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A Joint UAV Trajectory, User Association, and Beamforming Design Strategy for Multi-UAV-Assisted ISAC Systems

Ruizhi Zhang, Ying Zhang, Rui Tang, Huapeng Zhao, Qing Xiao, Chenye Wang

2024IEEE Internet of Things Journal74 citationsDOI

Abstract

In this article, we investigate a resource allocation problem for a multiunmanned aerial vehicle (UAV) assisted integrated sensing and communication (ISAC) system, where a group of dual-functional UAVs perform simultaneous radar sensing of a target and data communication with multiple ground users (GUs). In particular, the trajectory of UAVs, user association, and beamforming design are jointly considered to maximize the sum weighted bit rate of all GUs while ensuring the sensing beampattern gain of the target. To cope with the above mixed-integer nonconvex optimization problem, we propose an efficient strategy by decomposing the original problem into two subproblems under the alternating optimization framework. For the user association and beamforming design, we propose a novel algorithm to circumvent the coupling relationship among GUs and UAVs by leveraging matching theory and fractional programming theory. For the nonconvex UAV trajectory subproblem, we apply the sequential quadratic programming to obtain a suboptimal solution by solving a sequence of quadratic programming problems. The above two subproblems are iteratively solved and a stable solution is obtained upon convergence. Simulation results show that the proposed strategy outperforms various benchmark schemes that are based on the deferred acceptance algorithm, K-means algorithm, and a heuristic algorithm. It is demonstrated that the proposed strategy efficiently improve the sensing beampattern gain and communication rate.

Topics & Concepts

Computer scienceBeamformingTrajectoryJoint (building)Data associationAssociation (psychology)Real-time computingComputer networkTelecommunicationsArtificial intelligenceEngineeringArchitectural engineeringEpistemologyPhysicsProbabilistic logicAstronomyPhilosophyUAV Applications and OptimizationRadar Systems and Signal ProcessingAir Traffic Management and Optimization
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