Shadow removal for aerial imagery by information theoretic intrinsic image analysis

2012 IEEE International Conference on Computational Photography (ICCP) Pub Date : 2012-04-28 DOI:10.1109/ICCPhot.2012.6215222

Vivek Kwatra, Mei Han, Shengyang Dai

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引用次数: 26

Abstract

We present a novel technique for shadow removal based on an information theoretic approach to intrinsic image analysis. Our key observation is that any illumination change in the scene tends to increase the entropy of observed texture intensities. Similarly, the presence of texture in the scene increases the entropy of the illumination function. Consequently, we formulate the separation of an image into texture and illumination components as minimization of entropies of each component. We employ a non-parametric kernel-based quadratic entropy formulation, and present an efficient multi-scale iterative optimization algorithm for minimization of the resulting energy functional. Our technique may be employed either fully automatically, using a proposed learning based method for automatic initialization, or alternatively with small amount of user interaction. As we demonstrate, our method is particularly suitable for aerial images, which consist of either distinctive texture patterns, e.g. building facades, or soft shadows with large diffuse regions, e.g. cloud shadows.

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基于信息理论的航空图像内禀分析去影

本文提出了一种基于信息理论的图像内禀分析的阴影去除技术。我们的关键观察是，场景中的任何照明变化都倾向于增加观察到的纹理强度的熵。同样，场景中纹理的存在增加了照明函数的熵。因此，我们将图像分离为纹理和照明组件，作为每个组件熵的最小化。我们采用了一种非参数的基于核的二次熵公式，并提出了一种有效的多尺度迭代优化算法来最小化所产生的能量泛函。我们的技术可以完全自动地使用，使用建议的基于学习的方法进行自动初始化，或者使用少量的用户交互。正如我们所展示的，我们的方法特别适用于航空图像，这些图像由独特的纹理图案组成，例如建筑立面，或者具有大漫射区域的软阴影，例如云阴影。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2012 IEEE International Conference on Computational Photography (ICCP)

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