Litcius/Paper detail

Generalized framework for non-sinusoidal fringe analysis using deep learning

Shijie Feng, Chao Zuo, Liang Zhang, Wei Yin, Qian Chen

2021Photonics Research129 citationsDOI

Abstract

Phase retrieval from fringe images is essential to many optical metrology applications. In the field of fringe projection profilometry, the phase is often obtained with systematic errors if the fringe pattern is not a perfect sinusoid. Several factors can account for non-sinusoidal fringe patterns, such as the non-linear input–output response (e.g., the gamma effect) of digital projectors, the residual harmonics in binary defocusing projection, and the image saturation due to intense reflection. Traditionally, these problems are handled separately with different well-designed methods, which can be seen as “one-to-one” strategies. Inspired by recent successful artificial intelligence-based optical imaging applications, we propose a “one-to-many” deep learning technique that can analyze non-sinusoidal fringe images resulting from different non-sinusoidal factors and even the coupling of these factors. We show for the first time, to the best of our knowledge, a trained deep neural network can effectively suppress the phase errors due to various kinds of non-sinusoidal patterns. Our work paves the way to robust and powerful learning-based fringe analysis approaches.

Topics & Concepts

Structured-light 3D scannerComputer scienceArtificial intelligenceArtificial neural networkOpticsPhase retrievalProjection (relational algebra)MetrologyDeep learningAbsolute phasePhase (matter)Computer visionPattern recognition (psychology)AlgorithmFourier transformPhysicsPhase noiseScannerQuantum mechanicsOptical measurement and interference techniquesImage Processing Techniques and ApplicationsAdvanced Measurement and Metrology Techniques