输变电塔三维高效高精度模型驱动建模

ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences Pub Date : 2020-11-23 DOI:10.5194/isprs-archives-xliv-4-w3-2020-421-2020

Zhengrong Wu, Hao Wang, Wenhui Yu, J. Xi, W. Lei, T. Tang

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引用次数: 2

摘要

摘要利用激光雷达点云构建输电塔是智能电网建设的基础步骤。然而，目前输电塔的施工方法严重依赖人工编辑，距离实际工业应用还很远。提出了一种基于模型驱动的输电塔三维快速准确施工方法。该方法首先生成不同类型的三维塔模型。然后，利用得到的发射塔点云计算点云分布的方向特征;在确定发射塔主方向的同时，确定发射塔的局部坐标。然后以半自动的方式捕捉关键点。根据这些关键点，采用模型匹配算法选择与点云最匹配的输电塔模型。与现有的传统手工编辑方法相比，本文所提出的方法采用基于模型驱动的策略，可以保证重建塔模型的完整性和准确性。该方法在人工编辑和效率之间进行了权衡，保证了塔的建模质量。并通过实际点云数据的实验验证了该方法的可行性和实用性。

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3D HIGH-EFFICIENCY AND HIGH-PRECISION MODEL-DRIVEN MODELLING FOR POWER TRANSMISSION TOWER

Abstract. Constructing the transmission tower from LiDAR point clouds is a fundamental step for smart grid. However, currently the transmission tower construction method relies heavily on manual editing, which is far from the practical industrial application. This paper proposes a model-driven based method to realize 3D construction of transmission tower fast and accurately. This method first generates different types of 3D tower models. Then, it calculates the direction characteristic of point clouds distribution using the obtained transmission towers point clouds. While finding the principal direction of transmission towers, the local coordinates of the transmission towers are settled. And then the key points are captured in a semi-automatically way. According to these key points, the transmission tower model that best matches the point clouds is selected using the model matching algorithm. Comparing with the existing traditional manual editing methods, the method proposed in this paper can ensure the integrity and accuracy of the reconstructed tower model using the model-driven based strategy. The proposed method makes a trade-off between manual editing and efficiency, which guarantees the quality of tower modelling. And the feasibility and practicability of the proposed method are verified by the experiments on real-world point clouds data.

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ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences

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