Efficient Belief Propagation for Vision Using Linear Constraint Nodes

2007 IEEE Conference on Computer Vision and Pattern Recognition Pub Date : 2007-06-17 DOI:10.1109/CVPR.2007.383094

B. Potetz

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引用次数: 93

Abstract

Belief propagation over pairwise connected Markov random fields has become a widely used approach, and has been successfully applied to several important computer vision problems. However, pairwise interactions are often insufficient to capture the full statistics of the problem. Higher-order interactions are sometimes required. Unfortunately, the complexity of belief propagation is exponential in the size of the largest clique. In this paper, we introduce a new technique to compute belief propagation messages in time linear with respect to clique size for a large class of potential functions over real-valued variables. We demonstrate this technique in two applications. First, we perform efficient inference in graphical models where the spatial prior of natural images is captured by 2 times 2 cliques. This approach shows significant improvement over the commonly used pairwise-connected models, and may benefit a variety of applications using belief propagation to infer images or range images. Finally, we apply these techniques to shape-from-shading and demonstrate significant improvement over previous methods, both in quality and in flexibility.

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基于线性约束节点的视觉信念高效传播

在成对连接马尔可夫随机场上的信念传播已成为一种广泛使用的方法，并已成功地应用于几个重要的计算机视觉问题。然而，两两交互通常不足以捕获问题的全部统计数据。有时需要高阶交互。不幸的是，信念传播的复杂性与最大集团的规模成指数关系。在本文中，我们引入了一种新的技术来计算在实值变量上的一大类势函数的信念传播消息与团大小的时间线性关系。我们在两个应用程序中演示了这种技术。首先，我们在图形模型中进行有效的推理，其中自然图像的空间先验被2乘以2团捕获。这种方法比常用的两两连接模型有了显著的改进，并且可能有利于使用信念传播来推断图像或范围图像的各种应用。最后，我们将这些技术应用于阴影形状，并在质量和灵活性上比以前的方法有了显著的改进。

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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2007 IEEE Conference on Computer Vision and Pattern Recognition

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