35 research outputs found
CONSAC: Robust Multi-Model Fitting by Conditional Sample Consensus
We present a robust estimator for fitting multiple parametric models of the
same form to noisy measurements. Applications include finding multiple
vanishing points in man-made scenes, fitting planes to architectural imagery,
or estimating multiple rigid motions within the same sequence. In contrast to
previous works, which resorted to hand-crafted search strategies for multiple
model detection, we learn the search strategy from data. A neural network
conditioned on previously detected models guides a RANSAC estimator to
different subsets of all measurements, thereby finding model instances one
after another. We train our method supervised as well as self-supervised. For
supervised training of the search strategy, we contribute a new dataset for
vanishing point estimation. Leveraging this dataset, the proposed algorithm is
superior with respect to other robust estimators as well as to designated
vanishing point estimation algorithms. For self-supervised learning of the
search, we evaluate the proposed algorithm on multi-homography estimation and
demonstrate an accuracy that is superior to state-of-the-art methods.Comment: CVPR 202
Multiple structure recovery via robust preference analysis
2noThis paper address the extraction of multiple models from outlier-contaminated data by exploiting preference analysis and low rank approximation. First points are represented in the preference space, then Robust PCA (Principal Component Analysis) and Symmetric NMF (Non negative Matrix Factorization) are used to break the multi-model fitting problem into many single-model problems, which in turn are tackled with an approach inspired to MSAC (M-estimator SAmple Consensus) coupled with a model-specific scale estimate. Experimental validation on public, real data-sets demonstrates that our method compares favorably with the state of the art.openopenMagri, Luca; Fusiello, AndreaMagri, Luca; Fusiello, Andre