Efficient small cell discovery mechanism exploiting network synchronization and assistance for future radio access networks

H. Harada, Satoshi Nagata, Y. Kishiyama, H. Ishii
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引用次数: 4

Abstract

In this paper, we propose an efficient small cell discovery mechanism that addresses two problems: the increases in the UE effort and corresponding battery consumption for inter-frequency small cell discovery due to an increase in the number of frequency carriers to be measured, and the severe interference among synchronization signals (SSs) and reference signals (RSs) transmitted by clustered small cells. The proposed mechanism utilizes synchronized transmission of discovery signals (DS) for the discovery of small cells. In addition, the network informs connected UEs about the transmission timing and configuration information of DSs. Therefore, the proposed mechanism based on network synchronization and assistance can achieve fast and efficient discovery of multiple small cells, if an appropriate DS is applied. To solve the interference among synchronized DSs, the DS design based on existing SS and RS with orthogonal resource configuration is also proposed. Simulation results show that the proposed mechanism with an appropriate DS design can ensure accurate discovery of multiple small cells within a short measurement time.
利用网络同步的高效小蜂窝发现机制,为未来无线接入网络提供支持
在本文中,我们提出了一种有效的小蜂窝发现机制,该机制解决了两个问题:由于要测量的频率载波数量增加,频率间小蜂窝发现的UE努力和相应的电池消耗增加,以及集群小蜂窝传输的同步信号(ss)和参考信号(RSs)之间的严重干扰。提出的机制利用发现信号的同步传输(DS)来发现小细胞。此外,网络还会向所连接的终端通知DSs的传输时间和配置信息。因此,如果采用适当的DS,基于网络同步和辅助的机制可以实现快速高效地发现多个小细胞。为了解决同步决策系统之间的干扰问题,提出了基于现有决策系统和基于正交资源配置的决策系统设计。仿真结果表明,通过适当的DS设计,该机制可以在较短的测量时间内准确发现多个小细胞。
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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