利用多光谱数据利用监督学习进行三维模型语义分割

2019 6th International Conference on Signal Processing and Integrated Networks (SPIN) Pub Date : 2019-03-07 DOI:10.1109/SPIN.2019.8711658

G. Ioannakis, F. Arnaoutoglou, A. Koutsoudis, C. Chamzas

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引用次数: 1

摘要

使用多光谱图像来定义其建筑材料的基于纹理的3D模型分割是在这项工作的范围内解决的。提出了一种端到端的管道，用于对现实世界物体进行数字化，构建空间一致的多光谱纹理图，并对物体表面的材料进行识别。一个多光谱相机能够捕捉紫外到近红外图像，用于创建图像序列的结构从运动为基础的三维重建。我们利用计算几何技术来创建基于紫外到近红外图像的空间一致纹理。各种监督学习方法被用于三维模型表面材料的识别和评估。实验结果表明，该方法在三维数字化模型研究中具有良好的应用前景。

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Exploiting Supervised Learning for 3D Model Semantic Segmentation Using Multispectral Data

3D model texture-based segmentation using multispectral imagery to define its construction materials is addressed within the scope of this work. An end-to-end pipeline is proposed to digitize a real-world object, construct a spatial consistent multispectral texture map and to identify materials on its surface. A multispectral camera capable of capturing ultraviolet to near infrared imagery is used to create image sequences for its Structure-from-Motion based 3D reconstruction. We utilize computational geometry techniques to create a spatial-consistent texture based on ultraviolet to near infrared imagery. Various supervised learning approaches are utilized and evaluated on the identification of materials on a 3D model's surface. Experimental results are promising and reveal its capabilities in the study of 3D digitized models.

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2019 6th International Conference on Signal Processing and Integrated Networks (SPIN)

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