Managing 5G Non-Public Networks from Industrial Automation Systems

Abdulkadir Karaagac, O. Dobrijevic, D. Schulz, Gergely Seres, Ala Nazari, Hubert Przybysz, J. Sachs
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引用次数: 2

Abstract

By expanding beyond broadband capabilities of commercial mobile networks and providing novel connectivity features for a wide variety of industry verticals, 5G is becoming a key enabler for the digitalization of industry. However, unlike consumer market where users have very similar communication needs, industrial environments require direct control of security and performance aspects of an underlying networking infrastructure to achieve high communication availability and determinism for a broad range of applications and services. Similarly, it is vital to continuously monitor and verify the connectivity status and performance of devices, especially for mission-critical industrial systems. This paper investigates how to achieve fundamental management capabilities for 5G networks from industrial automation systems, which we refer to as “5G Managed from Industrial Automation”, while hiding “low-level” complexities of the technology. It presents a simplified 5G network management and monitoring solution, designed according to the functional requirements of a process control system, and based on a prototype of 5G system exposure capabilities. In addition, the paper presents details about the design and implementation of the 5G management solution in an ABB industrial automation system and its verification on a private 5G network offered by Ericsson.
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从工业自动化系统管理5G非公共网络
通过扩展商用移动网络的宽带功能,并为各种行业垂直领域提供新颖的连接功能,5G正在成为行业数字化的关键推动者。然而,与用户具有非常相似的通信需求的消费者市场不同,工业环境需要直接控制底层网络基础设施的安全性和性能方面,以便为广泛的应用程序和服务实现高通信可用性和确定性。同样,持续监控和验证设备的连接状态和性能至关重要,特别是对于关键任务的工业系统。本文研究了如何从工业自动化系统中实现5G网络的基本管理能力,我们称之为“工业自动化管理的5G”,同时隐藏了该技术的“低级”复杂性。根据过程控制系统的功能需求,基于5G系统曝光能力原型,提出了一种简化的5G网络管理和监控解决方案。此外,本文还详细介绍了5G管理解决方案在ABB工业自动化系统中的设计和实现,以及在爱立信提供的专用5G网络上的验证。
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