Machine learning-based 3D scan coverage prediction for smart-control applications

IF 3 3区 计算机科学 Q2 COMPUTER SCIENCE, SOFTWARE ENGINEERING
Tingcheng Li , Arnaud Polette , Ruding Lou , Manon Jubert , Dominique Nozais , Jean-Philippe Pernot
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引用次数: 0

Abstract

Automatic control of a workpiece being manufactured is a requirement to ensure in-line correction and thus move towards a more intelligent manufacturing system. There is therefore a need to develop control strategies which are capable of taking precise account of real working conditions and enabling first-time-right control. As part of such a smart-control strategy, this paper introduces a machine learning-based approach capable of accurately predicting a priori the 3D coverage of a part according to a scan configuration given as input, i.e. predicting before scanning it which areas of the part will be acquired for real. This corresponds to a paradigm shift, where coverage estimation no longer relies on theoretical visibility criteria, but on rules learned from a large amount of data acquired in real-life conditions. The proposed 3D Scan Coverage Prediction Network (3DSCP-Net) is based on a 3D feature encoding and decoding module, which is capable of taking into account the specifics of the scan configuration whose impact on the 3D coverage is to be predicted. To take account of real working conditions, features are extracted at various levels, including geometric ones, but also features characterising the way structured-light projection behaves. The method is thus able to incorporate inter-reflection and overexposure issues into the prediction process. The database used for the training was built using an ad-hoc platform specially designed to enable the automatic acquisition and labelling of numerous point clouds from a wide variety of scan configurations. Experiments on several parts show that the method can efficiently predict the scan coverage, and that it outperforms conventional approaches based on purely theoretical visibility criteria.

基于机器学习的智能控制应用 3D 扫描覆盖范围预测
对正在制造的工件进行自动控制是确保在线校正,从而实现更智能制造系统的一项要求。因此,有必要开发能够精确考虑实际工作条件并实现第一时间正确控制的控制策略。作为这种智能控制策略的一部分,本文介绍了一种基于机器学习的方法,该方法能够根据输入的扫描配置先验地准确预测零件的三维覆盖范围,即在扫描前预测零件的哪些区域将被实际采集。这相当于一种模式的转变,即覆盖范围的估计不再依赖于理论上的可见度标准,而是依赖于从现实条件下获取的大量数据中学到的规则。拟议的三维扫描覆盖率预测网络(3DSCP-Net)基于三维特征编码和解码模块,能够考虑到扫描配置的具体情况,并预测其对三维覆盖率的影响。为了考虑实际工作条件,在不同层面上提取特征,包括几何特征和结构光投影行为特征。因此,该方法能够将相互反射和过度曝光问题纳入预测过程。用于训练的数据库是利用一个专门设计的临时平台建立的,该平台可以自动采集和标注来自各种扫描配置的大量点云。在多个部件上进行的实验表明,该方法可以有效预测扫描覆盖范围,其性能优于基于纯理论可见度标准的传统方法。
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
Computer-Aided Design
Computer-Aided Design 工程技术-计算机:软件工程
CiteScore
5.50
自引率
4.70%
发文量
117
审稿时长
4.2 months
期刊介绍: Computer-Aided Design is a leading international journal that provides academia and industry with key papers on research and developments in the application of computers to design. Computer-Aided Design invites papers reporting new research, as well as novel or particularly significant applications, within a wide range of topics, spanning all stages of design process from concept creation to manufacture and beyond.
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