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Reconstruction of transparent objects using phase shifting profilometry based on diffusion models

Qinghui Zhang, Feng Liu, Lei Lu, Zhilong Su, Wei Pan, Xiangjun Dai

2024Optics Express10 citationsDOIOpen Access PDF

Abstract

Phase shifting profilometry is an important technique for reconstructing the three-dimensional (3D) geometry of objects with purely diffuse surfaces. However, it is challenging to measure the transparent objects due to the pattern aliasing caused by light refraction and multiple reflections inside the object. In this work, we analyze the aliasing fringe pattern formation for transparent objects and then, propose to learn the front surface light intensity distribution based on the formation principle by using the diffusion models for generating the non-aliased fringe patterns reflected from the front surface only. With the generated fringe patterns, the 3D shape of the transparent objects can be reconstructed via the conventional structured light. We show the feasibility and performance of the proposed method on the data of purely transparent objects that are not seen in the training stage. Moreover, we found it could be generalized to other cases with local-transparent and translucent objects, showing the potential capability of the diffusion based learnable framework in tackling the problems of transparent object reconstruction.

Topics & Concepts

AliasingOpticsProfilometerStructured lightComputer scienceStructured-light 3D scannerObject (grammar)Computer visionMeasure (data warehouse)DiffusionArtificial intelligencePhase (matter)PhysicsMaterials scienceScannerSurface finishFilter (signal processing)Quantum mechanicsDatabaseThermodynamicsComposite materialOptical measurement and interference techniques3D Surveying and Cultural HeritageImage Processing Techniques and Applications
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