New approaches to robust, point-based image registration

Image Registration for Remote Sensing Pub Date : 1900-01-01 DOI:10.1017/CBO9780511777684.009

D. Mount, N. Netanyahu, S. Ratanasanya

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引用次数: 5

Abstract

We consider various algorithmic solutions to image registration based on the alignment of a set of feature points. We present a number of enhancements to a branch-and-bound algorithm introduced by Mount, Netanyahu, and Le Moigne (Pattern Recognition, Vol. 32, 1999, pp. 17–38), which presented a registration algorithm based on the partial Hausdorff distance. Our enhancements include a new distance measure, the discrete Gaussian mismatch, and a number of improvements and extensions to the above search algorithm. Both distance measures are robust to the presence of outliers, that is, data points from either set that do not match any point of the other set. We present experimental studies, which show that the new distance measure considered can provide significant improvements over the partial Hausdorff distance in instances where the number of outliers is not known in advance. These experiments also show that our other algorithmic improvements can offer tangible improvements. We demonstrate the algorithm’s efficacy by considering images involving different sensors and different spectral bands, both in a traditional framework and in a multiresolution framework.

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鲁棒的、基于点的图像配准新方法

我们考虑了基于一组特征点对齐的图像配准的各种算法解决方案。我们对Mount、Netanyahu和Le Moigne (Pattern Recognition, Vol. 32, 1999, pp. 17-38)提出的分支定界算法进行了许多改进，其中提出了一种基于部分Hausdorff距离的配准算法。我们的改进包括一个新的距离度量，离散高斯不匹配，以及对上述搜索算法的一些改进和扩展。这两种距离度量对于异常值的存在都具有鲁棒性，即来自任何一组的数据点与另一组的任何点都不匹配。我们提出的实验研究表明，在预先不知道异常值数量的情况下，所考虑的新距离度量可以提供比部分豪斯多夫距离显著的改进。这些实验也表明，我们的其他算法改进可以提供切实的改进。我们通过在传统框架和多分辨率框架中考虑涉及不同传感器和不同光谱带的图像来证明该算法的有效性。

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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Image Registration for Remote Sensing

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