NB-IOT城域部署模式实验性能评估

K. Turzhanova, V. Tikhvinskiy, S. Konshin, A. Solochshenko
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引用次数: 2

摘要

窄带物联网是一种新的有前途的无线电技术标准,满足了物联网的要求。该技术提供了更好的室内覆盖,支持大量低数据速率设备,低延迟灵敏度,超低设备成本,低设备功耗和优化的网络架构。该技术可以部署在三种不同的工作模式下:(1)带内,(2)保护带,或(3)独立于专用频谱。NB-IoT部署场景的选择对网络的质量和性能有着重要的影响。在本文中,介绍了在相同操作条件下,在实际工作的蜂窝网络中部署NB-IoT的所有三种场景的性能实验研究结果,以供考虑。选择以下参数作为评估指标:无线电覆盖范围、网络容量和用户体验。研究表明,精确的独立模式为这些参数提供了最佳的性能。此外,我们已经确认,这三种NB-IoT场景在2G/4G网络上完美共存,在深度覆盖和网络服务质量上满足3GPP的原始要求。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental Performance Evaluation of NB-IOT Deployment Modes in Urban Area
Narrow-band Internet of Things is a new promising radio technology standard that addresses the requirements of the IoT. The technology provides improved indoor coverage, support of massive number of low data rate devices, low delay sensitivity, ultra-low device cost, low device power consumption and optimized network architecture. The technology can be deployed in three different operational modes: (1) in-band, (2) guard-band, or (3) standalone in dedicated spectrum. The choice of NB-IoT deployment scenario has a significant impact on the quality and performance of the network.In this article, presented the results of an experimental study of the performance of all three scenarios for NB-IoT deploying in a real working cellular network under equal operating conditions for consideration. The following parameters chosen as an assessment measure: radio coverage, network capacity and user experience. The research shown that exact the standalone mode provide the best performance for these parameters. In addition, we have confirmed that all three NB-IoT scenarios coexist perfectly on 2G/4G networks and satisfy the original requirements of 3GPP's in deep coverage and robust quality of network service.
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