Abstract
Unmanned aerial vehicles (UAVs) can be deployed as base stations (BSs) for emergency communications of user equipments (UEs) in 5G/6G networks. In multi-UAV communication networks, UAVs’ load balancing and UEs’ data rate fairness are two challenging problems and can be optimized by UAV deployment strategies. In this work, we found that these two problems are related by the same performance metric, which makes it possible to optimize the two problems simultaneously. To solve this joint optimization problem, we propose a UAV diffusion deployment algorithm based on the virtual force field method. Firstly, according to the unique performance metric, we define two new virtual forces, which are the UAV-UAV force and UE-UAV force defined by FU and FV, respectively. FV is the main contributor to load balancing and UEs’ data rate fairness, and FU contributes to fine tuning the UEs’ data rate fairness performance. Secondly, we propose a diffusion control stratedy to the update UAV-UAV force, which optimizes FV in a distributed manner. In this diffusion strategy, each UAV optimizes the local parameter by exchanging information with neighbor UAVs, which achieve global load balancing in a distributed manner. Thirdly, we adopt the successive convex optimization method to update FU, which is a non-convex problem. The resultant force of FV and FU is used to control the UAVs’ motion. Simulation results show that the proposed algorithm outperforms the baseline algorithm on UAVs’ load balancing and UEs’ data rate fairness.
Highlights
By equipping wireless access network technology, Unmanned Aerial Vehicles (UAVs) can be used as aerial base stations (BSs) to serve the ground user equipment (UE) beyond the coverage of ground BS [1,2,3]
Due to the flying nature, UAVs can be flexibly deployed to the ondemand communication areas and adapt their positions according to the communication requirements [4]
We focus on joint UAV load balancing and UE data rate fairness optimization in multi-UAV networks
Summary
By equipping wireless access network technology, Unmanned Aerial Vehicles (UAVs) can be used as aerial BSs to serve the ground user equipment (UE) beyond the coverage of ground BS [1,2,3]. We will adopt the virtual force field method to optimize the UAVs’ deployment for fair coverage. We focus on joint UAV load balancing and UE data rate fairness optimization in multi-UAV networks To this end, we adopt the virtual force method to control UAVs’ movement [5,16]. The goal of FV is to balance the load among UAVs. A diffusion strategy is designed to update FV, in which each UAV optimizes its FV automatically through the local information (UEs’ data rate and UAV’s load) and the load information of neighbor UAVs. FU aims to achieve proportional fairness for the UEs served by one UAV, which increases the lowest data rate in the network.
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