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Journal of Electronic Imaging

Joint estimation of motion and illumination change in a sequence of images
Author(s): Ja-Keoung Koo; Hyo-Hun Kim; Byung-Woo Hong
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Paper Abstract

We present an algorithm that simultaneously computes optical flow and estimates illumination change from an image sequence in a unified framework. We propose an energy functional consisting of conventional optical flow energy based on Horn–Schunck method and an additional constraint that is designed to compensate for illumination changes. Any undesirable illumination change that occurs in the imaging procedure in a sequence while the optical flow is being computed is considered a nuisance factor. In contrast to the conventional optical flow algorithm based on Horn–Schunck functional, which assumes the brightness constancy constraint, our algorithm is shown to be robust with respect to temporal illumination changes in the computation of optical flows. An efficient conjugate gradient descent technique is used in the optimization procedure as a numerical scheme. The experimental results obtained from the Middlebury benchmark dataset demonstrate the robustness and the effectiveness of our algorithm. In addition, comparative analysis of our algorithm and Horn–Schunck algorithm is performed on the additional test dataset that is constructed by applying a variety of synthetic bias fields to the original image sequences in the Middlebury benchmark dataset in order to demonstrate that our algorithm outperforms the Horn–Schunck algorithm. The superior performance of the proposed method is observed in terms of both qualitative visualizations and quantitative accuracy errors when compared to Horn–Schunck optical flow algorithm that easily yields poor results in the presence of small illumination changes leading to violation of the brightness constancy constraint.

Paper Details

Date Published: 15 October 2015
PDF: 11 pages
J. Electron. Imag. 24(5) 053027 doi: 10.1117/1.JEI.24.5.053027
Published in: Journal of Electronic Imaging Volume 24, Issue 5
Show Author Affiliations
Ja-Keoung Koo, Chung-Ang Univ. (Republic of Korea)
Hyo-Hun Kim, Chung-Ang Univ. (Republic of Korea)
Byung-Woo Hong, Chung-Ang Univ. (Republic of Korea)

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