Attaining reliable communications traditionally relies on a closed-loop methodology but inevitably incurs a good amount of networking latency thanks to complicated feedback mechanism and signaling storm. Such a closed-loop methodology thus shackles the current cellular network with a tradeoff between high reliability and low latency. To completely avoid the latency induced by closed-loop communication, this paper aims to study how to jointly employ open-loop communication and multi-cell association in a heterogeneous network (HetNet) so as to achieve ultra-reliable and low-latency communications. We first introduce how mobile users in a HetNet adopt the proposed proactive multi-cell association (PMCA) scheme to form their virtual cell that consists of multiple access points (APs) and then analyze the communication reliability and latency performances. We show that the communication reliability can be significantly improved by the PMCA scheme and maximized by optimizing the densities of the users and the APs. The analyses of the uplink and downlink delays are also accomplished, which show that extremely low latency can be fulfilled in the virtual cell of a single user if the PMCA scheme is adopted and the radio resources of each AP are appropriately allocated.
翻译:获取可靠的通信传统上依赖于封闭式环流方法,但由于复杂的反馈机制和信号风暴,必然会产生大量的联网延迟。这种封闭式环流方法将目前的蜂窝网络紧紧地固定在高度可靠和低延迟之间的平衡点。为了完全避免由封闭式环流通信导致的延迟,本文件旨在研究如何在混合式网络(HetNet)中联合使用开放式环流通信和多细胞协会,以便实现超可靠和低延迟的通信。我们首先介绍HetNet中的移动用户如何采用拟议的主动多细胞协会(PMCA)计划来形成由多个接入点组成的虚拟细胞,然后分析通信可靠性和延迟性能。我们表明,通过封闭式环流通信计划可以大大改进通信可靠性,并通过优化用户和移动电话的密度来最大限度地提高通信可靠性。对超链接和下链接延迟性的分析也已经完成,这表明,如果采用移动式多细胞协会计划,并且适当分配了每个无线电资源,则可以在单一用户的虚拟细胞中完成极低的连接。