【资料名称】:LTE uplink performance
【资料作者】:Volker Pauli
【资料日期】:2011
【资料语言】:英文
【资料格式】:PDF
【资料目录和简介】:
Abstract
The consideration of realistic uplink inter-cell interference is essential for the overall performance testing of future cellular systems, and in particular for the evaluation of theradio resource management (RRM) algorithms. Most beyond-3G communication systems employ orthogonal multiple access in uplink (SC-FDMA in LTE and OFDMA in WiMAX), and additionally rely on frequency-selective RRM (scheduling) algorithms. This makes the task of accurate
modeling of uplink interference both crucial and non-trivial. Traditional methods for its modeling (e.g., via additive white Gaussian noise interference sources) are therefore proving to be ineffective to realistically model the uplink interference in the next generation cellular systems.
In this article, we propose the use of realistic precomputed interference patterns for LTE uplink performance analysis and testing. The interference patterns are generated via an LTE system-level simulator for a given set of scenario parameters, such as cell configuration, user configurations, and traffic models. The generated interference patterns (some of which are made publicly available) can be employed to benchmark the performance of any LTE
uplink system in both lab simulations and field trials for practical deployments. It is worth mentioning that the proposed approach can also be extended to other cellular communication systems employing OFDMA-like multiple access with frequency-selective RRM techniques.
The proposed approach offers twofold advantages. First, it allows for repeatability and reproducibility of the performance analysis. This is of crucial significance not only for researchers and developers to analyze the behavior and performance of their systems, but also for the network operators to compare the performance of competing system vendors. Second, the proposed testing mechanism evades the need for deployment of multiple cells (with multiple active users in each) to achieve realistic field trials, thereby resulting in significant cost (and time) savings in the field trails.
扫码关注5G通信官方公众号,免费领取以下5G精品资料
1、回复“LTBPS”免费领取《《中国联通5G终端白皮书》》
2、回复“ZGDX”免费领取《中国电信5G NTN技术白皮书》
3、回复“TXSB”免费领取《通信设备安装工程施工工艺图解》
4、回复“YDSL”免费领取《中国移动算力并网白皮书》
5、回复“5GX3”免费领取《 R16 23501-g60 5G的系统架构1》
6、回复“iot6”免费领取《【8月30号登载】物联网创新技术与产业应用蓝皮书——物联网感知技术及系统应用》
7、回复“6G31”免费领取《基于云网融合的6G关键技术白皮书》
8、回复“IM6G”免费领取《6G典型场景和关键能力白皮书》
|