在技术发展中重塑数字孪生体以增强船舶系统设计

Jose Jorge Garcia Agis, P. O. Brett, S. O. Erikstad, H. Gaspar
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引用次数: 0

摘要

数字孪生技术平台尚未在海运业实现预期的接受和更广泛的实施。到目前为止,大多数关于数字孪生应用的讨论都集中在从船舶操作中的大数据中学到什么,并且在较小程度上,有人将这一讨论扩展到包括这种新技术可以促进上游船舶概念和基本设计活动以及详细工程的好处。本文特别关注后一个部分被遗忘的应用领域。这种不愿意接受新技术并充分利用它的潜力的背后可能有很多原因。本文假设并论证了开发集中在过于复杂、过于昂贵的应用程序上,并且在一定程度上反映了现实需求。相关利益相关者之间缺乏有效的数据传输和事务接口是造成这些低效率的另一个重要因素。本文记录了新型数字化技术采用和适应方面的低效率是如何以及为什么存在的,并阻碍了实现这些实施的显著效益的进展,以及如何消除这些发展障碍。现实生活中的用户案例和专业文献中的一些贡献表明,更有效地实施数字孪生技术需要进一步的讨论和调查,涉及三个重要方面:i)什么是数字孪生的共同和公认的定义;Ii)关于数字孪生解决方案的解决方案空间的商定的可扩展和系统方法;iii)用于数字孪生开发的系统方法。数字孪生技术必须结合有效的船舶运营和船舶设计反馈和前馈,包括其固有的人员参与和市场行为。本文回顾了数字孪生技术在海事领域的现状,并提出了数字孪生的通用定义。文章的后半部分提出了有效的数字孪生开发的系统视角,以及在新型船舶设计领域和在役船舶中以目标为导向的数字孪生开发方法。本文详细阐述了现实生活中的用户案例,以支持我们的改进建议。文章总结说,在目前的形式下,数字孪生技术实施的成功率是有限的。因此,与船舶操作及其设计相关的数字孪生应用所带来的短期和长期效益也是有限的。本文提出了改善现状的途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Reshaping Digital Twin in Technology Developments for Enhancing Marine Systems Design
The digital twin technology platform has not yet achieved the expected acceptance and wider implementation in the maritime industry. So far, most of the focus of the digital twin application discussions have centred around what to learn from big data in ship operation, and to a lesser extent, has anybody extended this discussion to include the benefits such new technology can contribute to the enhancement of the upstream ship concept and basic design activities, as well as detailed engineering. This paper particularly pays attention to this latter, partly forgotten, application area. There could be many reasons behind such a reluctance to take on new technology and utilize it to its full potential. It is hypothesized and argued by this article that the development has focused on applications that are too complex, too expensive and reflect, to a little extent, real-life needs. Lack of effective data transfer and transaction interphases among relevant stakeholders is another important factor creating these inefficiencies.  This paper document how and why such inefficiencies in novel digitization technology adoption and adaptation exist and hamper the progress of achieving noticeable benefits of such implementations and how such development hurdles can be eliminated. Real-life user cases and several contributions in the professional literature suggest that more effective implementation of digital twin technology requires further discussions and investigations relating to three important aspects: i) a common and accepted definition of what is a digital twin; ii) an agreed-upon scalable and systemic approach to what is the solution space for a digital twin solution and iii) which systemic method to be used for digital twin development. Digital-twin technology must combine effective ship in operation and ship design feedback and feed forwarding, including their inherent people involvement and market behaviour.  This article reviews the status of digital twin technology in the maritime domain and proposes a common definition of the digital twin. The latter part of the article proposes a systemic perspective for effective digital twin development and a method for a goal-oriented digital twin development in the novel ship design domain as well for ships in operations. Real-life user-case examples are elaborated upon to support our suggestions for improvement. The paper summarizes that, in its current form, the success rate of the digital twin technology implementation is so far, limited.  Thus, the short- and long-term benefits to be achieved from digital twin applications in relation to vessel operations and their designs are also limited. This paper advises ways for improvement of the present situation.
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