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  • Improvement of Thermal Fringe Projection forFast and Accurate 3D Shape Measurement ofTransparent Objects

    Martin Landmann, Henri Speck, Jan Till Schmieder, Stefan Heist, Gunther Notni

    Kapitel/Beitrag aus dem Buch: Beyerer J. & Längle T. 2021. OCM 2021 – 5th International Conference on Optical Characterization of Materials, March 17th – 18th, 2021, Karlsruhe, Germany : Conference Proceedings.

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    Structured light sensors for three-dimensional (3D)
    shape measurements working in the visible up to the shortwave
    infrared range have been intensively investigated in the last
    decades. Reliable measurements require diffuse reflection of the
    projected patterns. However, this condition is strongly limited
    or not fulfilled for transparent, translucent, shiny, or absorbing
    materials. Based on the scanning from heating approach, we
    have developed a two-step optical method for the measurement
    of such uncooperative objects. In this contribution, we present
    a simplified and robust projection technique of a focused single
    thermal fringe. Due to the irradiation of only locally strongly
    restricted areas, we obtain considerably higher intensities which
    enables us to reduce the total measurment time to or even below
    the second range while increasing the measurement accuracy.
    We show measurement results of non-opaque surfaces of objects
    made of a single material as well as of metal objects. Our customizable
    setup is of interest for quality assurance, bin picking,
    digitization, and many other areas of applications.

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    Empfohlene Zitierweise für das Kapitel/den Beitrag
    Landmann, M et al. 2021. Improvement of Thermal Fringe Projection forFast and Accurate 3D Shape Measurement ofTransparent Objects. In: Beyerer J. & Längle T (eds.), OCM 2021 – 5th International Conference on Optical Characterization of Materials, March 17th – 18th, 2021, Karlsruhe, Germany : Conference Proceedings. Karlsruhe: KIT Scientific Publishing. DOI: https://doi.org/10.58895/ksp/1000128686-9
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    This chapter distributed under the terms of the Creative Commons Attribution + ShareAlike 4.0 license. Copyright is retained by the author(s)

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    Dieses Buch ist Peer reviewed. Informationen dazu Hier finden Sie mehr Informationen zur wissenschaftlichen Qualitätssicherung der MAP-Publikationen.

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    Veröffentlicht am 17. März 2021

    DOI
    https://doi.org/10.58895/ksp/1000128686-9