Interferometric synthetic aperture microscopy: Microscopic laser radar

Tyler S. Ralston; Gregory L. Charvat; Steven G. Adie; Brynmor J. Davis; P. Scott Carney; Stephen A. Boppart

doi:10.1364/OPN.21.6.000032

Interferometric synthetic aperture microscopy: Microscopic laser radar

Tyler S. Ralston
, Gregory L. Charvat
, Steven G. Adie
, Brynmor J. Davis
, P. Scott Carney
, Stephen A. Boppart

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

Abstract

ISAM provides spatially invariant resolution, extending the depth-of-field and reducing defocusing artifacts in clinical 3-D imaging. Volumetric data with spatially invariant resolution has the potential to improve system effectiveness for the many applications of OCT imaging. ISAM and SAR reconstruction algorithms are based on the same principle, namely that an aperture with high resolution can be computed from several lowresolution apertures. Further development of ISAM may benefit from the long history of SAR, in both reconstruction and hardware. The use of well-developed SAR algorithms such as ground moving target indication, autofocus, automatic target identification, and others can be applied to future ISAM imaging systems, providing automatic detection algorithms or guidance for diagnosis and intervention.

Original language	English
Pages (from-to)	32-38
Number of pages	7
Journal	Optics and Photonics News
Volume	21
Issue number	6
DOIs	https://doi.org/10.1364/OPN.21.6.000032
State	Published - Jun 2010

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Electrical and Electronic Engineering
Atomic and Molecular Physics, and Optics
Condensed Matter Physics

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10.1364/OPN.21.6.000032

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title = "Interferometric synthetic aperture microscopy: Microscopic laser radar",

abstract = "ISAM provides spatially invariant resolution, extending the depth-of-field and reducing defocusing artifacts in clinical 3-D imaging. Volumetric data with spatially invariant resolution has the potential to improve system effectiveness for the many applications of OCT imaging. ISAM and SAR reconstruction algorithms are based on the same principle, namely that an aperture with high resolution can be computed from several lowresolution apertures. Further development of ISAM may benefit from the long history of SAR, in both reconstruction and hardware. The use of well-developed SAR algorithms such as ground moving target indication, autofocus, automatic target identification, and others can be applied to future ISAM imaging systems, providing automatic detection algorithms or guidance for diagnosis and intervention.",

author = "Ralston, \{Tyler S.\} and Charvat, \{Gregory L.\} and Adie, \{Steven G.\} and Davis, \{Brynmor J.\} and Carney, \{P. Scott\} and Boppart, \{Stephen A.\}",

year = "2010",

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language = "English",

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T2 - Microscopic laser radar

AU - Ralston, Tyler S.

AU - Charvat, Gregory L.

AU - Adie, Steven G.

AU - Davis, Brynmor J.

AU - Carney, P. Scott

AU - Boppart, Stephen A.

PY - 2010/6

Y1 - 2010/6

N2 - ISAM provides spatially invariant resolution, extending the depth-of-field and reducing defocusing artifacts in clinical 3-D imaging. Volumetric data with spatially invariant resolution has the potential to improve system effectiveness for the many applications of OCT imaging. ISAM and SAR reconstruction algorithms are based on the same principle, namely that an aperture with high resolution can be computed from several lowresolution apertures. Further development of ISAM may benefit from the long history of SAR, in both reconstruction and hardware. The use of well-developed SAR algorithms such as ground moving target indication, autofocus, automatic target identification, and others can be applied to future ISAM imaging systems, providing automatic detection algorithms or guidance for diagnosis and intervention.

AB - ISAM provides spatially invariant resolution, extending the depth-of-field and reducing defocusing artifacts in clinical 3-D imaging. Volumetric data with spatially invariant resolution has the potential to improve system effectiveness for the many applications of OCT imaging. ISAM and SAR reconstruction algorithms are based on the same principle, namely that an aperture with high resolution can be computed from several lowresolution apertures. Further development of ISAM may benefit from the long history of SAR, in both reconstruction and hardware. The use of well-developed SAR algorithms such as ground moving target indication, autofocus, automatic target identification, and others can be applied to future ISAM imaging systems, providing automatic detection algorithms or guidance for diagnosis and intervention.

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Interferometric synthetic aperture microscopy: Microscopic laser radar

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