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UAV Trajectory and Sub-channel Assignment for UAV Based Wireless Networks

Minh Dat Nguyen, Tai Manh Ho, Long Bao Le, A. Girard

202023 citationsDOI

Abstract

In this paper, we study the trajectory control and sub-channel assignment for unmanned aerial vehicles (UAVs) based wireless networks with wireless backhaul links. This design aims to optimize the max-min rate subject to data transmission demands of ground users (GUs). The underlying problem is a mixed integer nonlinear optimization problem because of the complicated relationship between the UAV-GU channel gains and the UAV's location in each time slot of the flight period. To tackle this problem, we employ the alternating optimization approach where we iteratively optimize the sub-channel assignment and UAV trajectory control until convergence. Moreover, the difference of convex functions (DC) optimization method and the arithmetic and geometric means (AM-GM) inequality are employed to convexify and solve the non-convex UAV trajectory sub-problem. Via extensive numerical studies, we illustrate the effective UAV's trajectory considering capacity-limited access and backhaul links and the non-negligible rate gain of the proposed design compared to a baseline employing the circular UAV trajectory around the center of service area and a heuristic algorithm for sub-channel assignment.

Topics & Concepts

Trajectory optimizationComputer scienceBackhaul (telecommunications)WirelessTrajectoryChannel (broadcasting)Optimization problemWireless networkMathematical optimizationNonlinear programmingConvex optimizationNonlinear systemReal-time computingControl theory (sociology)Computer networkOptimal controlAlgorithmRegular polygonMathematicsControl (management)TelecommunicationsArtificial intelligenceGeometryPhysicsAstronomyQuantum mechanicsUAV Applications and OptimizationMobile Ad Hoc NetworksDistributed Control Multi-Agent Systems