-X transformation. Get the best quality image corresponding to the original color image. However, this method needs to change the value of the transformation parameterDelta of the Zadeh-X transformation one by one, which takes a long time, is not conducive to the real-time processing of color im...
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