Artificial neural networks exploiting point cloud data for fragmented solid objects classification

IF 6.3 2区物理与天体物理 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Machine Learning Science and Technology Pub Date : 2023-11-06 DOI:10.1088/2632-2153/ad035e

Alessandro Baiocchi, Stefano Giagu, Christian Napoli, Marco SERRA, Pietro Nardelli, Martina Valleriani

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Abstract

Abstract This paper presents a novel approach for fragmented solid object classification exploiting neural networks based on point clouds. This work is the initial step of a project in collaboration with the Institution of ‘Ente Parco Archeologico del Colosseo’ in Rome, which aims to reconstruct ancient artifacts from their fragments. We built from scratch a synthetic dataset (DS) of fragments of different 3D objects including aging effects. We used this DS to train deep learning models for the task of classifying internal and external fragments. As model architectures, we adopted PointNet and dynamical graph convolutional neural network, which take as input a point cloud representing the spatial geometry of a fragment, and we optimized model performance by adding additional features sensitive to local geometry characteristics. We tested the approach by performing several experiments to check the robustness and generalization capabilities of the models. Finally, we test the models on a real case using a 3D scan of artifacts preserved in different museums, artificially fragmented, obtaining good performance.

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利用点云数据进行碎片实体分类的人工神经网络

摘要提出了一种基于点云的神经网络碎片实体分类新方法。这项工作是与罗马“Ente Parco Archeologico del Colosseo”研究所合作项目的第一步，该项目旨在从碎片中重建古代文物。我们从零开始建立了一个合成数据集(DS)，其中包括不同3D物体的碎片，包括老化效果。我们使用这个DS来训练深度学习模型来完成内部和外部碎片的分类任务。采用PointNet和动态图卷积神经网络作为模型架构，以表示碎片空间几何形状的点云为输入，通过增加对局部几何特征敏感的特征来优化模型性能。我们通过执行几个实验来测试该方法，以检查模型的鲁棒性和泛化能力。最后，我们在实际案例中对不同博物馆保存的文物进行了三维扫描，人工分割，获得了良好的效果。

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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来源期刊

Machine Learning Science and Technology Computer Science-Artificial Intelligence

CiteScore

9.10

自引率

4.40%

发文量

审稿时长

5 weeks

期刊介绍： Machine Learning Science and Technology is a multidisciplinary open access journal that bridges the application of machine learning across the sciences with advances in machine learning methods and theory as motivated by physical insights. Specifically, articles must fall into one of the following categories: advance the state of machine learning-driven applications in the sciences or make conceptual, methodological or theoretical advances in machine learning with applications to, inspiration from, or motivated by scientific problems.