Rolling Shutter Camera Relative Pose: Generalized Epipolar Geometry
Abstract
The vast majority of modern consumer-grade cameras employ a rolling shutter mechanism. In dynamic geometric computer vision applications such as visual SLAM, the so-called rolling shutter effect therefore needs to be properly taken into account. A dedicated relative pose solver appears to be the first problem to solve, as it is of eminent importance to bootstrap any derivation of multi-view geometry. However, despite its significance, it has received inadequate attention to date. This paper presents a detailed investigation of the geometry of the rolling shutter relative pose problem. We introduce the rolling shutter essential matrix, and establish its link to existing models such as the push-broom cameras, summarized in a clean hierarchy of multi-perspective cameras. The generalization of well-established concepts from epipolar geometry is completed by a definition of the Sampson distance in the rolling shutter case. The work is concluded with a careful investigation of the introduced epipolar geometry for rolling shutter cameras on several dedicated benchmarks.
Cite
@article{arxiv.1605.00475,
title = {Rolling Shutter Camera Relative Pose: Generalized Epipolar Geometry},
author = {Yuchao Dai and Hongdong Li and Laurent Kneip},
journal= {arXiv preprint arXiv:1605.00475},
year = {2016}
}
Comments
Accepted by CVPR 2016, this is an extended version