Global and Secured UAV Authentication System based on Hardware-Security

2020 8th IEEE International Conference on Mobile Cloud Computing, Services, and Engineering (MobileCloud) Pub Date : 2020-08-01 DOI:10.1109/MobileCloud48802.2020.00020

Dominic Pirker, Thomas Fischer, Christian H. Lesjak, C. Steger

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引用次数: 5

Abstract

UAVs are gaining traction outside their usual markets of hobbyists, areal recordings, and surveillance services with cloud computing enabled applications and their massive combined computing power. These applications rapidly grow the UAV market, consequently raising the priority of safety solutions. Tremendous incidents, such as the air traffic interruption in London (Dec. 2018), raised awareness and demand for UAV identification, authentication, and tracking. To prevent these type of incidents, aviation authorities, such as the FAA or EASA, are currently working on proper regulations. The implementation of the regulations demands dependable technical solutions. This paper proposes a secured and globally operative UAV authentication system, based on reliable security mechanisms and standardized protocols. Therefore, this system must provide mutual and strong cryptographic authentication. First, the TLS protocol is used for mutual authentication and for protecting the communication. Then, hardware-security is implemented to store the necessary keys and certificates in a protected storage, thus supporting the TLS handshake to avoid common attacks against pure software implementations. Lastly, a concept for protected sensor values is introduced. The proposed UAV authentication concept is demonstrated by a proof-of-concept implementation, evaluated for performance and compared to existing solutions.

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基于硬件安全的无人机全局安全认证系统

无人机在其通常的业余爱好者、现场录音和监视服务市场之外获得了吸引力，这些市场具有支持云计算的应用程序及其巨大的综合计算能力。这些应用迅速发展了无人机市场，从而提高了安全解决方案的优先级。2018年12月伦敦空中交通中断等重大事件，提高了人们对无人机识别、认证和跟踪的认识和需求。为了防止此类事件的发生，美国联邦航空局(FAA)或欧洲航空安全局(EASA)等航空当局目前正在制定适当的法规。法规的实施需要可靠的技术解决方案。本文提出了一种基于可靠安全机制和标准化协议的安全、全局可操作的无人机认证系统。因此，该系统必须提供相互的、强的密码认证。首先，TLS协议用于相互认证和保护通信。然后，实现硬件安全性，将必要的密钥和证书存储在受保护的存储中，从而支持TLS握手，以避免对纯软件实现的常见攻击。最后，介绍了保护传感器值的概念。提出的无人机身份验证概念通过概念验证实现进行了演示，评估了性能并与现有解决方案进行了比较。

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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来源期刊

2020 8th IEEE International Conference on Mobile Cloud Computing, Services, and Engineering (MobileCloud)

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