Cellular-connected unmanned aerial vehicle (UAV) has attracted a surge of research interest in both academia and industry. To support aerial user equipment (UEs) in the existing cellular networks, one promising approach is to assign a portion of the system bandwidth exclusively to the UAV-UEs. This is especially favorable for use cases where a large number of UAV-UEs are exploited, e.g., for package delivery close to a warehouse. Although the nearly line-of-sight (LoS) channels can result in higher powers received, UAVs can in turn cause severe interference to each other in the same frequency band. In this contribution, we focus on the uplink communications of massive cellular-connected UAVs. Different power allocation algorithms are proposed to either maximize the minimal spectrum efficiency (SE) or maximize the overall SE to cope with severe interference based on the successive convex approximation (SCA) principle. One of the challenges is that a UAV can affect a large area meaning that many more UAV-UEs must be considered in the optimization problem, which is essentially different from that for terrestrial UEs. The necessity of single-carrier uplink transmission further complicates the problem. Nevertheless, we find that the special property of large coherent bandwidths and coherent times of the propagation channels can be leveraged. The performances of the proposed algorithms are evaluated via extensive simulations in the full-buffer transmission mode and bursty-traffic mode. Results show that the proposed algorithms can effectively enhance the uplink SEs. This work can be considered the first attempt to deal with the interference among massive cellular-connected UAV-UEs with optimized power allocations.
翻译:与细胞相连的无人驾驶飞行器(UAV)吸引了学术界和工业界的研究兴趣。为了支持现有蜂窝网络中的航空用户设备(UES),一个有希望的方法是将系统带宽的一部分专门分配给UAV-UES。这特别有利于使用大量UAV-UE(例如,用于仓库附近的包件交付)的情况。尽管接近直线(LOS)的观测渠道可以带来更高的接收力,但UAV(UAV)可以反过来在同一频率带内对彼此造成严重干扰。在这一贡献中,我们侧重于大规模与蜂窝相连的UAVAV的升级连接通信。提出了不同的电力分配算法,以最大限度地提高最小频谱效率,或最大限度地扩大整个SE,以应对基于连续的 conveswuright (SC) 原则产生的严重干扰。其中一个挑战是UAVAV(L)能够影响一个大区域,这意味着更多的UAV-UE(US)频道必须被考虑在最优化的问题中,这与考虑的地面导航频带波段之间有着根本的不同。在这种贡献中,我们专注于与大规模手机连接的UAVLUV-levlationlationlationlational dal dal dalevlationalevalationalations deview 。这个提议中,这可以有效显示一个持续的轨道的轨道传递方式使得我们通过整个电路段段段的运行变变变变变变变变。 。 。 。提议的轨变的轨变变变。 。 变的轨变的轨变的轨变变的轨变变变变变。 变变变变变变变变的变。