Cross-Dimensional Refined Learning for Real-Time 3D Visual Perception from Monocular Video
We present a novel real-time capable learning method that jointly perceives a 3D scene's geometry structure and semantic labels. Recent approaches to real-time 3D scene reconstruction mostly adopt a volumetric scheme, where a truncated signed distance function (TSDF) is directly regressed. However, these volumetric approaches tend to focus on the global coherence of their reconstructions, which leads to a lack of local geometrical detail. To overcome this issue, we propose to leverage the latent geometrical prior knowledge in 2D image features by explicit depth prediction and anchored feature generation, to refine the occupancy learning in TSDF volume. Besides, we find that this cross-dimensional feature refinement methodology can also be adopted for the semantic segmentation task. Hence, we proposed an end-to-end cross-dimensional refinement neural network (CDRNet) to extract both 3D mesh and 3D semantic labeling in real time. The experiment results show that the proposed method achieves state-of-the-art 3D perception efficiency on multiple datasets, which indicates the great potential of our method for industrial applications.
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