Satellite-Assisted UAV Trajectory Control in Hostile Jamming Environments

Liu, Aijun; An, Kang; Wang, Haichao; Zheng, Gan; Chatzinotas, Symeon; Huo, Liangyu; Tong, Xinhai

doi:10.1109/tvt.2021.3136187

Cited by 10 publications

(5 citation statements)

References 44 publications

(58 reference statements)

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“…These optimization-based methods typically require prior knowledge of the jammer, and lack the ability to adapt to different jamming environments, e.g., in which the jammer's location is changed, or jamming is performed in a time-varying fashion. To tackle this challenge, the authors in [17] developed a reinforcement learning (RL) based automatic flight control algorithm to perform UAV 2 trajectory design in a coordinated satellite-UAV communication system in the presence of ground jamming attacks. The jammer launched attacks according to a jamming probability.…”

Section: A Related Workmentioning

confidence: 99%

Resilient Path Planning for UAVs in Data Collection Under Adversarial Attacks

Wang

Gursoy

2023

IEEE Trans.Inform.Forensic Secur.

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In this paper, we investigate jamming-resilient UAV path planning strategies for data collection in Internet of Things (IoT) networks, in which the typical UAV can learn the optimal trajectory to elude such jamming attacks. Specifically, the typical UAV is required to collect data from multiple distributed IoT nodes under collision avoidance, mission completion deadline, and kinematic constraints in the presence of jamming attacks. We first design a fixed ground jammer with continuous jamming attack and periodical jamming attack strategies to jam the link between the typical UAV and IoT nodes. Defensive strategies involving a reinforcement learning (RL) based virtual jammer and the adoption of higher SINR thresholds are proposed to counteract against such attacks. Secondly, we design an intelligent UAV jammer, which utilizes the RL algorithm to choose actions based on its observation. Then, an intelligent UAV anti-jamming strategy is constructed to deal with such attacks, and the optimal trajectory of the typical UAV is obtained via dueling double deep Q-network (D3QN). Simulation results show that both non-intelligent and intelligent jamming attacks have significant influence on the UAV's performance, and the proposed defense strategies can recover the performance close to that in no-jammer scenarios.

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Section: A Related Workmentioning

confidence: 99%

Resilient Path Planning for UAVs in Data Collection Under Adversarial Attacks

Wang

Gursoy

2023

IEEE Trans.Inform.Forensic Secur.

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“…Minimization of mean squared error (MSE) in a scenario where the UAVs are flying and collecting data from sensors is presented in Khosravi and Samadi. 134 Automated inspection of railway systems with UAV aerial images along with fully decoupled convolution filters is proposed in Tong et al 135 Secure UAV communication with trajectory control is modeled in Tang et al 113 and Han et al 114 To identify the UAVs, an e-Sim-based authentication protocol is presented in Shoufan et al 136 The characteristics of Google's Loon project is further studied in Serrano et al 137 3D localization, interference management, channel modeling, and handover management are the challenging research areas to consider for applications with UAV as UE, whereas for BS, applications face challenges in optimal 3D deployment, resource allocation, network planning, and trajectory optimization. 138…”

Section: Machine Learning-based Optimization Algorithmsmentioning

confidence: 99%

Unmanned aerial vehicles: Applications, techniques, and challenges as aerial base stations

Rolly

Malarvezhi

Λάγκας

2022

International Journal of Distributed Sensor Networks

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Next generation wireless networks are expected to be greatly supported by unmanned aerial vehicles, which can act as aerial base stations and constitute a promising solution for the exorbitant rise in user demands. This is possible because of unmanned aerial vehicle characteristics such as mobility, flexibility, increased line-of-sight probability, and their ability to access unreachable locations. Extensive research is now widely performed on the deployment, performance analysis, resource management, trajectory optimization, and channel modeling in such networks. This survey article focuses on the different applications and the related algorithms for realizing aerial base stations by thoroughly reviewing each related research area. In a nutshell, this article provides key applications, challenges, and the technology used for the design and analysis of unmanned aerial vehicles as base stations.

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“…UAVs can provide technical support for reconnaissance and early warning, battlefield surveillance and target tracking, which is an important way to obtain intelligence information and enhance battlefield situational awareness. Strategic UAVs can carry out long periods of continuous reconnaissance and surveillance of the enemy [1,2], with the characteristics of dynamic and real-time information, and can effectively detect enemy time-sensitive targets and targets with irregular activities.…”

Section: Introductionmentioning

confidence: 99%

An unsupervised aerial tracking method of camouflaged targets in complex environments

Yang

Wang

et al. 2023

J. Phys.: Conf. Ser.

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With the widespread use of UAVs and the development of various technologies related to computer vision, much attention has been devoted to UAV-based target tracking. For the task of tracking camouflaged people in complex environments, there is a shortage of annotated datasets and poor backbone feature extraction network capabilities, which will cause tracking drift and tracking lag. To achieve unsupervised UAV target tracking under unsupervised conditions, a new target tracking model has been designed. First, we roughly detect moving targets using a camouflaged segmentation network, and then apply dynamic programming to generate smooth candidate boxes. Secondly, a deeper convolutional neural network is designed for feature extraction to replace the original backbone network, and the residual structure is modified to ensure tracking effectiveness. Extensive comparative experiments have shown that the proposed unsupervised method performs the task of UAV target tracking well.

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Satellite-Assisted UAV Trajectory Control in Hostile Jamming Environments

Cited by 10 publications

References 44 publications

Resilient Path Planning for UAVs in Data Collection Under Adversarial Attacks

Resilient Path Planning for UAVs in Data Collection Under Adversarial Attacks

Unmanned aerial vehicles: Applications, techniques, and challenges as aerial base stations

An unsupervised aerial tracking method of camouflaged targets in complex environments

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