Three-dimensional scene reconstruction of partially occluded objects using digital holograms

Maycock J, McElhinney C, Hennelly B, Naughton T, McDonald J, Javidi B (2006)
Applied Optics 45(13): 2975-2985.

Download
No fulltext has been uploaded. References only!
Journal Article | Original Article | Published | English

No fulltext has been uploaded

Author
; ; ; ; ;
Abstract
We propose a task-specific digital holographic capture system for three-dimensional scenes, which can reduce the amount of data sent from the camera system to the receiver and can effectively reconstruct partially occluded objects. The system requires knowledge of the object of interest, but it does not require a priori knowledge of either the occlusion or the distance the object is from the camera. Subwindows of the camera-plane Fresnel field are digitally propagated to reveal different perspectives of the scene, and these are combined to overcome the unknown foreground occlusions. The nature of the occlusions and the effect of subwindows are analyzed thoroughly by using the Wigner distribution function. We demonstrate that a careful combination of reconstructions from subwindows can reveal features that are not apparent in a reconstruction from the whole hologram. We provide results by using optically captured digital holograms of real-world objects and simulated occlusions.
Publishing Year
ISSN
eISSN
PUB-ID

Cite this

Maycock J, McElhinney C, Hennelly B, Naughton T, McDonald J, Javidi B. Three-dimensional scene reconstruction of partially occluded objects using digital holograms. Applied Optics. 2006;45(13):2975-2985.
Maycock, J., McElhinney, C., Hennelly, B., Naughton, T., McDonald, J., & Javidi, B. (2006). Three-dimensional scene reconstruction of partially occluded objects using digital holograms. Applied Optics, 45(13), 2975-2985. doi:10.1364/ao.45.002975
Maycock, J., McElhinney, C., Hennelly, B., Naughton, T., McDonald, J., and Javidi, B. (2006). Three-dimensional scene reconstruction of partially occluded objects using digital holograms. Applied Optics 45, 2975-2985.
Maycock, J., et al., 2006. Three-dimensional scene reconstruction of partially occluded objects using digital holograms. Applied Optics, 45(13), p 2975-2985.
J. Maycock, et al., “Three-dimensional scene reconstruction of partially occluded objects using digital holograms”, Applied Optics, vol. 45, 2006, pp. 2975-2985.
Maycock, J., McElhinney, C., Hennelly, B., Naughton, T., McDonald, J., Javidi, B.: Three-dimensional scene reconstruction of partially occluded objects using digital holograms. Applied Optics. 45, 2975-2985 (2006).
Maycock, Jonathan, McElhinney, Conor, Hennelly, Bryan, Naughton, Thomas, McDonald, John, and Javidi, Bahram. “Three-dimensional scene reconstruction of partially occluded objects using digital holograms”. Applied Optics 45.13 (2006): 2975-2985.
This data publication is cited in the following publications:
This publication cites the following data publications:

11 Citations in Europe PMC

Data provided by Europe PubMed Central.

Three-Dimensional Imaging by Self-Reference Single-Channel Digital Incoherent Holography.
Rosen J, Kelner R., IEEE Trans Industr Inform 12(4), 2016
PMID: 28757811
Overview of compressive sensing techniques applied in holography [Invited].
Rivenson Y, Stern A, Javidi B., Appl Opt 52(1), 2013
PMID: 23292420
Phase-space window and degrees of freedom of optical systems with multiple apertures.
Ozaktas HM, Oktem FS., J Opt Soc Am A Opt Image Sci Vis 30(4), 2013
PMID: 23595329
Recovery of partially occluded objects by applying compressive Fresnel holography.
Rivenson Y, Rot A, Balber S, Stern A, Rosen J., Opt Lett 37(10), 2012
PMID: 22627561
Extended focused imaging for digital holograms of macroscopic three-dimensional objects.
McElhinney CP, Hennelly BM, Naughton TJ., Appl Opt 47(19), 2008
PMID: 18594582
Depth-independent segmentation of macroscopic three-dimensional objects encoded in single perspectives of digital holograms.
McElhinney CP, McDonald JB, Castro A, Frauel Y, Javidi B, Naughton TJ., Opt Lett 32(10), 2007
PMID: 17440543
Reduction of speckle in digital holography by discrete Fourier filtering.
Maycock J, Hennelly BM, McDonald JB, Frauel Y, Castro A, Javidi B, Naughton TJ., J Opt Soc Am A Opt Image Sci Vis 24(6), 2007
PMID: 17491629
Three-dimensional color object visualization and recognition using multi-wavelength computational holography.
Yeom S, Javidi B, Ferraro P, Alfieri D, Denicola S, Finizio A., Opt Express 15(15), 2007
PMID: 19547286

Export

0 Marked Publications

Open Data PUB

Web of Science

View record in Web of Science®

Sources

PMID: 16639445
PubMed | Europe PMC

Search this title in

Google Scholar