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Digital image correlation assisted absolute phase unwrapping

Yi‐Hong Liao, Manzhu Xu, Song Zhang

2022Optics Express18 citationsDOIOpen Access PDF

Abstract

This paper presents an absolute phase unwrapping method for high-speed three-dimensional (3D) shape measurement. This method uses three phase-shifted patterns and one binary random pattern on a single-camera, single-projector structured light system. We calculate the wrapped phase from phase-shifted images and determine the coarse correspondence through the digital image correlation (DIC) between the captured binary random pattern of the object and the pre-captured binary random pattern of a flat surface. We then developed a computational framework to determine fringe order number pixel by pixel using the coarse correspondence information. Since only one additional pattern is used, the proposed method can be used for high-speed 3D shape measurement. Experimental results successfully demonstrated that the proposed method can achieve high-speed and high-quality measurement of complex scenes.

Topics & Concepts

Absolute phaseProjectorBinary numberOpticsStructured lightPixelStructured-light 3D scannerComputer sciencePhase (matter)Artificial intelligenceBinary imageBinary dataDigital image correlationComputer visionImage (mathematics)Image processingPhysicsMathematicsPhase noiseArithmeticQuantum mechanicsScannerOptical measurement and interference techniquesImage Processing Techniques and ApplicationsAdvanced Vision and Imaging
Digital image correlation assisted absolute phase unwrapping | Litcius