Photometric Stereo 3D Reconstruction Method Based on Deep Learning for High Frequency Region Enhancement

A deep learning and photometric stereo technology, which is applied in neural learning methods, 3D modeling, complex mathematical operations, etc., can solve the problems of fuzzy 3D reconstruction results and large errors in high frequency regions, so as to improve task accuracy and 3D reconstruction accuracy. , the effect of rich details

Active Publication Date: 2022-03-08
OCEAN UNIV OF CHINA
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Problems solved by technology

[0003] However, the existing photometric stereo method based on deep learning has a large error in the high-frequency areas of the object surface, such as wrinkles and edges. The existing methods will generate blurred 3D reconstruction results in these areas. However, these areas are the focus and focus. where accurate reconstruction is required

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  • Photometric Stereo 3D Reconstruction Method Based on Deep Learning for High Frequency Region Enhancement
  • Photometric Stereo 3D Reconstruction Method Based on Deep Learning for High Frequency Region Enhancement
  • Photometric Stereo 3D Reconstruction Method Based on Deep Learning for High Frequency Region Enhancement

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Embodiment Construction

[0045] like figure 1 , a high-frequency area-enhanced photometric three-dimensional reconstruction method based on deep learning, which is characterized in that it includes the following steps:

[0046] 1) Using the photometric stereo system, take several images of the object to be reconstructed:

[0047] The object to be reconstructed is photographed under the illumination of a single parallel white light source, and the center of the object to be reconstructed is taken as the origin of the coordinate axis to establish a Cartesian coordinate system. The position of the white light source is determined by the vector in the Cartesian coordinate system l = [ x,y,z ]express;

[0048] Change the position of the light source to obtain images under another light direction; usually at least 10 images under different light directions are required to be taken, denoted as m 1 , m 2 , ..., m j , At the same time, the corresponding light source position is denoted as l 1 ,...

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Abstract

The photometric stereo 3D reconstruction method based on high-frequency area enhancement based on deep learning, including using photometric stereo system to take several images of the object to be reconstructed, and using deep learning algorithm to output accurate 3D reconstruction of surface normal, including the surface normal generation network is It is designed to generate the surface normal of the object to be reconstructed from the image and lighting; the attention weight generation network generates the attention weight map of the object to be reconstructed from the image; the attention weight loss function is processed pixel by pixel; then the trained network is used Surface normal reconstruction from photometric stereo images. The present invention learns surface normal and high-frequency information respectively through the proposed surface normal generation network and attention weight generation network, and uses the proposed attention weight loss for training, which can improve the reconstruction accuracy of the surface in high-frequency areas such as fold edges . Compared with the previous traditional photometric stereo method, the accuracy of 3D reconstruction is improved, especially the details of the surface of the object to be reconstructed.

Description

technical field [0001] The invention relates to a high-frequency area enhanced photometric three-dimensional reconstruction method based on deep learning, which belongs to the field of multi-degree three-dimensional reconstruction. Background technique [0002] The 3D reconstruction algorithm is a very important and basic problem in computer vision. The photometric stereo algorithm is a high-precision pixel-by-pixel 3D reconstruction method, which uses the grayscale change clues provided by images under different illumination directions to restore the normal direction of the object surface. Photometric stereo has an irreplaceable position in many high-precision 3D reconstruction tasks. For example, it has important application value in archaeological exploration, pipeline inspection, and fine seabed mapping. [0003] However, the existing photometric stereo method based on deep learning has a large error in the high-frequency areas of the object surface, such as wrinkles and...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06T17/30G06N3/08G06F17/16
CPCG06T17/30G06N3/08G06F17/16
Inventor 举雅琨董军宇高峰
Owner OCEAN UNIV OF CHINA
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