UAV-Enabled Secure Data Dissemination via Artificial Noise: Joint Trajectory and Communication Optimization

Li, An; Zhang, Wenjing; Dou, Shaoting

doi:10.1109/access.2020.2998697

Cited by 15 publications

(15 citation statements)

References 32 publications

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“…This has recently gravitated the research community to incorporate the security paradigm for designing UAV communication systems by mainly utilizing the physical layer techniques [32], [33] to avoid extra signaling and overheads incurred by conventional upper-layer cryptography. The information-theoretic secrecy (ITS) for safeguarding UAV communications has been extensively studied by joint design of trajectory and resource allocation in the literature [4], [13], [34]- [38]. However, preventing the content of information message from being deciphered by an eavesdropper for which the ITS aims might be inadequate when the privacy protection matters.…”

Section: Secure and Covert Communicationsmentioning

confidence: 99%

“…In particular, reliable data dissemination is one of the core pillars of an IoT-connected society, wherein the ground wireless access point (AP) typically needs to efficiently transmit information messages to IoT node(s) via multi-hop routing [3]. Such static networking architecture may admit various shortcomings [4]. First, from the perspective of capital and operational expenditures, deploying and operating traditional terrestrial infrastructures in some areas such as mountainous terrain and marine regions can be costly and inefficient.…”

Section: Introductionmentioning

confidence: 99%

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Aerial Intelligent Reflecting Surface Enabled Terahertz Covert Communications in Beyond-5G Internet of Things

Mamaghani¹,

Hong²

2022

Preprint

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<div>Unmanned aerial vehicles (UAVs) are envisioned to be extensively employed for assisting wireless communications in Internet of Things (IoT). </div><div>On the other hand, terahertz (THz) enabled intelligent reflecting surface (IRS) is expected to be one of the core enabling technologies for forthcoming beyond-5G wireless communications that promise a broad range of data-demand applications. In this paper, we propose a UAV-mounted IRS (UIRS) communication system over THz bands for confidential data dissemination from an access point (AP) towards multiple ground user equipments (UEs) in IoT networks. Specifically, the AP intends to send data to the scheduled UE, while unscheduled UEs may behave as potential adversaries. To protect information messages and the privacy of the scheduled UE, we aim to devise an energy-efficient multi-UAV covert communication scheme, where the UIRS is for reliable data transmissions, and an extra UAV is utilized as a cooperative jammer generating artificial noise (AN) to degrade unscheduled UEs detection, improving communication covertness.</div><div>This poses a novel max-min optimization problem in terms of minimum average energy efficiency (mAEE), targetting to improve covert throughput and reduce UAVs' propulsion energy consumption subject to some practical constraints such as covertness which is determined analytically. Since the optimization problem is non-convex, we tackle it via the block successive convex approximation (BSCA) approach to iteratively solve a sequence of approximated convex sub-problems, designing the binary user scheduling, AP's power allocation, maximum AN jamming power, IRS beamforming, and both UAVs' trajectory and velocity planning. Finally, we present a low-complex overall algorithm for system performance enhancement with complexity and convergence analysis. Numerical results are provided to verify our analysis and demonstrate significant outperformance of our design over other existing benchmark schemes.</div>

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Section: Secure and Covert Communicationsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Aerial Intelligent Reflecting Surface Enabled Terahertz Covert Communications in Beyond-5G Internet of Things

Mamaghani¹,

Hong²

2022

Preprint

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“…To expose these challenges, a solution based on ANN was suggested that enables UAVs to adaptively exploit the wireless system resources while safeguarding the operation in real-time. In [80], to prevent confidential signals and information from the cyber-attacks and hijacking, an artificial noise (AN) was incorporated. By using the AN with the original signal, the resulting signal is transmitted in a disordered form which makes it difficult for the hacker to decrypt it and extract the original information from it.…”

Section: Wifi Insecurity and Jamming Attackmentioning

confidence: 99%

Survey of Security Protocols and Vulnerabilities in Unmanned Aerial Vehicles

2021

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With the rapid growth in technology, the use of Unmanned Aerial Vehicles (UAVs) have increased in civil and military applications including rescue operations, disaster recovery, and military operations. Despite the utility and advantages of UAVs, they may lead to major security breaches in the context of hardware, software, and communication channel, due their ease of use and availability. UAVs are vulnerable to various types of attacks such as spoofing, false data injection, jamming, fuzzing, availability, confidentiality, and integrity attacks. To overcome these security threats, researchers have been investigating strong security protocols to keep UAVs safe from the attackers. Nevertheless, there are many flaws in the developed protocols which can be exploited by hackers. Therefore, it is becomes crucial to study and analyze the existing security protocols used in UAVs to discover and address their vulnerabilities and weaknesses. The purpose of this study is to explore the vulnerabilities in the security protocols and propose guidelines to improve the security and provide future research directions.

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“…Similarly, there is joint optimization of joint trajectory and user scheduling, considering a UAV security data distribution system that uses unconventional TDMA protocols to transmit confidential information to a legitimate user in each slot. In order to ensure that the information is not stolen by eavesdroppers in the system, another jamming UAV is introduced to interfere with eavesdropping, and the flight trajectory and ground user scheduling of the UAV are jointly optimized within a limited flight cycle to maximize the minimum average safety rate [8] .…”

Section: Joint Optimization Of Trajectory and Uav Communication Resoumentioning

confidence: 99%

“…Due to the need to split a portion of the power to send artificial noise, this will result in the power of sending confidential messages being weakened, because the energy carried by the UAV is very limited, so power allocation is an important issue. The optimal power allocation scheme is often difficult to find, and suboptimal solutions can usually be proposed [12] . However, in the UAV communication scenario, the UAV communication channel is more complicated due to the time-varying nature of the UAV communication network topology.…”

Section: Artificial Noisementioning

confidence: 99%

Wireless secure communication involving UAV: an overview of physical layer security

Li¹,

Cheng²,

Zhu³

et al. 2021

MATEC Web Conf.

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Unmanned aerial vehicle (UAV) is a flight device with power and energy based on computer program control, which has the characteristics of small size, light weight, high maneuverability and low cost. With its characteristics, UAV can play an important role in military and civil fields. However, due to the broadcast nature of wireless communication and inherent air-to-ground line-of-sight channel, UAV wireless communication system is more vulnerable to security threats. On the basis of traditional encryption technology, the secrecy capacity of the UAV communication system can be improved by introducing physical layer security. This article aims to study the security of the physical layer in the UAV communication system, and summarizes the latest research results on the safety communication involving UAVs on the physical layer, such as trajectory optimization, power allocation, user scheduling and cooperative UAVs. Further, some potential research directions and challenges in physical layer security of UAV system are discussed.

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UAV-Enabled Secure Data Dissemination via Artificial Noise: Joint Trajectory and Communication Optimization

Cited by 15 publications

References 32 publications

Aerial Intelligent Reflecting Surface Enabled Terahertz Covert Communications in Beyond-5G Internet of Things

Aerial Intelligent Reflecting Surface Enabled Terahertz Covert Communications in Beyond-5G Internet of Things

Survey of Security Protocols and Vulnerabilities in Unmanned Aerial Vehicles

Wireless secure communication involving UAV: an overview of physical layer security

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