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Narrow baseline parallax reconstruction method based on multi-scale superpixels and phase correlation

A phase-correlation and super-pixel technology, applied in the field of computer vision, can solve problems such as unreliable sub-pixel estimation, incorrect reconstruction, and less matching information, and achieve the effects of avoiding fattening effect, good parallax estimation accuracy, and avoiding high-frequency noise

Active Publication Date: 2019-09-06
上海黑塞智能科技有限公司
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Problems solved by technology

On the other hand, in order to make the estimated disparity accurate enough, the following two main challenges need to be addressed: (1) Low-textured regions provide less matching information and make sub-pixel estimation unreliable, especially at small window sizes the case
(2) When the correlation window spans depth discontinuities, the matching process suffers from the fattening effect of not correctly reconstructing object boundaries

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  • Narrow baseline parallax reconstruction method based on multi-scale superpixels and phase correlation
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  • Narrow baseline parallax reconstruction method based on multi-scale superpixels and phase correlation

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[0052] Such as figure 1 Shown is a schematic flow chart of the overall method of the present invention, which mainly includes three parts: image registration (Image coregistration), pixel-level disparity estimation (Pixel-level disparity estimation) and sub-pixel parallax refinement (Subpixel refinement), in the In one step, a global similarity transformation model between two input images (Left image and Right image) is obtained by using the sub-pixel precision Fourier-Melin Transform (Fourier-Media Transform), and then, through the multi-scale superpixel way to iteratively estimate pixel-level disparity. In each iteration, a simple linear iterative clustering (SLIC) method is employed to segment the input image into a different number of superpixels. Pixel-level phase correlation is performed using a window size and position determined from superpixels. Also implement reliability checks to ensure robustness in low texture areas. Subsequently, pixels with the same superpix...

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Abstract

The invention relates to a narrow baseline parallax reconstruction method based on multi-scale superpixels and phase correlation. The method comprises the following steps: step 1, ; obtaining a globalsimilarity transformation model between the two input images by using a Fourier-Meilin transformation method; step 2, carrying out pixel polar error estimation on the global similarity transformationmodel through a multi-scale superpixel method to obtain a pixel polar error estimation result; step 3, for the pixel polar error estimation result, performing sub-pixel precision acquisition operation by adopting a sub-pixel phase correlation method based on singular value decomposition and random sampling consistency, and further obtaining a final narrow baseline parallax result; and step 4, performing three-dimensional information reconstruction on the image according to a final narrow baseline parallax result. Compared with the prior art, the method has the advantages of high precision, good robustness, low texture region matching efficiency and the like.

Description

technical field [0001] The invention relates to the technical field of computer vision, in particular to a reconstruction method of narrow baseline stereo disparity based on multi-scale superpixels and phases. Background technique [0002] Recovering depth from stereo images is one of the key problems in photogrammetry and even computer vision. In traditional earth observation systems, in order to estimate the height of the ground, one or more pairs of stereo images obtained by satellites or aircrafts with wide photogrammetric baselines are usually used, and the base-to-height ratio (B / H ) in the range of 0.6-1.0. Theoretically, a large B / H ratio is required for stereo matching to ensure the accuracy of forward intersection in elevation estimation. However, for a pair of stereo images with a wide baseline, it means that the two images are acquired from completely different perspectives. In this case, during imaging, 3D objects are recorded on 2D image planes with differen...

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Application Information

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IPC IPC(8): G06T7/593
CPCG06T2207/20032G06T2207/20056G06T2207/20228G06T7/593
Inventor 叶真徐聿升潘玥顾振雄
Owner 上海黑塞智能科技有限公司
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