中文

Model-Driven Digital Twin Framework for Quantum Networks

软件工程 2026-07-11 v1 网络与互联网体系结构 量子物理

摘要

Quantum networks are advancing towards larger and more operational infrastructures, yet their evaluation remains fragmented across heterogeneous physical platforms, simulators, protocols, and architectural abstractions. Current digital-twin studies for quantum networks mainly realise isolated capabilities or application-specific solutions rather than reusable system-level twins. This paper argues that Model-Driven Engineering (MDE) can provide a systematic basis for integrating and evolving these heterogeneous artefacts. It derives requirements for design-time evaluation and runtime synchronisation, and proposes a progression of architectures from code-driven and domain-model-driven solutions to point-to-point and hub-and-spoke integration. A conceptual implementation case study illustrates this using SysML v2, QKD kit, an EMF-based controller, and SeQUeNCe. The work provides a foundation for adaptable and interoperable digital twins for quantum networks.

引用

@article{arxiv.2607.10367,
  title  = {Model-Driven Digital Twin Framework for Quantum Networks},
  author = {Amal Elsokary and Hayato Ishida and Ran Wei and Michael J. de C. Henshaw and Siyuan Ji},
  journal= {arXiv preprint arXiv:2607.10367},
  year   = {2026}
}