Alejandro Téllez-Quiñones scite author profile

Alejandro Téllez-Quiñones

5Publications

54Citation Statements Received

0Citation Statements Given

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Affiliations

Consejo Nacional de Humanidades, Ciencias y Tecnologías, Centro de Investigaciones en Optica, Instituto Tecnológico de Mérida

Publications

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Built-up index methods and their applications for urban extraction from Sentinel 2A satellite data: discussion

et al. 2017

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Several built-up indices have been proposed in the literature in order to extract the urban sprawl from satellite data. Given their relative simplicity and easy implementation, such methods have been widely adopted for urban growth monitoring. Previous research has shown that built-up indices are sensitive to different factors related to image resolution, seasonality, and study area location. Also, most of them confuse urban surfaces with bare soil and barren land covers. By gathering the existing built-up indices, the aim of this paper is to discuss some of their advantages, difficulties, and limitations. In order to illustrate our study, we provide some application examples using Sentinel 2A data.

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Phase-shifting algorithms for a finite number of harmonics: first-order analysis by solving linear systems

2012

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From generalized phase-shifting equations, we propose a simple linear system analysis for algorithms with equally and nonequally spaced phase shifts. The presence of a finite number of harmonic components in the fringes of the intensity patterns is taken into account to obtain algorithms insensitive to these harmonics. The insensitivity to detuning for the fundamental frequency is also considered as part of the description of this study. Linear systems are employed to recover the desired insensitivity properties that can compensate linear phase shift errors. The analysis of the wrapped phase equation is carried out in the Fourier frequency domain.

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Reduction of the ringing effect in off-axis digital holography reconstruction from two reconstruction distances based on Talbot effect

et al. 2015

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Dual-plane slightly off-axis digital holography based on a single cube beam splitter

et al. 2018

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In order to recover the holographic object information, a method based on the recording of two digital holograms, not only at different planes but also in a slightly off-axis scheme, is presented. By introducing a -phase shift in the reference wave, the zero-order diffracted term and the twin image are removed in the frequency domain during the processing of the recorded holograms. We show that the zero-order elimination by the phase-shifted holograms is better than working with weak-order beam and average intensity removal methods. For recording experimentally two-shifted holograms at different planes slightly off-axis, a single cube beam splitter is used. Computer simulations and experimental results, carried out to validate our proposal, show a high accuracy of /14 that can be comparable with phase-shifting digital holography. For high fringe spacing, our proposal could be applied in electron holography, avoiding high voltage in a biprism.

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Inhomogeneous phase shifting: an algorithm for nonconstant phase displacements

Téllez-Quiñones

Malacara-Doblado

2010

Appl. Opt.

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In this work, we have developed a different algorithm than the classical one on phase-shifting interferometry. These algorithms typically use constant or homogeneous phase displacements and they can be quite accurate and insensitive to detuning, taking appropriate weight factors in the formula to recover the wrapped phase. However, these algorithms have not been considered with variable or inhomogeneous displacements. We have generalized these formulas and obtained some expressions for an implementation with variable displacements and ways to get partially insensitive algorithms with respect to these arbitrary error shifts.

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