Planar segmentation and topological reconstruction for urban buildings with lidar point clouds

International Symposium on Lidar and Radar Mapping Technologies Pub Date : 2011-06-12 DOI:10.1117/12.912838

Yunfan Li, Hongchao Ma, Jianwei Wu

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引用次数: 3

Abstract

This paper presents a framework for segmentation and topological relationship reconstruction of building planar surfaces by using airborne LiDAR point clouds. The analysis of a planar surface structure is fundamental to almost any applications involving LiDAR data, especially building reconstruction. The proposed framework consists of two steps. Firstly, point clouds is segmented using an improved RANSAC (RANdom SAmple Consensus) algorithm with variant consensus set threshold. It is designed to solve under- or no- segmentation problem. It reduces consensus set threshold when the original RANSAC could not find valid planes, hence small planar surfaces would be extracted. Then, the topological relationship planar surface is constructed based on estimating connectedness of connecting point pairs between each pair of adjacent planar surfaces. The types of connectedness of planar surface are divided into three categories and a statistical method is used to estimate the connectedness type. The reconstructed topological relationship is described by an adjacent graph and can be utilized in the building modeling. Experiments show the effectiveness and efficiency of the proposed framework.

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基于激光雷达点云的城市建筑平面分割与拓扑重建

提出了一种基于机载激光雷达点云的建筑平面分割与拓扑关系重建框架。平面结构的分析是几乎所有涉及激光雷达数据的应用的基础，尤其是建筑重建。提议的框架包括两个步骤。首先，采用改进的RANSAC (RANdom SAmple Consensus)算法对点云进行分割，该算法具有可变共识集阈值;它的设计是为了解决分割不足或没有分割的问题。它降低了原始RANSAC无法找到有效平面时的共识设定阈值，从而提取出较小的平面。然后，通过估计每对相邻平面之间连接点对的连通性，构建拓扑关系平面;将平面的连通类型分为三类，并采用统计方法对连通类型进行估计。重构后的拓扑关系用邻接图描述，可用于建筑建模。实验证明了该框架的有效性和高效性。

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International Symposium on Lidar and Radar Mapping Technologies

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