Abstract
Unmanned Aerial Vehicle Base Stations (UAVBSs) are envisioned to be an integral component of the next generation Wireless Communications Networks (WCNs) by dynamically moving the supply towards the demand. A significant drawback of the state-of-the-art have been designing a WCN in which the service-oriented performance measures (e.g., throughput) are optimized without considering different relevant decisions such as determining the location and allocating the resources, jointly. In this study, we address the UAVBS location and bandwidth allocation problems together to optimize the total network profit. In particular, a Mixed-Integer Non-Linear Programming (MINLP) formulation is developed, in which the location of a single UAVBS and bandwidth allocations to users are jointly determined. The objective is to maximize the total profit without exceeding the backhaul and access capacities. The profit gained from a specific user is assumed to be a piecewise-linear function of the provided data rate level, where higher data rate levels would yield higher profit. Due to high complexity of the MINLP, we propose an efficient heuristic algorithm with lower computational complexity. We show that, when the UAVBS location is determined, the resource allocation problem can be reduced to a Multidimensional Binary Knapsack Problem (MBKP), which can be solved in pseudo-polynomial time. To exploit this structure, the optimal bandwidth allocations are determined by solving several MBKPs in a search algorithm. We test the performance of our algorithm with two heuristics and with the MINLP model solved by a commercial solver. Our numerical results show that the proposed algorithm outperforms the alternative solution approaches and would be a promising tool to improve the total network profit.
Highlights
Unmanned Aerial Vehicle Base Stations (UAV-BSs) are expected to be used in the generation Wireless Communications Networks (WCNs) for enhancing the capacity of the network as well as expanding the coverage [1]
(i) we prove that the data rate function is concave with respect to bandwidth and (ii) we prove that the data rate function is unimodal with respect to the UAV-BS altitude
We provide some powerful insights on how service-based pricing can boost the network profit
Summary
Unmanned Aerial Vehicle Base Stations (UAV-BSs) are expected to be used in the generation Wireless Communications Networks (WCNs) for enhancing the capacity of the network as well as expanding the coverage [1]. The associate editor coordinating the review of this manuscript and approving it for publication was Fang Yang. Such as resource management and channel modelling [2]. Base stations are typically located with respect to long-term traffic estimations. Even though these estimations vary in time, installing new cells should be a cost-effective choice to meet the demand. A UAV-BS’s location can be adjusted to meet instantaneous demand or to enhance the capacity of the WCN, yet, determining the optimal
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