Large-Scale Semantic 3D Reconstruction: An Adaptive Multi-resolution Model for Multi-class Volumetric Labeling

M. Blaha, Christoph Vogel, Audrey Richard, J. D. Wegner, T. Pock, K. Schindler
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引用次数: 94

Abstract

We propose an adaptive multi-resolution formulation of semantic 3D reconstruction. Given a set of images of a scene, semantic 3D reconstruction aims to densely reconstruct both the 3D shape of the scene and a segmentation into semantic object classes. Jointly reasoning about shape and class allows one to take into account class-specific shape priors (e.g., building walls should be smooth and vertical, and vice versa smooth, vertical surfaces are likely to be building walls), leading to improved reconstruction results. So far, semantic 3D reconstruction methods have been limited to small scenes and low resolution, because of their large memory footprint and computational cost. To scale them up to large scenes, we propose a hierarchical scheme which refines the reconstruction only in regions that are likely to contain a surface, exploiting the fact that both high spatial resolution and high numerical precision are only required in those regions. Our scheme amounts to solving a sequence of convex optimizations while progressively removing constraints, in such a way that the energy, in each iteration, is the tightest possible approximation of the underlying energy at full resolution. In our experiments the method saves up to 98% memory and 95% computation time, without any loss of accuracy.
大规模语义三维重建:多类体积标记的自适应多分辨率模型
提出了一种语义三维重建的自适应多分辨率公式。给定一组场景图像,语义三维重建旨在密集地重建场景的三维形状并分割为语义对象类。关于形状和类别的联合推理允许人们考虑特定类别的形状先验(例如,建筑墙壁应该是光滑和垂直的,反之亦然,光滑,垂直的表面可能是建筑墙壁),从而改善重建结果。到目前为止,语义三维重建方法由于内存占用和计算成本大,仅限于小场景和低分辨率。为了将它们扩展到大型场景,我们提出了一种分层方案,该方案仅在可能包含表面的区域中改进重建,利用这些区域只需要高空间分辨率和高数值精度的事实。我们的方案相当于解决一系列凸优化,同时逐步消除约束,以这样一种方式,在每次迭代中,能量是在全分辨率下最接近底层能量的可能近似。在我们的实验中,该方法节省了98%的内存和95%的计算时间,没有任何准确性损失。
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