Adaptive spectral apodization for sidelobe reduction in optical coherence tomography images

Daniel Marks; P. Scott Carney; Stephen A. Boppart

doi:10.1117/1.1806471

Adaptive spectral apodization for sidelobe reduction in optical coherence tomography images

Daniel Marks
, P. Scott Carney
, Stephen A. Boppart

Mechanical Engineering

University of Illinois at Urbana-Champaign
University of Illinois at Chicago

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

16 Scopus citations

Abstract

Often in imaging systems, the bandpass of the system is not uniform. In temporal coherence imaging methods such as optical coherence tomography, one would like to achieve the most spatially confined impulse response possible with a given source spectrum, minimizing sidelobes that blur adjacent features together. Typically the spectrum of the source is controlled in order to remove sidelobes from the measured interferogram. However, the measured interferogram is not necessarily the best estimate of the scattering density of the object. In this work, a sidelobe supression method is proposed and demonstrated to achieve low sidelobes even with highly nonuniform, non-Gaussian spectra.

Original language	English
Pages (from-to)	1281-1287
Number of pages	7
Journal	Journal of Biomedical Optics
Volume	9
Issue number	6
DOIs	https://doi.org/10.1117/1.1806471
State	Published - Nov 2004

Keywords

Image processing
Optical coherence
Optical sources
Tomography

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10.1117/1.1806471

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title = "Adaptive spectral apodization for sidelobe reduction in optical coherence tomography images",

abstract = "Often in imaging systems, the bandpass of the system is not uniform. In temporal coherence imaging methods such as optical coherence tomography, one would like to achieve the most spatially confined impulse response possible with a given source spectrum, minimizing sidelobes that blur adjacent features together. Typically the spectrum of the source is controlled in order to remove sidelobes from the measured interferogram. However, the measured interferogram is not necessarily the best estimate of the scattering density of the object. In this work, a sidelobe supression method is proposed and demonstrated to achieve low sidelobes even with highly nonuniform, non-Gaussian spectra.",

keywords = "Image processing, Optical coherence, Optical sources, Tomography",

author = "Daniel Marks and Carney, \{P. Scott\} and Boppart, \{Stephen A.\}",

year = "2004",

month = nov,

doi = "10.1117/1.1806471",

language = "English",

volume = "9",

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T1 - Adaptive spectral apodization for sidelobe reduction in optical coherence tomography images

AU - Marks, Daniel

AU - Carney, P. Scott

AU - Boppart, Stephen A.

PY - 2004/11

Y1 - 2004/11

N2 - Often in imaging systems, the bandpass of the system is not uniform. In temporal coherence imaging methods such as optical coherence tomography, one would like to achieve the most spatially confined impulse response possible with a given source spectrum, minimizing sidelobes that blur adjacent features together. Typically the spectrum of the source is controlled in order to remove sidelobes from the measured interferogram. However, the measured interferogram is not necessarily the best estimate of the scattering density of the object. In this work, a sidelobe supression method is proposed and demonstrated to achieve low sidelobes even with highly nonuniform, non-Gaussian spectra.

AB - Often in imaging systems, the bandpass of the system is not uniform. In temporal coherence imaging methods such as optical coherence tomography, one would like to achieve the most spatially confined impulse response possible with a given source spectrum, minimizing sidelobes that blur adjacent features together. Typically the spectrum of the source is controlled in order to remove sidelobes from the measured interferogram. However, the measured interferogram is not necessarily the best estimate of the scattering density of the object. In this work, a sidelobe supression method is proposed and demonstrated to achieve low sidelobes even with highly nonuniform, non-Gaussian spectra.

KW - Image processing

KW - Optical coherence

KW - Optical sources

KW - Tomography

UR - https://www.scopus.com/pages/publications/12844255147

U2 - 10.1117/1.1806471

DO - 10.1117/1.1806471

M3 - Article

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AN - SCOPUS:12844255147

SN - 1083-3668

VL - 9

SP - 1281

EP - 1287

JO - Journal of Biomedical Optics

JF - Journal of Biomedical Optics

IS - 6

ER -

Adaptive spectral apodization for sidelobe reduction in optical coherence tomography images

Abstract

Keywords

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