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基于三视图约束的基础矩阵估计
引用本文:李聪,赵红蕊,傅罡.基于三视图约束的基础矩阵估计[J].计算机应用,2014,34(10):2930-2933.
作者姓名:李聪  赵红蕊  傅罡
作者单位:清华大学 地球空间信息研究所,北京 100084
摘    要:考虑到只依赖对极几何关系的匹配点余差并不能完全区分匹配点的正确与否,从而影响内点集选取的情况,提出基于三视图约束的基础矩阵估计算法。首先,使用传统随机抽样一致性(RANSAC)算法计算三视图的任意两对相邻图像间的基础矩阵,确定三视图中共有的匹配点对,并计算估计基础矩阵时非共用图像上的匹配点在共用图像上的极线;然后,计算两条极线的交点与共用图像上对应匹配点间的距离,以距离值的大小作为内点判断的依据,得到新的内点集。在新内点集的基础上,采用M估计算法重新计算基础矩阵。实验结果表明:该方法可以同时降低噪声和错误匹配对基础矩阵精确计算的影响,精度优于传统鲁棒性算法,使点到极线的距离限制在0.3个像素左右,而且计算结果具有稳定性,可以被广泛地应用到基于图像序列的三维重建和摄影测量等领域中。

关 键 词:对极几何  三视图约束  基础矩阵  鲁棒性  随机抽样一致性
收稿时间:2014-04-15
修稿时间:2014-06-19

Fundamental matrix estimation based on three-view constraint
LI Cong,ZHAO Hongrui,FU Gang.Fundamental matrix estimation based on three-view constraint[J].journal of Computer Applications,2014,34(10):2930-2933.
Authors:LI Cong  ZHAO Hongrui  FU Gang
Affiliation:Institute of Geomatics, Tsinghua University, Beijing 100084, China
Abstract:The matching points cant be decided absolutely by its residuals just relying on epipolar geometry residuals, which influences the selection of optimum inlier set. So a novel fundamental matrix calculation algorithm was proposed based on three-view constraint. Firstly, the initial fundamental matrices were estimated by traditional RANdom SAmple Consensus (RANSAC) method. Then matching points existed in every view were selected, and the epipolar lines of points not in the common view were calculated in fundamental matrix estimation. Distances between the points in common view and the intersection of its matching points epipolar lines were calculated. Under judgment based on the distances, a new optimum inlier set was obtained. Finally, the M-Estimators (ME) algorithm was used to calculate the fundamental matrices based on the new optimum inlier set. Through a mass of experiments in case of mismatching and noise, the results indicate that the algorithm can effectively reduce the influence of mismatch and noise on accurate calculation of fundamental matrices. It gets better accuracy than traditional robust algorithms by limiting distance between point and epipolar line to about 0.3 pixels, in addition, an improvement in stability. So, it can be widely applied to fields such as 3D reconstruction based on image sequence and photogrammetry.
Keywords:epipolar geometry  three-view constraint  fundamental matrix  robustness  RANdom SAmple Consensus (RANSAC)
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