Abstract
In this paper, quantized residual preference is proposed to represent the hypotheses and the points for model selection and inlier segmentation in multi-structure geometric model fitting. First, a quantized residual preference is proposed to represent the hypotheses. Through a weighted similarity measurement and linkage clustering, similar hypotheses are put into one cluster, and hypotheses with good quality are selected from the clusters as the model selection results. After this, the quantized residual preference is also used to present the data points, and through the linkage clustering, the inliers belonging to the same model can be separated from the outliers. To exclude outliers as many as possible, an iterative sampling and clustering process is performed within the clustering process until the clusters are stable. The experiments undertake indicate that the proposed method performs even better on real data than the some state-of-the-art methods.
Highlights
When dealing with geometric model fitting problems in computer vision, it is considered that there is only one model instance in the data, and the classical method—random sample consensus (RANSAC) [1]—is used to estimate the model
We have proposed a robust two-stage multi-model fitting method, which is composed of model selection and inlier segmentation
The quantized residual preference is extracted for the hypothesis linkage clustering to obtain the main structure models in the data
Summary
When dealing with geometric model fitting problems in computer vision, it is considered that there is only one model instance in the data, and the classical method—random sample consensus (RANSAC) [1]—is used to estimate the model. A quantized residual-based two-stage multi-model fitting method is proposed in this paper to take advantage of the similarities between the point set, and the hypotheses Both stages make use of the quantized residual and contain a linkage cluster process, the difference is that the objects used for clustering are not the same. (2) Quantized residual preference is proposed to represent the points in linkage clustering to segment inliers belonging to different models on data with outliers.
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