Building Modeling through Enclosure Reasoning

2014 2nd International Conference on 3D Vision Pub Date : 2014-12-08 DOI:10.1109/3DV.2014.65

Adam Stambler, Daniel F. Huber

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引用次数: 13

Abstract

This paper introduces a method for automatically transforming a point cloud from a laser scanner into a volumetric 3D building model based on the new concept of enclosure reasoning. Rather than simply classifying and modeling building surfaces independently or with pair wise contextual relationships, this work introduces room, floor and building level reasoning. Enclosure reasoning premises that rooms are cycles of walls enclosing free interior space. These cycles should be of minimum description length (MDL) and obey the statistical priors expected for rooms. Floors and buildings then contain the best coverage of the mostly likely rooms. This allows the pipeline to generate higher fidelity models by performing modeling and recognition jointly over the entire building at once. The complete pipeline takes raw, registered laser scan surveys of a single building. It extracts the most likely smooth architectural surfaces, locates the building, and generates wall hypotheses. The algorithm then optimizes the model by growing, merging, and pruning these hypotheses to generate the most likely rooms, floors, and building in the presence of significant clutter.

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通过围合推理进行建筑建模

本文介绍了一种基于封闭推理的新概念，将激光扫描仪上的点云自动转换为三维建筑体模型的方法。这项工作不是简单地对建筑表面进行独立分类和建模，也不是使用成对的上下文关系，而是引入了房间、楼层和建筑水平的推理。封闭推理的前提是房间是包围自由内部空间的墙壁循环。这些循环应该具有最小描述长度(MDL)，并符合房间预期的统计先验。楼层和建筑物可以最好地覆盖最可能出现的房间。这允许管道通过在整个建筑上同时执行建模和识别来生成更高保真度的模型。完整的管道对一栋建筑进行原始的、注册的激光扫描调查。它提取最可能光滑的建筑表面，定位建筑，并产生墙壁假设。然后，算法通过增长、合并和修剪这些假设来优化模型，以在存在大量杂乱的情况下生成最可能的房间、楼层和建筑物。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2014 2nd International Conference on 3D Vision

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