Phase retrieval deblurring for imaging of dense object within a low scattering soft biological tissue

Maya AvivShalev; Yair Rivenson; Amihai Meiri; Zeev Zalevsky

doi:10.1117/1.JBO.21.9.096008

Phase retrieval deblurring for imaging of dense object within a low scattering soft biological tissue

Maya AvivShalev
, Yair Rivenson
, Amihai Meiri
, Zeev Zalevsky

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

1 Scopus citations

Abstract

Tissues are characterized by a strong scattering of visible optical radiation, which prevents one from achieving deep-tissue imaging. We propose a computational imaging technique for the inference of specific macroscopic, spatial phase distribution features of the scattering media. The spatial phase distribution is reconstructed from several defocused intensity images. We empirically demonstrate the method by reconstructing the location of two fibula chicken bones, embedded within chicken breast tissue. The suggested technique is safe, using visible laser illumination, and noninvasive. It is also cost-effective since a simple optical system is used and the images are acquired using a conventional camera, and it does not require interferometric detection as well as direct access to the object in absence of the layer.

Original language	English
Article number	096008
Journal	Journal of Biomedical Optics
Volume	21
Issue number	9
DOIs	https://doi.org/10.1117/1.JBO.21.9.096008
State	Published - 1 Sep 2016
Externally published	Yes

Keywords

Fourier optics
image processing
imaging systems
light scattering.
medical optics
phase retrieval

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Biomaterials
Atomic and Molecular Physics, and Optics
Biomedical Engineering

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10.1117/1.JBO.21.9.096008

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title = "Phase retrieval deblurring for imaging of dense object within a low scattering soft biological tissue",

abstract = "Tissues are characterized by a strong scattering of visible optical radiation, which prevents one from achieving deep-tissue imaging. We propose a computational imaging technique for the inference of specific macroscopic, spatial phase distribution features of the scattering media. The spatial phase distribution is reconstructed from several defocused intensity images. We empirically demonstrate the method by reconstructing the location of two fibula chicken bones, embedded within chicken breast tissue. The suggested technique is safe, using visible laser illumination, and noninvasive. It is also cost-effective since a simple optical system is used and the images are acquired using a conventional camera, and it does not require interferometric detection as well as direct access to the object in absence of the layer.",

keywords = "Fourier optics, image processing, imaging systems, light scattering., medical optics, phase retrieval",

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AU - AvivShalev, Maya

AU - Rivenson, Yair

AU - Meiri, Amihai

AU - Zalevsky, Zeev

PY - 2016/9/1

Y1 - 2016/9/1

N2 - Tissues are characterized by a strong scattering of visible optical radiation, which prevents one from achieving deep-tissue imaging. We propose a computational imaging technique for the inference of specific macroscopic, spatial phase distribution features of the scattering media. The spatial phase distribution is reconstructed from several defocused intensity images. We empirically demonstrate the method by reconstructing the location of two fibula chicken bones, embedded within chicken breast tissue. The suggested technique is safe, using visible laser illumination, and noninvasive. It is also cost-effective since a simple optical system is used and the images are acquired using a conventional camera, and it does not require interferometric detection as well as direct access to the object in absence of the layer.

AB - Tissues are characterized by a strong scattering of visible optical radiation, which prevents one from achieving deep-tissue imaging. We propose a computational imaging technique for the inference of specific macroscopic, spatial phase distribution features of the scattering media. The spatial phase distribution is reconstructed from several defocused intensity images. We empirically demonstrate the method by reconstructing the location of two fibula chicken bones, embedded within chicken breast tissue. The suggested technique is safe, using visible laser illumination, and noninvasive. It is also cost-effective since a simple optical system is used and the images are acquired using a conventional camera, and it does not require interferometric detection as well as direct access to the object in absence of the layer.

KW - Fourier optics

KW - image processing

KW - imaging systems

KW - light scattering.

KW - medical optics

KW - phase retrieval

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DO - 10.1117/1.JBO.21.9.096008

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SN - 1083-3668

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Phase retrieval deblurring for imaging of dense object within a low scattering soft biological tissue

Abstract

Keywords

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