Single-shot detection of 8 unique monochrome fringe patterns representing 4 distinct directions via multispectral fringe projection profilometry
Abstract Spatial resolution in three-dimensional fringe projection profilometry is determined in large part by the number and spacing of fringes projected onto an object. Due to the intensity-based nature of fringe projection profilometry, fringe patterns must be generated in succession, which is ti...
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2021-05-01
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Online Access: | https://doi.org/10.1038/s41598-021-88136-4 |
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doaj-ab3f7d048e1b46b7b561e66ffa79425d2021-05-16T11:26:15ZengNature Publishing GroupScientific Reports2045-23222021-05-0111111410.1038/s41598-021-88136-4Single-shot detection of 8 unique monochrome fringe patterns representing 4 distinct directions via multispectral fringe projection profilometryParsa Omidi0Mohamadreza Najiminaini1Mamadou Diop2Jeffrey J. L. Carson3Imaging Program, Lawson Health Research Institute, St. Joseph’s Health CareImaging Program, Lawson Health Research Institute, St. Joseph’s Health CareImaging Program, Lawson Health Research Institute, St. Joseph’s Health CareImaging Program, Lawson Health Research Institute, St. Joseph’s Health CareAbstract Spatial resolution in three-dimensional fringe projection profilometry is determined in large part by the number and spacing of fringes projected onto an object. Due to the intensity-based nature of fringe projection profilometry, fringe patterns must be generated in succession, which is time-consuming. As a result, the surface features of highly dynamic objects are difficult to measure. Here, we introduce multispectral fringe projection profilometry, a novel method that utilizes multispectral illumination to project a multispectral fringe pattern onto an object combined with a multispectral camera to detect the deformation of the fringe patterns due to the object. The multispectral camera enables the detection of 8 unique monochrome fringe patterns representing 4 distinct directions in a single snapshot. Furthermore, for each direction, the camera detects two π-phase shifted fringe patterns. Each pair of fringe patterns can be differenced to generate a differential fringe pattern that corrects for illumination offsets and mitigates the effects of glare from highly reflective surfaces. The new multispectral method solves many practical problems related to conventional fringe projection profilometry and doubles the effective spatial resolution. The method is suitable for high-quality fast 3D profilometry at video frame rates.https://doi.org/10.1038/s41598-021-88136-4 |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Parsa Omidi Mohamadreza Najiminaini Mamadou Diop Jeffrey J. L. Carson |
spellingShingle |
Parsa Omidi Mohamadreza Najiminaini Mamadou Diop Jeffrey J. L. Carson Single-shot detection of 8 unique monochrome fringe patterns representing 4 distinct directions via multispectral fringe projection profilometry Scientific Reports |
author_facet |
Parsa Omidi Mohamadreza Najiminaini Mamadou Diop Jeffrey J. L. Carson |
author_sort |
Parsa Omidi |
title |
Single-shot detection of 8 unique monochrome fringe patterns representing 4 distinct directions via multispectral fringe projection profilometry |
title_short |
Single-shot detection of 8 unique monochrome fringe patterns representing 4 distinct directions via multispectral fringe projection profilometry |
title_full |
Single-shot detection of 8 unique monochrome fringe patterns representing 4 distinct directions via multispectral fringe projection profilometry |
title_fullStr |
Single-shot detection of 8 unique monochrome fringe patterns representing 4 distinct directions via multispectral fringe projection profilometry |
title_full_unstemmed |
Single-shot detection of 8 unique monochrome fringe patterns representing 4 distinct directions via multispectral fringe projection profilometry |
title_sort |
single-shot detection of 8 unique monochrome fringe patterns representing 4 distinct directions via multispectral fringe projection profilometry |
publisher |
Nature Publishing Group |
series |
Scientific Reports |
issn |
2045-2322 |
publishDate |
2021-05-01 |
description |
Abstract Spatial resolution in three-dimensional fringe projection profilometry is determined in large part by the number and spacing of fringes projected onto an object. Due to the intensity-based nature of fringe projection profilometry, fringe patterns must be generated in succession, which is time-consuming. As a result, the surface features of highly dynamic objects are difficult to measure. Here, we introduce multispectral fringe projection profilometry, a novel method that utilizes multispectral illumination to project a multispectral fringe pattern onto an object combined with a multispectral camera to detect the deformation of the fringe patterns due to the object. The multispectral camera enables the detection of 8 unique monochrome fringe patterns representing 4 distinct directions in a single snapshot. Furthermore, for each direction, the camera detects two π-phase shifted fringe patterns. Each pair of fringe patterns can be differenced to generate a differential fringe pattern that corrects for illumination offsets and mitigates the effects of glare from highly reflective surfaces. The new multispectral method solves many practical problems related to conventional fringe projection profilometry and doubles the effective spatial resolution. The method is suitable for high-quality fast 3D profilometry at video frame rates. |
url |
https://doi.org/10.1038/s41598-021-88136-4 |
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