Boundary-Aware 3D Building Reconstruction From a Single Overhead Image

Jisan Mahmud, True Price, Akash Bapat, Jan-Michael Frahm
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引用次数: 36

Abstract

We propose a boundary-aware multi-task deep-learning-based framework for fast 3D building modeling from a single overhead image. Unlike most existing techniques which rely on multiple images for 3D scene modeling, we seek to model the buildings in the scene from a single overhead image by jointly learning a modified signed distance function (SDF) from the building boundaries, a dense heightmap of the scene, and scene semantics. To jointly train for these tasks, we leverage pixel-wise semantic segmentation and normalized digital surface maps (nDSM) as supervision, in addition to labeled building outlines. At test time, buildings in the scene are automatically modeled in 3D using only an input overhead image. We demonstrate an increase in building modeling performance using a multi-feature network architecture that improves building outline detection by considering network features learned for the other jointly learned tasks. We also introduce a novel mechanism for robustly refining instance-specific building outlines using the learned modified SDF. We verify the effectiveness of our method on multiple large-scale satellite and aerial imagery datasets, where we obtain state-of-the-art performance in the 3D building reconstruction task.
基于单幅头顶图像的边界感知三维建筑重建
我们提出了一种基于边界感知的多任务深度学习框架,用于从单个头顶图像中快速建模3D建筑。与大多数依赖多幅图像进行3D场景建模的现有技术不同,我们寻求通过联合学习来自建筑物边界的修改符号距离函数(SDF)、场景的密集高度图和场景语义,从单个架空图像中建模场景中的建筑物。为了联合训练这些任务,除了标记建筑轮廓外,我们还利用逐像素语义分割和规范化数字表面地图(nDSM)作为监督。在测试时,场景中的建筑物仅使用输入的头顶图像自动建模为3D。我们演示了使用多特征网络架构来提高建筑物建模性能,该架构通过考虑为其他联合学习任务学习的网络特征来改进建筑物轮廓检测。我们还引入了一种新机制,使用学习到的改进的SDF稳健地精炼特定于实例的建筑轮廓。我们在多个大型卫星和航空图像数据集上验证了我们方法的有效性,在这些数据集上,我们在3D建筑重建任务中获得了最先进的性能。
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