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Multi-view fringe projection profilometry for surfaces with intricate structures and high dynamic range

Guofeng Zhang, Yong Liu, Qian Yao, Huiwen Deng, Hongwei Zhao, Zonghua Zhang, Shuming Yang

2024Optics Express57 citationsDOIOpen Access PDF

Abstract

Fringe projection profilometry plays an important role for quality control in production line. However, it is facing challenges in the measurement of objects with intricate structures and high dynamic range that involved in precision manufacturing and semiconductor packaging. In this paper, a multi-view fringe projection profilometry system, which deploys a vertical telecentric projector and four oblique tilt-shift cameras, is presented to address the “blind spots” caused by shadowing, occlusion and local specular reflection. A flexible and accurate system calibration method is proposed, in which the corrected pinhole imaging model is used to calibrate the telecentric projection, and the unified calibration is performed by bundle adjustment. Experimental results show that the 3D repeated measurement error and standard deviation are no more than 10 μ m within a measurable volume of 70 × 40 × 20 mm 3 . Furthermore, a group of experiments prove that the developed system can achieve complete and accurate 3D measurement for high dynamic range surfaces with complex structures.

Topics & Concepts

OpticsProfilometerStructured-light 3D scannerProjection (relational algebra)High dynamic rangeDynamic rangeRange (aeronautics)Materials scienceComputer sciencePhysicsSurface finishScannerComposite materialAlgorithmOptical measurement and interference techniquesAdvanced Measurement and Metrology Techniques3D Surveying and Cultural Heritage
Multi-view fringe projection profilometry for surfaces with intricate structures and high dynamic range | Litcius