@inproceedings{liu2018towards,
author = {Liu, Peidong and Geppert, Marcel Nicolas and Heng, Lionel and Sattler, Torsten and Geiger, Andreas and Pollefeys, Marc},
title = {Towards Robust Visual Odometry with a Multi-Camera System},
organization = {IEEE/RSJ},
booktitle = {2018 International Conference on Intelligent Robots and Systems (IROS)},
year = {2018},
month = {October},
abstract = {We present a visual odometry (VO) algorithm for a multi-camera system and robust operation in challenging environments. Our algorithm consists of a pose tracker and a local mapper. The tracker estimates the current pose by minimizing photometric errors between the most recent keyframe and the current frame. The mapper initializes the depths of all sampled feature points using plane-sweeping stereo. To reduce pose drift, a sliding window optimizer is used to refine poses and structure jointly. Our formulation is flexible enough to support an arbitrary number of stereo cameras. We evaluate our algorithm thoroughly on five datasets. The datasets were captured in different conditions: daytime, night-time with near-infrared (NIR) illumination and nighttime without NIR illumination. Experimental results show that a multi-camera setup makes the VO more robust to challenging environments, especially night-time conditions, in which a single stereo configuration fails easily due to the lack of features.},
url = {http://approjects.co.za/?big=en-us/research/publication/towards-robust-visual-odometry-with-a-multi-camera-system/},
}