Digital-twin deep dynamic camera position optimisation for the V-STARS photogrammetry system based on 3D reconstruction

IF 7 2区工程技术 Q1 ENGINEERING, INDUSTRIAL

International Journal of Production Research Pub Date : 2023-09-22 DOI:10.1080/00207543.2023.2252108

Likun Wang, Zi Wang, Peter Kendall, Kevin Gumma, Alison Turner, Svetan Ratchev

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引用次数: 0

Abstract

Photogrammetry systems are widely used in industrial manufacturing applications as an assistance measurement tool. Not only does it provide high-precision feedback for assembly process inspection and product quality assessment, but also it can improve the flexibility and robustness of manufacturing systems and production lines. However, with growing global competition and demands, companies are forced to enhance production efficiency, shorten production lifecycle and increase product variety by incorporating reconfigurable factory design that can meet challenging timeline and requirements. Although dynamic facility layout is widely investigated, the position selection for the photogrammetry system in dynamic manufacturing environment is usually overlooked. In this paper, dynamic layout of the V-STARS photogrammetry system is investigated and optimised in a digital-twin environment using deep reinforcement learning. The learning objectives are derived from the field of view (FoV) evaluation from point clouds 3D reconstruction, and collision detection from the digital twin simulated in Visual Components. The application feasibility of the proposed dynamic layout optimisation of the V-STARS photogrammetry system is verified with a real world industrial application.

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基于三维重建的V-STARS摄影测量系统数字孪生深度动态相机位置优化

摄影测量系统作为辅助测量工具广泛应用于工业制造领域。它不仅为装配过程检验和产品质量评估提供高精度反馈，而且可以提高制造系统和生产线的灵活性和鲁棒性。然而，随着全球竞争和需求的增长，公司被迫提高生产效率，缩短生产生命周期，并通过整合可重构的工厂设计来增加产品种类，以满足具有挑战性的时间和要求。虽然对动态设施布局进行了广泛的研究，但动态制造环境下摄影测量系统的位置选择问题往往被忽视。本文研究了V-STARS摄影测量系统在数字孪生环境下的动态布局，并利用深度强化学习对其进行了优化。学习目标来源于视觉组件中模拟的点云三维重建的视场(FoV)评估和数字孪生的碰撞检测。通过实际工业应用验证了所提出的V-STARS摄影测量系统动态布局优化的应用可行性。

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

International Journal of Production Research 管理科学-工程：工业

CiteScore

19.20

自引率

14.10%

发文量

318

审稿时长

6.3 months

期刊介绍： The International Journal of Production Research (IJPR), published since 1961, is a well-established, highly successful and leading journal reporting manufacturing, production and operations management research. IJPR is published 24 times a year and includes papers on innovation management, design of products, manufacturing processes, production and logistics systems. Production economics, the essential behaviour of production resources and systems as well as the complex decision problems that arise in design, management and control of production and logistics systems are considered. IJPR is a journal for researchers and professors in mechanical engineering, industrial and systems engineering, operations research and management science, and business. It is also an informative reference for industrial managers looking to improve the efficiency and effectiveness of their production systems.