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Development of three-dimensional dental scanning apparatus using structured illumination

Sensors (Switzerland) (2017) 17(7)
DOI: 10.3390/s17071634
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Abstract

We demonstrated a three-dimensional (3D) dental scanning apparatus based on structured illumination. A liquid lens was used for tuning focus and a piezomotor stage was used for the shift of structured light. A simple algorithm, which detects intensity modulation, was used to perform optical sectioning with structured illumination. We reconstructed a 3D point cloud, which represents the 3D coordinates of the digitized surface of a dental gypsum cast by piling up sectioned images. We performed 3D registration of an individual 3D point cloud, which includes alignment and merging the 3D point clouds to exhibit a 3D model of the dental cast.

Figures

  • Figure 2. Picture of the dental cast (gypsum model) and the images captured by the scanning apparatus from the top view. Scanning process: Images of the dental cast were recorded with varying objective lens focal length (vertical scan). The dental cast moved laterally after each vertical scan was finished (lateral scan). Scale bar: 10 mm.
  • Figure 2. Picture of the dental cast (gypsum model) and the images captured by the scanning apparatus from the top view. Scanning process: Images of the dental cast were recorded with varying objective lens focal length (vertical scan). The dental cast moved laterally after each vertical scan was finished (lateral scan). Scale bar: 10 mm.
  • Figure 3. (a) Images (top row) of the dental gypsum cast and (b) magnified images (bottom row) of the in-focus area. Sinusoidal fringe patterns were visualized only within the in-focus areas. (c) The intensity profiles of the magnified images (Figure 3b) along the horizontal axis of the images. The intensity profiles were vertically translated for better discrimination. The sinusoidal fringe patterns were shifted by T/3 (T: periodicity of the patterns) between each image.
  • Figure 4. Optical sectioning from the raw images of the dental cast. The intensity of each pixel of the sectioned image is defined in Equation (1). The sectioned images from different f cal planes were stacked to reconstruct a 3D point cloud m del of t d ntal cast.
  • Figure 6. The 3D point cloud of the dental cast (half arch) reconstructed from 3D registration.
  • Figure 6. The 3D point cloud of the dental cast (half arch) reconstructed from 3D registration.

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CITATION STYLE

APA

Ahn, J. S., Park, A., Kim, J. W., Lee, B. H., & Eom, J. B. (2017). Development of three-dimensional dental scanning apparatus using structured illumination. Sensors (Switzerland), 17(7). https://doi.org/10.3390/s17071634

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