toplogo
Masuk
wawasan - Computer Networks - # Digital Twins

Ontological Foundations for Developing Interoperable Digital Twins


Konsep Inti
Digital twins are sophisticated virtual representations designed to mirror physical entities or processes, enabling real-time tracking, evaluation, and assessment. Achieving semantic interoperability among digital twins requires a principled ontological foundation.
Abstrak

The content explores the challenges of semantic interoperability in the context of digital twins and proposes an ontological characterization leveraging the Basic Formal Ontology (BFO) and the Common Core Ontologies (CCO) suite.

Key highlights:

  • Examines various definitions of "digital twin" and identifies common themes as well as issues with existing characterizations.
  • Introduces an ontological framework for digital twins, distinguishing between digital twin instances (DTIs) as representational information content entities and digital twin prototypes (DTPs) as directive information content entities.
  • Connects digital twins to their physical or process counterparts using CCO relations like "is counterpart material entity" and "is counterpart process".
  • Describes the synchronization process through which digital twins are updated in real-time based on changes in their counterparts.
  • Characterizes the fidelity of digital twins in terms of granular partitions, where different levels of detail and information types can be represented.
  • Argues that this ontological foundation provides a robust basis for building more sophisticated representations of digital twins within the BFO ecosystem, promoting semantic interoperability.
edit_icon

Kustomisasi Ringkasan

edit_icon

Tulis Ulang dengan AI

edit_icon

Buat Sitasi

translate_icon

Terjemahkan Sumber

visual_icon

Buat Peta Pikiran

visit_icon

Kunjungi Sumber

Statistik
"The global digital twin market is expected to top 73 billion by 2027, with companies such as Meta and Nvidia capitalizing on this technology." "A 2020 report by The National Institute for Standards and Technology (NIST) estimated, for example, costs emerging from the lack of interoperability across industrial datasets as between 21-43 billion."
Kutipan
"Ontologies – controlled vocabularies of terms and logical relationships among them – are a well-known resource for addressing semantic interoperability challenges." "Decades ago, recognition of such undesirable consequences led to the creation of ontology 'foundry' efforts aimed at creating ontologies in accordance with common standards."

Wawasan Utama Disaring Dari

by Regina Hurle... pada arxiv.org 05-03-2024

https://arxiv.org/pdf/2405.00960.pdf
Foundations for Digital Twins

Pertanyaan yang Lebih Dalam

How can the proposed ontological framework be extended to capture the dynamic evolution of digital twins over their lifecycle?

In order to capture the dynamic evolution of digital twins over their lifecycle within the proposed ontological framework, several key considerations need to be addressed. Firstly, the framework should incorporate temporal aspects to account for changes and updates that occur in real-time between the digital twin and its physical counterpart. This can be achieved by introducing temporal relations and processes within the ontology to track the synchronization and updating of information. Additionally, the framework should include mechanisms to represent the different stages of a digital twin's lifecycle, such as creation, deployment, operation, and decommissioning. Each stage may involve different types of information and interactions, which should be captured in the ontology to provide a comprehensive view of the digital twin's evolution. Furthermore, the framework can leverage concepts like change processes and fidelity measurements to monitor and assess the fidelity of the digital twin representation over time. By incorporating these elements, the ontology can effectively model the continuous evolution and adaptation of digital twins throughout their lifecycle, enabling a more holistic understanding of their dynamic nature.

What are the potential limitations or drawbacks of the class-level prescription approach for digital twin prototypes compared to the possible instance approach?

The class-level prescription approach for digital twin prototypes, where they are defined as directive information content entities prescribing possible arrangements of classes and relations, may have certain limitations and drawbacks compared to the possible instance approach. One limitation of the class-level prescription approach is that it may not capture the specific details and nuances of individual instances or variations within a class. This could lead to a lack of granularity in the prescription, potentially overlooking important variations or specific requirements that are unique to certain instances. Additionally, the class-level approach may struggle to handle complex scenarios where multiple instances or variations need to be prescribed simultaneously. This could result in a less flexible and adaptable framework that is unable to accommodate diverse and evolving requirements in practical applications. On the other hand, the possible instance approach, which considers each prototype as prescribing a specific instance, may offer more detailed and tailored prescriptions that align closely with the actual entities being represented. This approach allows for a more precise and individualized modeling of digital twin prototypes, capturing the specific characteristics and requirements of each instance more effectively. However, the possible instance approach may also introduce complexity in managing a large number of individual prescriptions, potentially leading to scalability issues and increased computational overhead. It may require robust mechanisms for handling and organizing a multitude of specific instances, which could pose challenges in certain contexts.

Given the rapid advancements in areas like digital twins, how can ontology development keep pace with emerging technologies and maintain relevance in practical applications?

To ensure that ontology development keeps pace with emerging technologies like digital twins and remains relevant in practical applications, several strategies can be employed: Continuous Collaboration: Engaging in ongoing collaboration with domain experts, researchers, and industry practitioners to stay informed about the latest advancements and requirements in the field of digital twins. This collaborative approach can help ontology developers align their work with real-world needs and emerging trends. Agile Development: Adopting agile development methodologies to quickly iterate and adapt ontologies based on new insights, feedback, and technological advancements. This agile approach allows for rapid updates and revisions to ontology structures to reflect the evolving landscape of digital twins. Modularity and Extensibility: Designing ontologies in a modular and extensible manner to accommodate new concepts, relationships, and entities as technologies evolve. By structuring ontologies in a flexible and scalable way, developers can easily incorporate new knowledge and adapt to changing requirements. Integration with Standardization Efforts: Aligning ontology development efforts with industry standards and best practices in the digital twin domain. By integrating ontologies with established standards, developers can ensure interoperability, consistency, and alignment with industry norms. Utilizing Semantic Web Technologies: Leveraging semantic web technologies and tools to enhance the accessibility, interoperability, and usability of ontologies in practical applications. Semantic web standards like RDF, OWL, and SPARQL can facilitate the integration of ontologies into digital twin systems and enable seamless data exchange and reasoning capabilities. By employing these strategies and staying proactive in monitoring and adapting to technological advancements, ontology development can effectively keep pace with emerging technologies like digital twins and continue to play a crucial role in shaping the future of intelligent systems and applications.
0
star