5G technology allows the presence of heterogeneous services in the same physical network. On the radio access network (RAN), the spectrum slicing of the shared radio resources is a critical task to guarantee the performance of each service. In this paper, we analyze a downlink communication in which a base station (BS) should serve two types of traffic, enhanced mobile broadband (eMBB) and ultra-reliable low-latency communication (URLLC), respectively. Due to the nature of low-latency traffic, the BS knows the channel state information (CSI) of the eMBB users only. In this setting, we study the power minimization problem employing orthogonal multiple access (OMA) and non-orthogonal multiple access (NOMA) schemes. We analyze the impact of resource sharing, showing that the knowledge of eMBB CSI can be used also in resource allocation for URLLC users. Based on this analysis, we propose two algorithms: a feasible and a block coordinated descent approach (BCD). We show that the BCD is optimal for the URLLC power allocation. The numerical results show that NOMA leads to a lower power consumption compared to OMA, except when the URLLC user is very close to the BS. For the last case, the optimal approach depends on the channel condition of the eMBB user. In any case, even when the OMA paradigm attains the best performance, the gap with NOMA is negligible, proving the NOMA capacity in exploiting the shared resources to reduce the power consumption in every condition.
翻译:5G技术允许在同一物理网络中存在多种服务。 在无线电接入网络(RAN)上,共享无线电资源的频谱剪切是保证每项服务绩效的关键任务。 在本文中,我们分析一个基站(BS)应分别服务两种类型交通的下行链路通信,即增强的移动宽带(EMBBB)和超可靠的低频通信(URLLC)。由于低纬度交通的性质,BS只了解eMBB用户的频道状态信息(CSI)。在这个设置中,我们研究使用或超度多存取(OMA)和非超度多存取(NOMA)计划来尽量减少电力问题。我们分析资源共享的影响,显示eMBB CSI的知识也可以用于URLC用户的资源分配。基于这一分析,我们提出了两种算法:一种可行和一种块状协调的下降方法(BCD)。我们显示,即使采用URLC电力配置,BCD也是最理想的。数字结果显示,使用OMA的资源在接近LMA的情况下,使用最差的渠道取决于OMA。