Sounding reference signal measurement in LTE system

2016 18th International Conference on Advanced Communication Technology (ICACT) Pub Date : 2016-03-03 DOI:10.1109/ICACT.2016.7423547

Eunjeong Shin, Jeawook Shin

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Abstract

The SRS are physical signals transmitted in uplink to enable the eNB to estimate the CSI over a range of frequencies in LTE system. The estimation of the CSI assists the eNB scheduler to properly allocated radio resource to the UE. The SRS transmission can be also be used to support downlink beamforming. The sub-frame in which SRS is transmitted by any UE within the cell is signaled via cell specific broadcast signaling, there are 15 possible sets of subframe in which SRS may be transmitted within each radio frame. The SRS is based on the extended zadoff-chu sequence and transmitted in the last SC-FDMA symbol of an uplink subframe, the SRS transmitted by the UEs are multiplexed in the time and freq. domain through configuring SRS periodicity SRS, frequency comb pattern, and SRS bandwidth. Different sets of UE-specific sounding signals are independently allocated for SRS transmission, including transmission bandwidth, frequency comb pattern, cyclic shift. In this paper, transmission subframe, bandwidth, freq. comb pattern, for it suggests ways to reduce the measurement performance and HW complexity of the UE between the Sounding RS separated by a Cyclic shift value and Timing offset measurement method.

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LTE系统中测深基准信号的测量

SRS是在上行链路中传输的物理信号，使eNB能够在LTE系统的频率范围内估计CSI。对CSI的估计有助于eNB调度器将无线电资源适当地分配给终端。SRS传输也可用于支持下行波束形成。由小区内的任何UE传输SRS的子帧通过小区特定的广播信令发出信号，在每个无线电帧内可以传输SRS的15个可能的子帧集。SRS基于扩展的zadoff-chu序列，在上行子帧的最后一个SC-FDMA码元上传输，通过配置SRS周期、频率梳型和SRS带宽，实现SRS在时频域的复用。不同组的ue专用探测信号独立分配用于SRS传输，包括传输带宽、频梳方向图、周期移位。本文从传输子帧、带宽、频梳模式等方面，提出了降低循环移位测量法和时序偏移测量法分离的探测RS之间UE的测量性能和HW复杂度的方法。

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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2016 18th International Conference on Advanced Communication Technology (ICACT)

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