Dissecting scale from pose estimation in visual odometry

Rong yuan, Hongyi Fan and Benjamin Kimia

Abstract

Traditional visual odometry approaches often rely on estimating the world in the form a 3D cloud of points from key frames, which are then projected onto other frames to determine their absolute poses. The resulting trajectory is obtained from the integration of these incremental estimates. In this process, both in the initial world reconstruction as well as in the subsequent PnP projection, a rotation matrix and a translation vector are the unknowns that are solved via a numerical process. We observe that the involvement of all these variables in the numerical process is unnecessary, costing both computational time and accuracy. Rather, the relative pose of pairs of frames can be independently estimated from a set of common features, up to scale, with high accuracy. This scale parameter is a free parameter for each pair of frames, whose estimation is the only obstacle in the integration of these local estimates. This paper presents an approach for relating this free parameter for each neighboring pair of frames and therefore integrating the entire estimation process, leaving only a single global scale variable.

Session

Posters

Files

PDF iconPaper (PDF)
PDF iconSupplementary (PDF)

DOI

10.5244/C.31.170
https://dx.doi.org/10.5244/C.31.170

Citation

Rong yuan, Hongyi Fan and Benjamin Kimia. Dissecting scale from pose estimation in visual odometry. In T.K. Kim, S. Zafeiriou, G. Brostow and K. Mikolajczyk, editors, Proceedings of the British Machine Vision Conference (BMVC), pages 170.1-170.12. BMVA Press, September 2017.

Bibtex

            @inproceedings{BMVC2017_170,
                title={Dissecting scale from pose estimation in visual odometry},
                author={Rong yuan, Hongyi Fan and Benjamin Kimia},
                year={2017},
                month={September},
                pages={170.1-170.12},
                articleno={170},
                numpages={12},
                booktitle={Proceedings of the British Machine Vision Conference (BMVC)},
                publisher={BMVA Press},
                editor={Tae-Kyun Kim, Stefanos Zafeiriou, Gabriel Brostow and Krystian Mikolajczyk},
                doi={10.5244/C.31.170},
                isbn={1-901725-60-X},
                url={https://dx.doi.org/10.5244/C.31.170}
            }