Phase-unwrapping algorithm by a rounding-least-squares approach

Rigoberto Juarez-Salazar; Carlos Robledo-Sanchez; Fermin Guerrero-Sanchez

doi:10.1117/1.OE.53.2.024102

Phase-unwrapping algorithm by a rounding-least-squares approach

Rigoberto Juarez-Salazar, Carlos Robledo-Sanchez, Fermin Guerrero-Sanchez

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

28 Citas (Scopus)

Resumen

A simple and efficient phase-unwrapping algorithm based on a rounding procedure and a global least-squares minimization is proposed. Instead of processing the gradient of the wrapped phase, this algorithm operates over the gradient of the phase jumps by a robust and noniterative scheme. Thus, the residue-spreading and over-smoothing effects are reduced. The algorithm's performance is compared with four well-known phaseunwrapping methods: minimum cost network flow (MCNF), fast Fourier transform (FFT), quality-guided, and branch-cut. A computer simulation and experimental results show that the proposed algorithm reaches a high-accuracy level than the MCNF method by a low-computing time similar to the FFT phase-unwrapping method. Moreover, since the proposed algorithm is simple, fast, and user-free, it could be used in metrological interferometric and fringe-projection automatic real-time applications.

Idioma original	Inglés
Número de artículo	024102
Publicación	Optical Engineering
Volumen	53
N.º	2
DOI	https://doi.org/10.1117/1.OE.53.2.024102
Estado	Publicada - feb. 2014
Publicado de forma externa	Sí

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title = "Phase-unwrapping algorithm by a rounding-least-squares approach",

abstract = "A simple and efficient phase-unwrapping algorithm based on a rounding procedure and a global least-squares minimization is proposed. Instead of processing the gradient of the wrapped phase, this algorithm operates over the gradient of the phase jumps by a robust and noniterative scheme. Thus, the residue-spreading and over-smoothing effects are reduced. The algorithm's performance is compared with four well-known phaseunwrapping methods: minimum cost network flow (MCNF), fast Fourier transform (FFT), quality-guided, and branch-cut. A computer simulation and experimental results show that the proposed algorithm reaches a high-accuracy level than the MCNF method by a low-computing time similar to the FFT phase-unwrapping method. Moreover, since the proposed algorithm is simple, fast, and user-free, it could be used in metrological interferometric and fringe-projection automatic real-time applications.",

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author = "Rigoberto Juarez-Salazar and Carlos Robledo-Sanchez and Fermin Guerrero-Sanchez",

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AU - Juarez-Salazar, Rigoberto

AU - Robledo-Sanchez, Carlos

AU - Guerrero-Sanchez, Fermin

N1 - Funding Information: R. Juarez-Salazar is grateful for the scholarship from the Consejo Nacional de Ciencia y Tecnología (CONACYT), México. C. Robledo-Sanchez thanks the support from CONACYT. The authors thank N. Keranen for her advice on wording.

PY - 2014/2

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N2 - A simple and efficient phase-unwrapping algorithm based on a rounding procedure and a global least-squares minimization is proposed. Instead of processing the gradient of the wrapped phase, this algorithm operates over the gradient of the phase jumps by a robust and noniterative scheme. Thus, the residue-spreading and over-smoothing effects are reduced. The algorithm's performance is compared with four well-known phaseunwrapping methods: minimum cost network flow (MCNF), fast Fourier transform (FFT), quality-guided, and branch-cut. A computer simulation and experimental results show that the proposed algorithm reaches a high-accuracy level than the MCNF method by a low-computing time similar to the FFT phase-unwrapping method. Moreover, since the proposed algorithm is simple, fast, and user-free, it could be used in metrological interferometric and fringe-projection automatic real-time applications.

AB - A simple and efficient phase-unwrapping algorithm based on a rounding procedure and a global least-squares minimization is proposed. Instead of processing the gradient of the wrapped phase, this algorithm operates over the gradient of the phase jumps by a robust and noniterative scheme. Thus, the residue-spreading and over-smoothing effects are reduced. The algorithm's performance is compared with four well-known phaseunwrapping methods: minimum cost network flow (MCNF), fast Fourier transform (FFT), quality-guided, and branch-cut. A computer simulation and experimental results show that the proposed algorithm reaches a high-accuracy level than the MCNF method by a low-computing time similar to the FFT phase-unwrapping method. Moreover, since the proposed algorithm is simple, fast, and user-free, it could be used in metrological interferometric and fringe-projection automatic real-time applications.

KW - fringe analysis

KW - phase measurement

KW - phase unwrapping

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JO - Optical Engineering

JF - Optical Engineering

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Phase-unwrapping algorithm by a rounding-least-squares approach

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