Improving Redundancy and Safety of UTM by Leveraging Multiple Uass

2019 International Conference on Unmanned Aircraft Systems (ICUAS) Pub Date : 2019-06-01 DOI:10.1109/ICUAS.2019.8798072

Edward Schwalb, J. Schwalb

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引用次数: 3

Abstract

Reliability is one key challenge facing safe widespread integration of UASs within uncontrolled airspaces. We apply system engineering methods to airspace management to explore architectures and operational concepts which can compensate for partial failures and bridge the reliability gap. Our exploration leads to an operational approach which leverages multiple UASs to achieve redundancies. We employ simulation to demonstrate the benefits of operating single-file platoons over fixed routes, in the context of the NASA UAS Traffic Management (UTM). We show that it is possible to simultaneously reduce impact of localization errors, achieve better resilience under degraded communications, gracefully remove from airspace UAS compromised by cyber attacks, improve conflict management and increase airspace capacity. Our multi-agent airspace simulation improves realism using Firmware In the Loop (FITL), Intent Control Loop (ICL) and of execution contingencies as concurrent high priority activities.UTM, Systems Engineering, Contingencies, Platoons, Denied GPS, Degraded Communications, Cyber Attacks, Simulation, Firmware Modeling, Intent Modeling

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利用多重分类提高UTM的冗余性和安全性

可靠性是无人无人机在不受控制空域内安全广泛集成所面临的一个关键挑战。我们将系统工程方法应用于空域管理，探索可以补偿部分故障和弥补可靠性差距的架构和操作概念。我们的探索导致了一种利用多个UASs来实现冗余的操作方法。在NASA无人机交通管理(UTM)的背景下，我们采用模拟来证明在固定路线上操作单队列的好处。我们表明，可以同时减少定位错误的影响，在通信退化的情况下实现更好的恢复能力，优雅地从受网络攻击损害的空域移除无人机，改善冲突管理并增加空域容量。我们的多智能体空域仿真使用固件在环(FITL)、意图控制环(ICL)和执行突发事件作为并发高优先级活动，提高了真实感。UTM，系统工程，突发事件，队列，拒绝GPS，降级通信，网络攻击，仿真，固件建模，意图建模

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2019 International Conference on Unmanned Aircraft Systems (ICUAS)

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