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High-resolution sequential thermal fringe projection technique for fast and accurate 3D shape measurement of transparent objects

Martin Landmann, Henri Speck, Patrick Dietrich, Stefan Heist, Peter Kühmstedt, Andreas Tünnermann, Gunther Notni

2021Applied Optics27 citationsDOI

Abstract

Three-dimensional (3D) shape measurement systems based on diffuse reflection of projected structured light do not deliver reliable data when measuring glossy, transparent, absorbent, or translucent objects. In recent years, we have developed a method based on stereo recording with infrared cameras and projection of areal aperiodic sinusoidal thermal patterns to detect such objects. However, the measurements took longer than 10 s, up to minutes; moreover, the measurement accuracy was improvable. Now, we have succeeded in both drastically reducing measurement time and significantly increasing measurement quality. This finally provides a technique for reliably measuring transparent objects, e.g., in series production. We demonstrate measurement examples achieved within 1 s and with 3D standard deviations less than 10 µm.

Topics & Concepts

OpticsProjection (relational algebra)Structured-light 3D scannerAperiodic graphReflection (computer programming)Accuracy and precisionSystem of measurementComputer scienceMaterials sciencePhysicsAlgorithmProgramming languageAstronomyQuantum mechanicsScannerMathematicsCombinatoricsOptical measurement and interference techniques3D Surveying and Cultural HeritageAdvanced Measurement and Metrology Techniques
High-resolution sequential thermal fringe projection technique for fast and accurate 3D shape measurement of transparent objects | Litcius