5G is destined to be supporting large deployment of Industrial IoT (IIoT) with the characteristics of ultra-high densification and low latency. 5G utilizes a more intelligent architecture, with Radio Access Networks (RANs) no longer constrained by base station proximity or proprietary infrastructure. The 3rd Generation Partnership Project (3GPP) covers telecommunication technologies including RAN, core transport networks and service capabilities. Open RAN Alliance (O-RAN) aims to define implementation and deployment architectures, focusing on open-source interfaces and functional units to further reduce the cost and complexity. O-RAN based 5G networks could use components from different hardware and software vendors, promoting vendor diversity, interchangeability and 5G supply chain resiliency. Both 3GPP and O-RAN 5G have to manage the security and privacy challenges that arose from the deployment. Many existing research studies have addressed the threats and vulnerabilities within each system. 5G also has the overwhelming challenges in compliance with privacy regulations and requirements which mandate the user identifiable information need to be protected. In this paper, we look into the 3GPP and O-RAN 5G security and privacy designs and the identified threats and vulnerabilities. We also discuss how to extend the Zero Trust Model to provide advanced protection over 5G air interfaces and network components.
翻译:5G将支持大规模部署具有超高密度和低延迟度特点的工业性IOT(IIOT)。5G将使用更智能的结构,无线电接入网络不再受到基地站近距离或专有基础设施的限制。第三代伙伴关系项目(3GPP)涵盖电信技术,包括RAN、核心运输网络和服务能力。开放RAN联盟(O-RAN)旨在界定实施和部署结构,侧重于开放源界面和功能单位,以进一步降低成本和复杂性。O-RAN5G的O-RAN5G网络可使用不同硬件和软件供应商的组件,促进供应商多样性、互换性和5G供应链弹性。3GPP和O-RAN 5G必须管理部署后产生的安全和隐私挑战。许多现有研究研究涉及每个系统内部的威胁和脆弱性。5G还面临巨大的挑战,要求用户识别信息需要得到保护。在本文件中,我们研究了3GPP和O-RAN5G的网络组件,促进供应商多样化、可互换性以及5G的安全和保密互信系统。
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