Trajectory Optimization and Channel Allocation for Delay Sensitive Secure Transmission in UAV-Relayed VANETs

Yixin He; Dawei Wang; Fanghui Huang; Ruonan Zhang; Jianping Pan

doi:10.1109/TVT.2022.3144178

Trajectory Optimization and Channel Allocation for Delay Sensitive Secure Transmission in UAV-Relayed VANETs

Yixin He, Dawei Wang, Fanghui Huang, Ruonan Zhang, Jianping Pan

School of Electronics and Information

Research output: Contribution to journal › Article › peer-review

36 Scopus citations

Abstract

This paper investigates the delay sensitive secure transmission problem in unmanned aerial vehicle (UAV)-relayed vehicular ad hoc networks (VANETs). Specifically, we take the security assurance into account and formulate this problem as a total information delay minimization problem by optimizing the UAV relay trajectory and channel allocation. To tackle this optimization problem, we propose an alternating optimization framework, where the UAV relay trajectory is solved by the Newton method, and the channel allocation is obtained by relax-and-round and sequential convex approximation methods. Finally, simulation results show the performance improvement of our algorithm compared with the current works in terms of the total information delay.

Original language	English
Pages (from-to)	4512-4517
Number of pages	6
Journal	IEEE Transactions on Vehicular Technology
Volume	71
Issue number	4
DOIs	https://doi.org/10.1109/TVT.2022.3144178
State	Published - 1 Apr 2022

Keywords

Channel allocation
information delay
trajectory optimization
unmanned aerial vehicle (UAV)
vehicular ad hoc networks (VANETs)

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10.1109/TVT.2022.3144178

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title = "Trajectory Optimization and Channel Allocation for Delay Sensitive Secure Transmission in UAV-Relayed VANETs",

abstract = "This paper investigates the delay sensitive secure transmission problem in unmanned aerial vehicle (UAV)-relayed vehicular ad hoc networks (VANETs). Specifically, we take the security assurance into account and formulate this problem as a total information delay minimization problem by optimizing the UAV relay trajectory and channel allocation. To tackle this optimization problem, we propose an alternating optimization framework, where the UAV relay trajectory is solved by the Newton method, and the channel allocation is obtained by relax-and-round and sequential convex approximation methods. Finally, simulation results show the performance improvement of our algorithm compared with the current works in terms of the total information delay.",

keywords = "Channel allocation, information delay, trajectory optimization, unmanned aerial vehicle (UAV), vehicular ad hoc networks (VANETs)",

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AU - He, Yixin

AU - Wang, Dawei

AU - Huang, Fanghui

AU - Zhang, Ruonan

AU - Pan, Jianping

PY - 2022/4/1

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N2 - This paper investigates the delay sensitive secure transmission problem in unmanned aerial vehicle (UAV)-relayed vehicular ad hoc networks (VANETs). Specifically, we take the security assurance into account and formulate this problem as a total information delay minimization problem by optimizing the UAV relay trajectory and channel allocation. To tackle this optimization problem, we propose an alternating optimization framework, where the UAV relay trajectory is solved by the Newton method, and the channel allocation is obtained by relax-and-round and sequential convex approximation methods. Finally, simulation results show the performance improvement of our algorithm compared with the current works in terms of the total information delay.

AB - This paper investigates the delay sensitive secure transmission problem in unmanned aerial vehicle (UAV)-relayed vehicular ad hoc networks (VANETs). Specifically, we take the security assurance into account and formulate this problem as a total information delay minimization problem by optimizing the UAV relay trajectory and channel allocation. To tackle this optimization problem, we propose an alternating optimization framework, where the UAV relay trajectory is solved by the Newton method, and the channel allocation is obtained by relax-and-round and sequential convex approximation methods. Finally, simulation results show the performance improvement of our algorithm compared with the current works in terms of the total information delay.

KW - Channel allocation

KW - information delay

KW - trajectory optimization

KW - unmanned aerial vehicle (UAV)

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Trajectory Optimization and Channel Allocation for Delay Sensitive Secure Transmission in UAV-Relayed VANETs

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