Use of a Virtual Twin for Dynamic Storage Space Monitoring in a Port Terminal

International Conference on Innovative Intelligent Industrial Production and Logistics Pub Date : 1900-01-01 DOI:10.5220/0010676800003062

Andreas Höpfner, Olaf Poenicke, C. Blobner, Andre Winge

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Abstract

: The paper describes research and development for dynamic 3D models and Virtual Reality (VR) applications in the context of port processes. The work described is carried out in the currently ongoing EU-funded project PortForward . The paper addresses the use of VR technologies in the context of industrial applications and describes how dynamic sensor data can be integrated into a 3D model of a Port. In addition to tracking data of moving assets, the sensor data mainly comprises 3D measurement data from LiDAR sensors. These sensors are installed in the port infrastructure to automatically record the current occupancy status of storage areas. The measurement data from the LiDAR sensors are dynamically integrated into the VR model in an abstracted form together process related meta-data to reflect the current process status in the port terminal. Based on that approach in the sense of a Virtual Twin, process flows and storage space management can be optimized. The use of VR technologies is crucial in this context in order to depict the complex spatial and dynamic process situation in an intuitive way.

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在港口终端中使用虚拟双胞胎进行动态存储空间监控

本文介绍了港口过程中动态三维模型和虚拟现实(VR)应用的研究与开发。所描述的工作是在目前正在进行的欧盟资助项目PortForward中进行的。本文讨论了VR技术在工业应用中的应用，并描述了如何将动态传感器数据集成到港口的3D模型中。传感器数据除了移动资产的跟踪数据外，主要包括来自激光雷达传感器的三维测量数据。这些传感器安装在港口基础设施中，自动记录存储区域的当前占用状态。将激光雷达传感器的测量数据与过程相关元数据以抽象形式动态集成到VR模型中，以反映港口码头的当前过程状态。基于虚拟双胞胎意义上的这种方法，可以优化流程流和存储空间管理。在这种情况下，为了以直观的方式描绘复杂的空间和动态过程情况，VR技术的使用至关重要。

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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International Conference on Innovative Intelligent Industrial Production and Logistics

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