Energy efficiency enhancement with RRC connection control for 5G new RAT

2018 IEEE Wireless Communications and Networking Conference (WCNC) Pub Date : 2018-04-15 DOI:10.1109/WCNC.2018.8377115

Sunheui Ryoo, Jungsoo Jung, RaYeon Ahn

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引用次数: 13

Abstract

To avoid the latency from RRC state transition procedure, legacy network maintains UE as RRC connected state for pre-defined time duration even without any traffic arrival. However, it consumes UE battery rapidly because UE should monitor PDCCH, and send CQI feedback periodically. In this paper, we design the RRC connection control to enhance energy efficiency with moderate control signaling overhead. In RRC INACTIVE state, the newly introduced in NR, both network and UE save UE context including bearer configuration and security even after UE released from network. Owing to the saved UE context, the RRC state transition from RRC INACTIVE to RRC CONNECTED requires fewer number of CN signalling. And thus network can release UE to RRC INACTIVE more aggressively with shorter timer. Furthermore, we propose the connectionless data transmission in RRC INACTIVE without RRC state transition to RRC CONNECTED. In our performance analysis, UE energy consumption can be improved by 50% for the modem only and 18% reduction for the total device including display. Furthermore, when the small data or background (keep-alive) traffic is transferred in RRC INACTIVE, the energy efficiency is increased up to double.

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5G新RAT通过RRC连接控制提高能效

为了避免RRC状态转换过程的延迟，即使没有任何流量到达，传统网络也会在预定义的时间内将UE保持为RRC连接状态。但是，由于UE需要监控PDCCH，并定期发送CQI反馈，因此消耗UE电池的速度很快。在本文中，我们设计了RRC连接控制，以提高能源效率和适度的控制信令开销。在RRC INACTIVE状态下，新引入NR的网络和终端即使在终端从网络中释放出来后，也会保存包括承载配置和安全性在内的终端上下文。由于保存了UE上下文，RRC状态从RRC INACTIVE转换到RRC CONNECTED所需的CN信令数量较少。因此，网络可以更积极地以更短的时间将UE释放到RRC INACTIVE。此外，我们还提出了RRC非活动状态下的无连接数据传输，而不需要将RRC状态转换为RRC连接状态。在我们的性能分析中，仅调制解调器的UE能耗可以提高50%，包括显示器在内的整个设备的UE能耗可以降低18%。此外，当在RRC INACTIVE中传输小数据或后台(keep-alive)流量时，能效可提高一倍。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 IEEE Wireless Communications and Networking Conference (WCNC)

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