Sampson distance based joint estimation of multiple homographies with uncalibrated cameras

•Practitioners typically estimate multiple homographies separately.•Separate estimation does not enforce inter-homography constraints.•We jointly estimate homographies so that all constraints are satisfied.•Enforcing inter-homography constraints improves accuracy considerably.•Our cost function oper...

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Vydáno v:Computer vision and image understanding Ročník 125; s. 200 - 213
Hlavní autoři: Szpak, Zygmunt L., Chojnacki, Wojciech, Eriksson, Anders, van den Hengel, Anton
Médium: Journal Article
Jazyk:angličtina
Vydáno: Amsterdam Elsevier Inc 01.08.2014
Elsevier
Témata:
Applied sciences
Artificial intelligence
Cameras
Collection
Computer science; control theory; systems
Computer vision
Cost function
Data points
Estimates
Exact sciences and technology
Fittings
Latent variables
Mathematics
Maximum likelihood
Multiple homographies
Parameter estimation
Parametric inference
Pattern recognition. Digital image processing. Computational geometry
Probability and statistics
Sampson distance
Sciences and techniques of general use
Statistics
Sampson distance
Multiple homographies
Latent variables
Parameter estimation
Maximum likelihood
Image processing
Epipolar geometry
Image databank
Latent variable model
Modeling
Multiple decision
Multiple view
Latent variable
Image analysis
Scene analysis
Homograph
Hidden variable theory
Problem solving
Cost function
System identification
Multiple choice
ISSN:1077-3142, 1090-235X
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Shrnutí:•Practitioners typically estimate multiple homographies separately.•Separate estimation does not enforce inter-homography constraints.•We jointly estimate homographies so that all constraints are satisfied.•Enforcing inter-homography constraints improves accuracy considerably.•Our cost function operates directly on image points via the Sampson distance. Two images of a scene consisting of multiple flat surfaces are related by a collection of homography matrices. Practitioners typically estimate these homographies separately thereby violating inherent inter-homography constraints that arise naturally out of the rigid geometry of the scene. We demonstrate that through a suitable choice of parametrisation multiple homographies can be jointly estimated in a manner so as to satisfy all inter-homography constraints. Unlike the cost functions used previously for solving this problem, our cost function does not correspond to fitting one set of homography matrices to another set of homography matrices. Instead, we utilise the Sampson distance for homography matrix estimation and operate directly on image data points. By using the Sampson distance and working directly on data points, we expedite the application of a vast amount of knowledge that already exists for Sampson-distance-based single homography or fundamental matrix estimation. The estimation framework reported in this paper establishes a new baseline for joint multiple homography estimation and at the same time raises intriguing new research questions. The work may be of interest to a broad range of researchers who require the estimation of homography matrices with uncalibrated cameras as part of their solution.
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ISSN:1077-3142
1090-235X
DOI:10.1016/j.cviu.2014.04.008