Ultra-reliable and low-latency communication (URLLC) is one of three major application scenarios of the 5G new radio, which has strict latency and reliability requirements. Contention-based grant-free (GF) access protocols, such as Reactive, K-Repetition, and Proactive, have been proposed for uplink URLLC service. In the GF access, user equipment (UE) resends packet immediately after an unsuccessful transmission such that the latency requirement can be satisfied. Taking Reactive as an example, this paper studies the impact of 1- persistent retransmission (1-pR) on the distribution of user-plane delay. We define the number of UEs that try to send packets in each mini-slot as attempt rate. We show that the 1-pR makes the attempt rate seen by the packet in retransmission larger than that seen by the packet in the first transmission. As a result, the successful probability of retransmission is lower than that of the first transmission. Based on this observation, we derive the distribution of user-plane delay, which also takes into account the delay incurred by queueing process. We demonstrate that whether to include the effect of 1-pR and queueing process in the analysis would have a significant impact on the prediction accuracy of delay distribution.
翻译:超可靠和低时空通信(URLLC)是5G新无线电台的三种主要应用情景之一,它具有严格的延迟性和可靠性要求。基于内容的无赠款访问协议(GF),如Reactive、K-Repetition和Previtial等,已被提议用于URLC服务。在GF访问中,用户设备(UE)在传送失败后立即转发包,从而能够满足延缓要求。以Reactive为例,本文研究了1个持续转播(1-PR)对用户平板延迟分配的影响。我们界定了试图将每小块发送包作为尝试率的UF访问协议的数量。我们表明,1-PR使再传输包所看到的尝试率大于第一个传输包所看到的速度。因此,再次传输的成功概率低于第一次传输的概率。基于这一观察,我们推算用户平时的延迟分布对用户平流(1-pR)对用户平板延迟分配的影响,这也考虑到了在排程过程中的准确性分析。
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