Simultaneous Localization and Mapping using RGB-D cameras has been a fertile
research topic in the latest decade, due to the suitability of such sensors for
indoor robotics. In this paper we propose a direct RGB-D SLAM algorithm with
state-of-the-art accuracy and robustness at a los cost. Our experiments in the
RGB-D TUM dataset [34] effectively show a better accuracy and robustness in CPU
real time than direct RGB-D SLAM systems that make use of the GPU. The key
ingredients of our approach are mainly two. Firstly, the combination of a
semi-dense photometric and dense geometric error for the pose tracking (see
Figure 1), which we demonstrate to be the most accurate alternative. And
secondly, a model of the multi-view constraints and their errors in the mapping
and tracking threads, which adds extra information over other approaches. We
release the open-source implementation of our approach 1 . The reader is
referred to a video with our results 2 for a more illustrative visualization of
its performance