A NEW DATASET AND METHODOLOGY FOR URBAN-SCALE 3D POINT CLOUD CLASSIFICATION

Q2 Social Sciences The International Archives of the Photogrammetry Remote Sensing and Spatial Information Sciences Pub Date : 2023-10-19 DOI:10.5194/isprs-archives-xlviii-1-w3-2023-1-2023

O. C. Bayrak, F. Remondino, M. Uzar

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Abstract

Abstract. Urban landscapes are characterized by a multitude of diverse objects, each bearing unique significance in urban management and development. With the rapid evolution and deployment of Unmanned Aerial Vehicle (UAV) technologies, the 3D surveying of urban areas through high resolution point clouds and orthoimages has become more feasible. This technological leap enhances our capacity to comprehensively capture and analyze urban spaces. This contribution introduces a new urban dataset, called YTU3D, which covers an area of approximately 2 km2 and encompasses 45 distinct classes. Notably, YTU3D exceeds the class diversity of existing datasets, thereby enhancing its suitability for detailed urban analysis tasks. The paper presents also the application of three popular deep learning methods in the context of 3D semantic segmentation, along with a multi-level multi-resolution (MLMR) integration. Significantly, our work marks the first application of deep learning with MLMR in the literature and shows that a MLMR approach can improve the classification accuracy. The YTU3D dataset and research findings are publicly available at https://github.com/3DOM-FBK/YTU3D.

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一种新的城市尺度三维点云分类数据集和方法

摘要城市景观的特点是众多不同的对象，每个对象在城市管理和发展中都具有独特的意义。随着无人机(UAV)技术的快速发展和部署，利用高分辨率点云和正射影像对城市区域进行三维测量变得更加可行。这一技术飞跃提高了我们全面捕捉和分析城市空间的能力。这一贡献介绍了一个新的城市数据集，称为YTU3D，它覆盖了大约2平方公里的面积，包括45个不同的类别。值得注意的是，YTU3D超越了现有数据集的类别多样性，从而增强了其对详细城市分析任务的适用性。本文还介绍了三种流行的深度学习方法在三维语义分割中的应用，以及多层次多分辨率(MLMR)集成。值得注意的是，我们的工作标志着深度学习与MLMR在文献中的首次应用，并表明MLMR方法可以提高分类精度。YTU3D数据集和研究成果可在https://github.com/3DOM-FBK/YTU3D上公开获取。

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