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3-D Surface Reconstruction Based on Binocular Stereo Vision

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ã€Abstractã€‘ 3-D surface can be reconstructed based on binocular stereo vision. It always includes camera calibration, image rectification, correspondance pair matching, disparity calculation, sub-pixel refinement, model reconstruction, etc. Correspondance pair matching is the most important step in reconstruction. Space-time stereo matching can effectively improve matching accuracy and reduce matching difficulty, by projecting a series of light patterns for the purpose of enriching surface texture information. At the same time, symmetry restriction, disparity restriction, order restriction and others can also improve matching efficiency. Space-time stereo matching can reach integer disparity easily. Sub-pixel refinement is needed for higher accuracy. This paper analyses and compares the amount of patterns, matching windowsâ€™size and other factorsâ€™influence in 3D reconstruction. The experimental results show that, right amount of pattern and matching windowsâ€™size play an important role in 3-D surface reconstruction.The 3D models reconstructed from binocular stereo always exhibit noticeable noise, and even contain holes. To deal with this issue, this thesis presents a non-local (NL) method to denoise and hole-fill the original model on regular vertex set. To improve computational efficiency, the proposed method uses the basic NL method and principal component analysis (PCA) based NL method to remove model noise in hole and non-hole regions, respectively. The filled holes are then processed by NL denoising to improve the consistency with the surrounding surfaces. The experimental results show that, when evaluated on different real objects with various sizes, the proposed method can reconstruct 3D models effectively and performs much better than previous methods.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ binocular stereoï¼› machingï¼› space-time stereoï¼› sub-pixelï¼› non-localï¼› denoisingï¼› hole fillingï¼› principal component analysisï¼›

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3-D Surface Reconstruction Based on Binocular Stereo Vision

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