EDPLVO: Efficient Direct Point-Line Visual Odometry
Abstract
This paper introduces an efficient direct visual odometry (VO) algorithm using points and lines. Pixels on lines are generally adopted in direct methods. However, the original photometric error is only defined for points. It seems difficult to extend it to lines. In previous works, the collinear constraints for points on lines are either ignored [1] or introduce heavy computational load into the resulting optimization system [2]. This paper extends the photometric error for lines. We prove that the 3D points of the points on a 2D line are determined by the inverse depths of the endpoints of the 2D line, and derive a closed-form solution for this problem. This property can significantly reduce the number of variables to speed up the optimization, and can make the collinear constraint exactly satisfied. Furthermore, we introduce a two-step method to further accelerate the optimization, and prove the convergence of this method. The experimental results show that our algorithm outperforms the state-of-the-art direct VO algorithms.
BibTeX
@conference{Zhou-2022-134121,author = {Lipu Zhou and Guoquan Huang and Yinian Mao and Shengze Wang and Michael Kaess},
title = {EDPLVO: Efficient Direct Point-Line Visual Odometry},
booktitle = {Proceedings of (ICRA) International Conference on Robotics and Automation},
year = {2022},
month = {May},
pages = {7559 - 7565},
}