Depth-based computational photography

Ziwei Liu; Tingfa Xu; Jingdan Liu; Xiangmin Li; Peng Zhao

doi:10.1080/09500340.2014.1003259

Depth-based computational photography

Ziwei Liu, Tingfa Xu^*, Jingdan Liu, Xiangmin Li, Peng Zhao

^*Corresponding author for this work

School of Optics and Photonics

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

1 Citation (Scopus)

Abstract

A depth-based computational photography model is proposed for all-in-focus image capture. A decomposition function, a defocus matrix, and a depth matrix are introduced to construct the photography model. The original image acquired from a camera can be decomposed into several sub-images on the basis of depth information. The defocus matrix can be deduced from the depth matrix according to the sensor defocus geometry for a thin lens model. And the depth matrix is reconstructed using the axial binocular stereo vision algorithm. This photography model adopts an energy functional minimization method to acquire the sharpest image pieces separately. The implementation of the photography method is described in detail. Experimental results for an actual scene demonstrate that our model is effective.

Original language	English
Pages (from-to)	722-728
Number of pages	7
Journal	Journal of Modern Optics
Volume	62
Issue number	9
DOIs	https://doi.org/10.1080/09500340.2014.1003259
Publication status	Published - 21 May 2015

Keywords

computational imaging
decomposition function
geometrical optics
image formation theory
three-dimensional image acquisition

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10.1080/09500340.2014.1003259

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title = "Depth-based computational photography",

abstract = "A depth-based computational photography model is proposed for all-in-focus image capture. A decomposition function, a defocus matrix, and a depth matrix are introduced to construct the photography model. The original image acquired from a camera can be decomposed into several sub-images on the basis of depth information. The defocus matrix can be deduced from the depth matrix according to the sensor defocus geometry for a thin lens model. And the depth matrix is reconstructed using the axial binocular stereo vision algorithm. This photography model adopts an energy functional minimization method to acquire the sharpest image pieces separately. The implementation of the photography method is described in detail. Experimental results for an actual scene demonstrate that our model is effective.",

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AU - Liu, Ziwei

AU - Xu, Tingfa

AU - Liu, Jingdan

AU - Li, Xiangmin

AU - Zhao, Peng

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AB - A depth-based computational photography model is proposed for all-in-focus image capture. A decomposition function, a defocus matrix, and a depth matrix are introduced to construct the photography model. The original image acquired from a camera can be decomposed into several sub-images on the basis of depth information. The defocus matrix can be deduced from the depth matrix according to the sensor defocus geometry for a thin lens model. And the depth matrix is reconstructed using the axial binocular stereo vision algorithm. This photography model adopts an energy functional minimization method to acquire the sharpest image pieces separately. The implementation of the photography method is described in detail. Experimental results for an actual scene demonstrate that our model is effective.

KW - computational imaging

KW - decomposition function

KW - geometrical optics

KW - image formation theory

KW - three-dimensional image acquisition

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Depth-based computational photography

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Keywords

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