基于航空激光雷达数据的三维建筑检测与建模

2006 IEEE Computer Society Conference on Computer Vision and Pattern Recognition (CVPR'06) Pub Date : 2006-06-17 DOI:10.1109/CVPR.2006.12

Vivek Verma, Rakesh Kumar, S. Hsu

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引用次数: 349

摘要

本文提出了一种利用航空激光雷达(LIDAR, Light Detection and Ranging)数据检测和构建具有复杂建筑的城市区域三维几何模型的方法。从最低点方向收集的激光雷达数据是一个点云，它不仅包含建筑物屋顶和地形的表面样本，还包含来自树木、汽车等的有害杂波。这项工作的主要贡献是对简单参数形状的自动识别和估计，这些形状可以结合空中激光雷达数据来模拟非常复杂的建筑物。检测和建模算法的主要组成部分是:(1)屋顶和地形点的分割。(ii)屋顶拓扑推断。我们引入了屋顶拓扑图的概念来表示复杂屋顶结构的各个平面斑块之间的关系。参数化屋顶组成。通过搜索屋顶拓扑图中的子图来识别可以组合成复杂屋顶结构的简单参数屋顶形状。地形建模。地形被识别并建模为三角网格。最后，我们提供了实验结果，证明了我们的方法在快速和自动的建筑物检测和几何建模中具有实际激光雷达数据的有效性。我们能够以每平方约10分钟的速度对城市和其他城市区域进行建模。在一台低端个人电脑上。

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3D Building Detection and Modeling from Aerial LIDAR Data

This paper presents a method to detect and construct a 3D geometric model of an urban area with complex buildings using aerial LIDAR (Light Detection and Ranging) data. The LIDAR data collected from a nadir direction is a point cloud containing surface samples of not only the building roofs and terrain but also undesirable clutter from trees, cars, etc. The main contribution of this work is the automatic recognition and estimation of simple parametric shapes that can be combined to model very complex buildings from aerial LIDAR data. The main components of the detection and modeling algorithms are (i) Segmentation of roof and terrain points. (ii) Roof topology Inference. We introduce the concept of a roof-topology graph to represent the relationships between the various planar patches of a complex roof structure. (iii) Parametric roof composition. Simple parametric roof shapes that can be combined to create a complex roof structure of a building are recognized by searching for sub-graphs in its roof-topology graph. (iv) Terrain Modeling. The terrain is identified and modeled as a triangulated mesh. Finally, we provide experimental results that demonstrate the validity of our approach for rapid and automatic building detection and geometric modeling with real LIDAR data. We are able to model cities and other urban areas at the rate of about 10 minutes per sq. mile on a low-end PC.

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来源期刊

2006 IEEE Computer Society Conference on Computer Vision and Pattern Recognition (CVPR'06)

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