Paper
26 April 2016 Triangulation-based 3D surveying borescope
S. Pulwer, P. Steglich, C. Villringer, J. Bauer, M. Burger, M. Franz, K. Grieshober, F. Wirth, J. Blondeau, J. Rautenberg, S. Mouti, S. Schrader
Author Affiliations +
Abstract
In this work, a measurement concept based on triangulation was developed for borescopic 3D-surveying of surface defects. The integration of such measurement system into a borescope environment requires excellent space utilization. The triangulation angle, the projected pattern, the numerical apertures of the optical system, and the viewing angle were calculated using partial coherence imaging and geometric optical raytracing methods. Additionally, optical aberrations and defocus were considered by the integration of Zernike polynomial coefficients. The measurement system is able to measure objects with a size of 50 μm in all dimensions with an accuracy of ± 5 μm. To manage the issue of a low depth of field while using an optical high resolution system, a wavelength dependent aperture was integrated. Thereby, we are able to control depth of field and resolution of the optical system and can use the borescope in measurement mode with high resolution and low depth of field or in inspection mode with low resolution and higher depth of field. First measurements of a demonstrator system are in good agreement with our simulations.
© (2016) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
S. Pulwer, P. Steglich, C. Villringer, J. Bauer, M. Burger, M. Franz, K. Grieshober, F. Wirth, J. Blondeau, J. Rautenberg, S. Mouti, and S. Schrader "Triangulation-based 3D surveying borescope", Proc. SPIE 9890, Optical Micro- and Nanometrology VI, 989009 (26 April 2016); https://doi.org/10.1117/12.2225203
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CITATIONS
Cited by 2 scholarly publications and 1 patent.
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KEYWORDS
Imaging systems

Inspection

Optical resolution

Spatial frequencies

3D metrology

Projection systems

Computer aided design

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