Avionics of Aerial Robots

Khamvilai, Thanakorn; Dunham, Joel; Féron, Éric; Johnson, Eric N.

doi:10.1007/s43154-021-00051-8

Cited by 6 publications

(2 citation statements)

References 54 publications

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“…They are also well-suited to reconfiguration or switching logic of RTA because, at their core, they are inherently partitioned, low-cost processing units that can be commanded to carry out the most suitable operation at run-time [19]. This IMA architecture can also be applied to UAVs or smaller multirotors to improve their safety and security aspects [23]- [26].…”

Section: Distributed Avionics Architecturementioning

confidence: 99%

Runtime Assurance for Distributed Avionics Architecture

Ghori

Khamvilai

Féron

et al. 2022

2022 IEEE/AIAA 41st Digital Avionics Systems Conference (DASC)

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Runtime Assurance (RTA) is becoming a trend in the aerospace and Unmanned Aerial Vehicle (UAV) industries due to its benefits, such as ensuring the safety of a safety-critical system, e.g., Urban Air Mobility, without a formal verification of the primary system controller. The principle of RTA revolves around the notion of maintaining a backup controller and executing it whenever the primary controller appears to harm the system. Additionally, a modern avionics architecture (distributed), consisting of nodes (sensors, actuators, computing units, etc.) capable of exchanging information via a reliable, standard communication network, can also benefit from RTA. Hence, integration of the RTA framework into an avionics architecture can allow for a reduced degree of verification for these algorithm and, in turn, promote autonomy levels of the avionics systems.This paper presents a formal RTA definition and framework for the distributed avionics architecture to obtain the benefits of resource sharing and improved system autonomy. We also demonstrate a real-time execution of RTA implementation on a multirotor vehicle equipped with distributed avionics architecture in the event of failure.

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Section: Distributed Avionics Architecturementioning

confidence: 99%

Runtime Assurance for Distributed Avionics Architecture

Ghori

Khamvilai

Féron

et al. 2022

2022 IEEE/AIAA 41st Digital Avionics Systems Conference (DASC)

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show abstract

“…Traditionally, deploying UAVs in wireless communications systems faced challenges such as complicated channels models [10,11], dynamic cell association [11], energy constraints [11] and legislative regulations [12]. With the continuing increase of the number of deployed UAVs, new challenges associated with multi-agent decision making also arise.…”

Section: Introductionmentioning

confidence: 99%

Game Theory and Machine Learning in UAVs-Assisted Wireless Communication Networks: A Survey

Zhou,

Guan,

Hayajneh

et al. 2021

Preprint

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In recent years, Unmanned Aerial Vehicles (UAVs) have been used in fields such as architecture, business delivery, military and civilian theaters, and many others. With increased applications comes the increased demand for advanced algorithms for resource allocation and energy management. As is well known, game theory and machine learning are two powerful tools already widely used in the wireless communication field and there are numerous surveys of game theory and machine learning usage in wireless communication. Existing surveys however focus either on game theory or machine learning and due to this fact, the current article surveys both game-theoretic and machine learning algorithms for use by UAVs in Wireless Communication Networks (U-WCNs). We also discuss how to combine game theory and machine learning for solving problems in U-WCNs and identify several future research directions.

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Avionics and Communication Architecture Design for Intelligent Automated Fixed-Wing Armed Aircraft

Özer

2024

Studies in Computational Intelligence

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Avionics of Aerial Robots

Cited by 6 publications

References 54 publications

Runtime Assurance for Distributed Avionics Architecture

Runtime Assurance for Distributed Avionics Architecture

Game Theory and Machine Learning in UAVs-Assisted Wireless Communication Networks: A Survey

Avionics and Communication Architecture Design for Intelligent Automated Fixed-Wing Armed Aircraft

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