Your search keyword '"Shuchun, Si"' showing total 4 results

1. Novel absolute phase measurement method with few-patterns

Author

Xingyang Qi, Canlin Zhou, Yanping Ding, Yixiao Wang, Shuchun Si, and Hui Li

Subjects

Mechanical Engineering, Electrical and Electronic Engineering, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials

Published

2022

2. Iterative two-step temporal phase-unwrapping applied to high sensitivity three-dimensional profilometry

Author

Chaorui Zhang, Guangliang Du, YanJie Li, Shuchun Si, Hui Li, and Canlin Zhou

Subjects

010302 applied physics, Surface (mathematics), Sequence, Computer science, business.industry, Mechanical Engineering, Phase (waves), Process (computing), 01 natural sciences, Measure (mathematics), Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, 010309 optics, Undersampling, 0103 physical sciences, Computer vision, Artificial intelligence, Profilometer, Sensitivity (control systems), Electrical and Electronic Engineering, business, Algorithm

Abstract

Although temporal phase unwrapping method can be applied to solve some problems to measure an object with steep shapes, isolated parts or fringe undersampling in three-dimensional (3D) shape measurement, it needs to acquire and process a sequence of fringe pattern images which would take much time. Servin et al. proposed a 2-step temporal phase unwrapping algorithm, which only needs the 2 extreme phase-maps to achieve exactly the same results as standard temporal unwrapping method. But this method is only validated by computer simulation, shortage of experimental demonstration, its sensitivity coefficient G is limited, and it cannot be used when the G value is larger. We proposed an iterative two-step temporal phase-unwrapping algorithm which is an extension of Servin׳s method. First, add a fringe pattern with an intermediate sensitivity, project the fringe patterns of different sensitivity onto the tested object’s surface, and collect deformed fringe patterns with a CCD camera. Then we obtain the unwrapped phase with larger sensitivity coefficient G by cascading the sensitivity coefficients. And we derive the initial phase conditions of the 2-step temporal phase unwrapping algorithm. Finally, the experimental evaluation is conducted to prove the validity of the proposed method. The results are analyzed and compared with Servin׳s method. The experimental results show that the proposed method can achieve higher sensitivity and more accurate measurement, and it can overcome the main disadvantages encountered by Servin׳s method.

Published

2016

3. Improved differential 3D shape retrieval

Author

Hui Li, Zhenkun Lei, Tongchuan Liu, Shuchun Si, and Canlin Zhou

Subjects

Computer science, Mechanical Engineering, Coordinate system, Process (computing), Contrast (statistics), Phase unwrapping, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, law.invention, symbols.namesake, Fourier transform, Projector, law, Surface measurement, symbols, Electrical and Electronic Engineering, Differential (infinitesimal), Algorithm

Abstract

Phase unwrapping is a complex step in three-dimensional (3D) surface measurement. To simplify the computation process, Martino et al. proposed a differential algorithm. However, it will result in large error when the orthogonal fringes are not in horizontal or vertical direction. To solve this problem, the relationship between projector׳s and camera׳s coordinate systems is introduced. With the data obtained from coordinate transformation, the improved differential algorithm can be used for orthogonal fringes in any direction. Besides that, taking advantage of Fourier differentiation theorem makes operation and calculation simpler. By contrast, the results of experiments show that the proposed method is applicable to the patterns with orthogonal fringes in every direction. In addition, Fourier differentiation theorem effectively increases the speed of differential process.

Published

2015

4. An improved stair phase encoding method for absolute phase retrieval

Author

Shuchun Si, Jianqiang Xu, Tongchuan Liu, Canlin Zhou, Yepeng Liu, and Zhenkun Lei

Subjects

business.industry, Absolute phase, Mechanical Engineering, Code word, Phase (waves), Classification of discontinuities, Phase unwrapping, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Optics, Encoding (memory), RGB color model, Computer vision, Artificial intelligence, Electrical and Electronic Engineering, business, Projection (set theory), Mathematics

Abstract

An improved phase unwrapping method is proposed to reduce the projection fringes in three-dimensional (3D) surface measurement. Color fringe patterns are generated by encoding with sinusoidal fringe and stair phase fringe patterns in red and blue channels. These color fringe patterns are projected onto the tested objects and then captured by a color CCD camera. The recorded fringe patterns are separated into their RGB components. Two groups of four-step phase-shifting fringe patterns are obtained. One group of the stripes are four sinusoidal patterns, which are used to determine the wrapped phase. The other group of stripes are four sinusoidal patterns with the codeword embedded into stair phase, whose stair changes are perfectly aligned with the 2π discontinuities of sinusoidal fringe phase, which are used to determine the fringe order for the phase unwrapping. The experimental results are analyzed and compared with those of the method in Zheng and Da (2012. Opt Express 20(22):24139–24150). The results show that the proposed method needs only four fringe patterns while having less error. It can effectively reduce the number of projection fringes and improve the measuring speed.

Published

2015