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Deep learning-based method for non-uniform motion-induced error reduction in dynamic microscopic 3D shape measurement

Ji Tan, Wenqing Su, Zhaoshui He, Naixing Huang, Jianglei Di, Liyun Zhong, Yulei Bai, Bo Dong, Shengli Xie

2022Optics Express23 citationsDOIOpen Access PDF

Abstract

The non-uniform motion-induced error reduction in dynamic fringe projection profilometry is complex and challenging. Recently, deep learning (DL) has been successfully applied to many complex optical problems with strong nonlinearity and exhibits excellent performance. Inspired by this, a deep learning-based method is developed for non-uniform motion-induced error reduction by taking advantage of the powerful ability of nonlinear fitting. First, a specially designed dataset of motion-induced error reduction is generated for network training by incorporating complex nonlinearity. Then, the corresponding DL-based architecture is proposed and it contains two parts: in the first part, a fringe compensation module is developed as network pre-processing to reduce the phase error caused by fringe discontinuity; in the second part, a deep neural network is employed to extract the high-level features of error distribution and establish a pixel-wise hidden nonlinear mapping between the phase with motion-induced error and the ideal one. Both simulations and real experiments demonstrate the feasibility of the proposed method in dynamic macroscopic measurement.

Topics & Concepts

Computer scienceReduction (mathematics)Nonlinear systemDiscontinuity (linguistics)Artificial intelligenceProjection (relational algebra)Artificial neural networkDeep learningOpticsCompensation (psychology)AlgorithmComputer visionMathematicsPhysicsGeometryMathematical analysisPsychoanalysisQuantum mechanicsPsychologyOptical measurement and interference techniquesAdvanced Measurement and Metrology TechniquesImage Processing Techniques and Applications
Deep learning-based method for non-uniform motion-induced error reduction in dynamic microscopic 3D shape measurement | Litcius