Computational photography and compressive holography

Daniel L. Marks; Joonku Hahn; Ryoichi Horisaki; David J. Brady

doi:10.1109/ICCPHOT.2010.5585090

Computational photography and compressive holography

Daniel L. Marks, Joonku Hahn, Ryoichi Horisaki, David J. Brady

School of Electronics Engineering

Duke University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

2 Scopus citations

Abstract

As lasers, photosensors, and computational imaging techniques improve, holography becomes an increasingly attractive approach for imaging applications largely re- served for photography. For the same illumination energy, we show that holography and photography have nearly identical noise performance. Because the coherent field is two dimensional outside of a source, there is ambiguity in inferring the three-dimensional structure of a source from the coherent field. Compressive holography overcomes this limitation by imposing sparsity constraints on the three- dimensional scatterer, which greatly reduces the number of possibilities allowing reliable inference of structure. We demonstrate the use of compressive holography to infer the three-dimensional structure of a scene comprising two toys

Original language	English
Title of host publication	2010 IEEE International Conference on Computational Photography, ICCP 2010
DOIs	https://doi.org/10.1109/ICCPHOT.2010.5585090
State	Published - 2010
Event	2010 IEEE International Conference on Computational Photography, ICCP 2010 - Cambridge, MA, United States Duration: 29 Mar 2010 → 30 Mar 2010

Publication series

Name	2010 IEEE International Conference on Computational Photography, ICCP 2010

Conference

Conference	2010 IEEE International Conference on Computational Photography, ICCP 2010
Country/Territory	United States
City	Cambridge, MA
Period	29/03/10 → 30/03/10

Access to Document

10.1109/ICCPHOT.2010.5585090

Cite this

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title = "Computational photography and compressive holography",

abstract = "As lasers, photosensors, and computational imaging techniques improve, holography becomes an increasingly attractive approach for imaging applications largely re- served for photography. For the same illumination energy, we show that holography and photography have nearly identical noise performance. Because the coherent field is two dimensional outside of a source, there is ambiguity in inferring the three-dimensional structure of a source from the coherent field. Compressive holography overcomes this limitation by imposing sparsity constraints on the three- dimensional scatterer, which greatly reduces the number of possibilities allowing reliable inference of structure. We demonstrate the use of compressive holography to infer the three-dimensional structure of a scene comprising two toys",

author = "Marks, {Daniel L.} and Joonku Hahn and Ryoichi Horisaki and Brady, {David J.}",

year = "2010",

doi = "10.1109/ICCPHOT.2010.5585090",

language = "English",

isbn = "9781424470235",

series = "2010 IEEE International Conference on Computational Photography, ICCP 2010",

booktitle = "2010 IEEE International Conference on Computational Photography, ICCP 2010",

note = "2010 IEEE International Conference on Computational Photography, ICCP 2010 ; Conference date: 29-03-2010 Through 30-03-2010",

}

Marks, DL, Hahn, J, Horisaki, R & Brady, DJ 2010, Computational photography and compressive holography. in 2010 IEEE International Conference on Computational Photography, ICCP 2010., 5585090, 2010 IEEE International Conference on Computational Photography, ICCP 2010, 2010 IEEE International Conference on Computational Photography, ICCP 2010, Cambridge, MA, United States, 29/03/10. https://doi.org/10.1109/ICCPHOT.2010.5585090

Computational photography and compressive holography. / Marks, Daniel L.; Hahn, Joonku; Horisaki, Ryoichi et al.
2010 IEEE International Conference on Computational Photography, ICCP 2010. 2010. 5585090 (2010 IEEE International Conference on Computational Photography, ICCP 2010).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Computational photography and compressive holography

AU - Marks, Daniel L.

AU - Hahn, Joonku

AU - Horisaki, Ryoichi

AU - Brady, David J.

PY - 2010

Y1 - 2010

N2 - As lasers, photosensors, and computational imaging techniques improve, holography becomes an increasingly attractive approach for imaging applications largely re- served for photography. For the same illumination energy, we show that holography and photography have nearly identical noise performance. Because the coherent field is two dimensional outside of a source, there is ambiguity in inferring the three-dimensional structure of a source from the coherent field. Compressive holography overcomes this limitation by imposing sparsity constraints on the three- dimensional scatterer, which greatly reduces the number of possibilities allowing reliable inference of structure. We demonstrate the use of compressive holography to infer the three-dimensional structure of a scene comprising two toys

AB - As lasers, photosensors, and computational imaging techniques improve, holography becomes an increasingly attractive approach for imaging applications largely re- served for photography. For the same illumination energy, we show that holography and photography have nearly identical noise performance. Because the coherent field is two dimensional outside of a source, there is ambiguity in inferring the three-dimensional structure of a source from the coherent field. Compressive holography overcomes this limitation by imposing sparsity constraints on the three- dimensional scatterer, which greatly reduces the number of possibilities allowing reliable inference of structure. We demonstrate the use of compressive holography to infer the three-dimensional structure of a scene comprising two toys

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U2 - 10.1109/ICCPHOT.2010.5585090

DO - 10.1109/ICCPHOT.2010.5585090

M3 - Conference contribution

AN - SCOPUS:78149438750

SN - 9781424470235

T3 - 2010 IEEE International Conference on Computational Photography, ICCP 2010

BT - 2010 IEEE International Conference on Computational Photography, ICCP 2010

T2 - 2010 IEEE International Conference on Computational Photography, ICCP 2010

Y2 - 29 March 2010 through 30 March 2010

ER -

Computational photography and compressive holography

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