Oversampling requirements for pixelated-imager systems

Ofer Hadar; Glenn D. Boreman

doi:10.1117/1.602044

Oversampling requirements for pixelated-imager systems

Ofer Hadar
, Glenn D. Boreman

School of Electrical and Computer Engineering

Research output: Contribution to journal › Article › peer-review

46 Scopus citations

Abstract

The image quality resulting from a 2-D image-sampling process by an array of pixels is described. The description is based on a Fourier transformation of the Wigner-Seitz cell, which transforms a unit cell of the sampling lattice in the spatial domain into a bandwidth cell in the spatial-frequency domain. The area of the resulting bandwidth cell is a quantitative measure of the image fidelity of the sampling process. We compare the image-quality benefits of three different oversampling geometries in terms of the modulation transfer function (MTF) as a function of the amount of oversampling used.

Original language	English
Pages (from-to)	782-785
Number of pages	4
Journal	Optical Engineering
Volume	38
Issue number	5
DOIs	https://doi.org/10.1117/1.602044
State	Published - 1 May 1999

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics
General Engineering

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abstract = "The image quality resulting from a 2-D image-sampling process by an array of pixels is described. The description is based on a Fourier transformation of the Wigner-Seitz cell, which transforms a unit cell of the sampling lattice in the spatial domain into a bandwidth cell in the spatial-frequency domain. The area of the resulting bandwidth cell is a quantitative measure of the image fidelity of the sampling process. We compare the image-quality benefits of three different oversampling geometries in terms of the modulation transfer function (MTF) as a function of the amount of oversampling used.",

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AB - The image quality resulting from a 2-D image-sampling process by an array of pixels is described. The description is based on a Fourier transformation of the Wigner-Seitz cell, which transforms a unit cell of the sampling lattice in the spatial domain into a bandwidth cell in the spatial-frequency domain. The area of the resulting bandwidth cell is a quantitative measure of the image fidelity of the sampling process. We compare the image-quality benefits of three different oversampling geometries in terms of the modulation transfer function (MTF) as a function of the amount of oversampling used.

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Oversampling requirements for pixelated-imager systems

Abstract

ASJC Scopus subject areas

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