Improving robustness of line features for VIO in dynamic scene

Abstract

Abstract The point feature, whose dynamic robustness has been widely studied, dominates in the field of visual simultaneous localization and mapping (SLAM) or visual-inertial odometry (VIO). When discussing a dynamic scene, line features are not given enough attention. This paper proposes a pre-processing step for VIO to reduce the influence of lines upon dynamic objects on system robustness and merges it into a state-of-the-art optimization-based VIO pipeline. First, it is determined whether the line feature is a potential dynamic line based upon the result of the semantic segmentation, optical flow and re-projection error. Then, instead of filtering them out, the information matrixes of these line features in the optimization function is adjusted by a weight-based method according to their tracked size. A simulated challenged visual-inertial dataset is used to evaluate the proposed algorithm against other state-of-the-art methods. The results shows that proposed method can increase robustness to dynamic scenes and make the line-based map neater and more intuitive through avoiding the drawing of dynamic line features during the mapping procedure.