Generation of phase-shifting algorithms with N arbitrarily spaced phase-steps

Gastón A. Ayubi; César D. Perciante; Jorge L. Flores; J. Matías Di Martino; José A. Ferrari

doi:10.1364/AO.53.007168

Generation of phase-shifting algorithms with N arbitrarily spaced phase-steps

Gastón A. Ayubi, César D. Perciante, Jorge L. Flores, J. Matías Di Martino, José A. Ferrari

Departamento de Ciencias Exactas y Naturales

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

18 Citas (Scopus)

Resumen

Phase-shifting (PS) is an important technique for phase retrieval in interferometry (and threedimensional profiling by fringe projection) that requires a series of intensity measurements with known phase-steps. Usual PS algorithms are based on the assumption that the phase-steps are evenly spaced. In practice, however, this assumption is often not satisfied exactly, which leads to errors in the recovered phase. In this work we present a systematic algebraic approach for generating general PS algorithms with N arbitrarily spaced phase-steps, which present advantages (e.g., the PS error can be avoided) over known algorithms that assume equally spaced phase-steps. Simulations are presented.

Idioma original	Inglés
Páginas (desde-hasta)	7168-7176
Número de páginas	9
Publicación	Applied Optics
Volumen	53
N.º	30
DOI	https://doi.org/10.1364/AO.53.007168
Estado	Publicada - 20 oct. 2014

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AU - Ayubi, Gastón A.

AU - Perciante, César D.

AU - Flores, Jorge L.

AU - Di Martino, J. Matías

AU - Ferrari, José A.

PY - 2014/10/20

Y1 - 2014/10/20

N2 - Phase-shifting (PS) is an important technique for phase retrieval in interferometry (and threedimensional profiling by fringe projection) that requires a series of intensity measurements with known phase-steps. Usual PS algorithms are based on the assumption that the phase-steps are evenly spaced. In practice, however, this assumption is often not satisfied exactly, which leads to errors in the recovered phase. In this work we present a systematic algebraic approach for generating general PS algorithms with N arbitrarily spaced phase-steps, which present advantages (e.g., the PS error can be avoided) over known algorithms that assume equally spaced phase-steps. Simulations are presented.

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Generation of phase-shifting algorithms with N arbitrarily spaced phase-steps

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