Cloud-Fog Automation: The New Paradigm Toward Autonomous Industrial Cyber-Physical Systems

IF 17.2

IEEE journal on selected areas in communications : a publication of the IEEE Communications Society Pub Date : 2025-03-28 DOI:10.1109/JSAC.2025.3574587

Jiong Jin;Zhibo Pang;Jonathan Kua;Quanyan Zhu;Karl H. Johansson;Nikolaj Marchenko;Dave Cavalcanti

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Abstract

Autonomous Industrial Cyber-Physical Systems (ICPS) represent a future vision where industrial systems achieve full autonomy, integrating physical processes seamlessly with communication, computing and control technologies while holistically embedding intelligence. Cloud-Fog Automation is a new digitalized industrial automation reference architecture that has been recently proposed. This architecture is a fundamental paradigm shift from the traditional International Society of Automation (ISA)-95 model to accelerate the convergence and synergy of communication, computing, and control towards a fully autonomous ICPS. With the deployment of new wireless technologies to enable almost-deterministic ultra-reliable low-latency communications, a joint design of optimal control and computing has become increasingly important in modern ICPS. It is also imperative that system-wide cyber-physical security are critically enforced. Despite recent advancements in the field, there are still significant research gaps and open technical challenges. Therefore, a deliberate rethink in co-designing and synergizing communications, computing, and control (which we term “3C co-design”) is required. In this paper, we position Cloud-Fog Automation with 3C co-design as the new paradigm to realize the vision of autonomous ICPS. We articulate the state-of-the-art and future directions in the field, and specifically discuss how goal-oriented communication, virtualization-empowered computing, and Quality of Service (QoS)-aware control can drive Cloud-Fog Automation towards a fully autonomous ICPS, while accounting for system-wide cyber-physical security.

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云雾自动化：自动化工业信息物理系统的新范式

自主工业网络物理系统（ICPS）代表了工业系统实现完全自主的未来愿景，将物理过程与通信、计算和控制技术无缝集成，同时全面嵌入智能。云雾自动化是最近提出的一种新的数字化工业自动化参考架构。该架构是一个根本性的范式转变，从传统的国际自动化学会(ISA)-95模型到加速通信、计算和控制的融合和协同，以实现完全自主的ICPS。随着新的无线技术的部署，实现几乎确定性的超可靠低延迟通信，最优控制和计算的联合设计在现代ICPS中变得越来越重要。系统范围内的网络物理安全也必须严格执行。尽管该领域最近取得了进展，但仍存在重大的研究差距和开放的技术挑战。因此，需要对通信、计算和控制的协同设计和协同（我们称之为“3C协同设计”）进行深思熟虑的反思。在本文中，我们将云雾自动化与3C协同设计定位为实现自主ICPS愿景的新范例。我们阐明了该领域的最新技术和未来方向，并具体讨论了面向目标的通信、虚拟化授权计算和服务质量（QoS）感知控制如何推动云雾自动化向完全自主的ICPS发展，同时考虑到系统范围的网络物理安全。

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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IEEE journal on selected areas in communications : a publication of the IEEE Communications Society

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