基于非授权频谱共享的蜂窝网络最优功率分配

Feten Slimeni, N. Fezai, Zied Chtourou, A. Amor
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引用次数: 1

摘要

继3G和4G蜂窝网络之后,5G已经在一些国家部署,6G正在开发中,寻求更高的速度和更低的延迟。无线产业和移动用户需求的发展促进了对新的频谱接入策略的探索。尽管毫米波提供了很好的带宽,但由于高路径损耗,它的范围有限。因此,新一代蜂窝网络对Sub-6GHz频谱感兴趣,该频谱具有足够的传播特性,并且有许多频段可供未经许可的访问。然而,这些频率被大多数商业无线技术所使用,如WIFI、蓝牙和3G/4G蜂窝网络。它们的频谱与未经许可的频段上的新无线服务共存,需要基于控制同址运营商功率水平的相互干扰控制。为了解决这个问题,我们提出了一种基于功率控制的共存解决方案,以实现最大的小区传输容量。我们将两个同址运营商之间的互动表述为竞争博弈。在最大功率约束下,每个运营商-用户对试图最大化其在目标信道上的总传输容量。建立了最优功率分配向量的解析表达式,并使各基站不断进行博弈迭代,直至收敛到纳什均衡状态。仿真结果证明了所提模型的性能。
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Optimal Power Allocation Based Unlicensed Spectrum Sharing for Cellular Networks
Following 3G and 4G cellular networks, 5G is already deployed in some countries and 6G is under development looking for higher speed and lower latency. This evolution of wireless industry and mobile users requirements enhance the exploration of new spectral access strategies. Even though, millimeter waves offer promising bandwidth, it suffer from limited range due to high path loss. Therefore, new generations of cellular networks are interested in Sub-6GHz spectrum that has adequate propagation properties and has many bands released for unlicensed access. However, these frequencies are used by the majority of commercial wireless technologies such as WIFI, Bluetooth and 3G/4G cellular networks. Their spectral coexistence with new wireless services over unlicensed bands requires mutual interference control based on controlling the power levels of co-located operators. To address this issue, we present a coexistence solution based on power control enabling maximum cell transmission capacity. We formulate the interaction between two co-located operators as a competitive game. Each operator-user pair tries to maximize its sum transmission capacity over the target channels under maximum power constraint. We develop the analytical expressions of the optimal power allocation vectors, then we keep the base stations playing the game iterations until the convergence to a Nash equilibrium. We provide simulation results proving the performance of the proposed model.
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