Beyond Gr\"obner Bases: Basis Selection for Minimal Solvers
About
Many computer vision applications require robust estimation of the underlying geometry, in terms of camera motion and 3D structure of the scene. These robust methods often rely on running minimal solvers in a RANSAC framework. In this paper we show how we can make polynomial solvers based on the action matrix method faster, by careful selection of the monomial bases. These monomial bases have traditionally been based on a Gr\"obner basis for the polynomial ideal. Here we describe how we can enumerate all such bases in an efficient way. We also show that going beyond Gr\"obner bases leads to more efficient solvers in many cases. We present a novel basis sampling scheme that we evaluate on a number of problems.
Viktor Larsson, Magnus Oskarsson, Kalle {\AA}str\"om, Alge Wallis, Zuzana Kukelova, Tomas Pajdla• 2018
Related benchmarks
| Task | Dataset | Result | Rank | |
|---|---|---|---|---|
| Elimination Template Construction | Rel. pose F+λ 8pt | Template Size715 | 6 | |
| Elimination Template Construction | Rel. pose E+x 6pt | Template Dimensions1.44e+3 | 6 | |
| Elimination Template Construction | Stitching fX+R+fx 3pt | Template Size (H x W)1.84e+3 | 6 | |
| Elimination Template Construction | Rel. pose E+f 6pt | Template Size (Dimensions)1.12e+3 | 6 | |
| Elimination Template Construction | Rel. pose X1+F+12 9pt | Template Dimensions8.71e+4 | 6 | |
| Elimination Template Construction | Rel. pose E+f 7pt el. 1 | Template Size (Dimensions)2.44e+3 | 6 | |
| Elimination Template Construction | Rel. pose f+E+f 6pt | Template Size2.14e+3 | 6 | |
| Elimination Template Construction | Abs. pose P4P+fr | Template Size (Dimensions)5.47e+3 | 6 | |
| Elimination Template Construction | Abs. pose P4P+fr el. f | Template Size2.84e+3 | 6 | |
| Elimination Template Construction | Rel. pose E+f 7pt | Template Size (H x W)6.99e+3 | 6 |
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