Digital Twin for Legacy Systems: Simulation Model Testing and Validation

Adnan Khan, M. Dahl, P. Falkman, Martin Fabian
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引用次数: 35

Abstract

In this paper, an approach to incorporate a digital twin for legacy production systems is presented. Hardware-in-the-loop setups are routinely used by manufacturing companies to carry out virtual commissioning. However, manufacturing companies having online legacy production systems are still struggling to incorporate a digital twin due to the absence of verified and validated simulation models. Companies that use virtual commissioning as a part of their engineering tool chain, usually perform offline verification of the simulation model. This approach is typically based on visual inspection and is a tedious task as each aspect of the model has to be visually validated. For legacy systems, only assessing the behavior visually in the absence of updated documents can result in an incorrect simulation model, i.e. simulating incorrect behavior with respect to the specification. Due to this, such simulation models cannot be incorporated in the engineering tool chain, as the simulated results can lead to improper decisions and can even cause equipment damage. This paper presents a platform and an approach, based on model-based testing, that is a first step for manufacturing companies to incorporate a validated simulation model for existing online production systems that will serve as a digital twin.
遗留系统的数字孪生:仿真模型测试和验证
在本文中,提出了一种为遗留生产系统合并数字孪生的方法。制造公司通常使用硬件在环设置来进行虚拟调试。然而,由于缺乏经过验证和验证的仿真模型,拥有在线传统生产系统的制造公司仍在努力整合数字孪生。将虚拟调试作为其工程工具链的一部分的公司通常会对仿真模型进行离线验证。这种方法通常基于视觉检查,并且是一项乏味的任务,因为模型的每个方面都必须进行视觉验证。对于遗留系统,仅在没有更新文档的情况下可视化地评估行为可能会导致不正确的模拟模型,即根据规范模拟不正确的行为。因此,此类仿真模型无法纳入工程工具链,因为仿真结果可能导致决策不当,甚至可能导致设备损坏。本文提出了一个基于模型测试的平台和方法,这是制造公司为现有在线生产系统整合经过验证的仿真模型的第一步,该模型将作为数字孪生。
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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