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Trajectory Optimization for Cellular-Enabled UAV With Connectivity Outage Constraint

Yu‐Jia Chen, Dayu Huang

2020IEEE Access30 citationsDOIOpen Access PDF

Abstract

This paper studies the trajectory optimization problem of a single cellular-enabled unmanned aerial vehicle (UAV), taking into account the outage performance of the entire trajectory. To provide real-time control, it is critical for UAV to maintain reliable connectivity with the ground base station (GBS). We first consider the connectivity outage performance, which is defined as the sum of the time duration of the outage performance not meeting a predefined threshold during the entire UAV mission. Then we formulate a trajectory optimization problem to minimize the mission completion time, while ensuring a sum constraint of the connectivity outage performance. We show that the connectivity outage constraint can be transformed into a flying area constraint. Since the formulated problem is NP-hard, a low-complexity method is proposed to solve the problem by finding the shortest path in an undirected weighted graph with enlarged GBS coverage. Simulation results demonstrate the superiority of the proposed scheme over other state-of-the-art schemes, in terms of trajectory length and computational complexity.

Topics & Concepts

Computer scienceTrajectoryConstraint (computer-aided design)Base stationMathematical optimizationOptimization problemTrajectory optimizationPath (computing)Shortest path problemComputational complexity theoryGraphAlgorithmOptimal controlMathematicsComputer networkTheoretical computer scienceAstronomyGeometryPhysicsUAV Applications and OptimizationVehicular Ad Hoc Networks (VANETs)Robotic Path Planning Algorithms