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A method of image super-resolution reconstruction based on sub-pixel offset model

A super-resolution reconstruction and sub-pixel technology, applied in image data processing, graphics and image conversion, instruments, etc., can solve problems such as poor deconvolution effect and ill-posedness

Inactive Publication Date: 2016-03-16
HOHAI UNIV
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Problems solved by technology

[0009] Purpose of the invention: In order to solve the problem of poor deconvolution effect of the independent restoration link in kernel regression super-resolution reconstruction, the present invention provides a kernel regression super-resolution reconstruction method based on a sub-pixel offset model. The integration of interpolation resampling and restoration in super-resolution reconstruction avoids the complexity of step-by-step modeling and the ill-posedness of deconvolution

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  • A method of image super-resolution reconstruction based on sub-pixel offset model
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  • A method of image super-resolution reconstruction based on sub-pixel offset model

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Embodiment Construction

[0039] In the following, the present invention will be further explained in conjunction with the embodiments.

[0040] Such as figure 1 As shown, an image super-resolution reconstruction method based on a sub-pixel shift model includes the following steps:

[0041] In the first step, input a low-resolution image contaminated by distortion, blurring, down-sampling and noise.

[0042] The second step is to determine the number of low-resolution images input.

[0043] Step 3. If the input is a single frame image, set it to y and skip to step 6. If the input is a multi-frame image, continue with the following steps.

[0044] The fourth step is to use the Keren registration algorithm for the input multi-frame image y k (k=1, 2...N) perform registration, N represents the total number of frames, and place them in an image grid according to the registration result to form an image Such as figure 2 Shown, image The pixels are unevenly distributed in the grid.

[0045] Step 5, use nuclear regr...

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Abstract

The invention discloses an image super-resolution reestablishing method based on a sub pixel displacement model. First, input images are configured into a grid, and an image with pixels distributed evenly is formed; then, the sub pixel displacement model is provided, so that a new image degradation model is established; then, a displacement estimation algorithm based on gradients is designed to estimate sub pixel displacement quantity, and accordingly a displacement kernel function is established and computed; and finally, according to the new image degradation model, the displacement kernel function and a Taylor series extension rule are used for establishing a kernel regression estimation expression, and accordingly a high-resolution image is reestablished. According to the method, two independent links of interpolation resampling and restoring in kernel regression super-resolution reestablishing are integrated, and the complexity of substep modeling and the ill-posedness of deconvolution are avoided. Meanwhile, the method does not limit the number of observed images, the method can be used for single-frame reestablishing and multi-frame reestablishing, and applicability is enhanced.

Description

Technical field [0001] The invention relates to an image super-resolution reconstruction method based on a sub-pixel shift model, which belongs to the field of computer image and video processing. Background technique [0002] In recent years, high-resolution display devices, especially high-definition liquid crystal displays, have become popular. In many cases, the image or video displayed on the HD monitor is not clear. This is mainly because in the image or video acquisition link, most of the equipment used considers cost factors (mainly technology, capital, etc.), and the inherent resolution of its imaging sensor is limited, and only low-resolution images can be acquired. How to maximize the performance of high-resolution display devices (presenting low-resolution images in high-definition) without increasing the cost of imaging equipment for related applications (for example, medical imaging diagnosis, satellite remote sensing analysis, remote monitoring and research or mob...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06T3/40
Inventor 徐枫沈洁张振王鑫黄凤辰蒋德富
Owner HOHAI UNIV
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