Laboratory Analysis on the Performance of 5G NSA Communication in a Suburban Scenario

International Journal of Wireless & Mobile Networks Pub Date : 2022-12-30 DOI:10.5121/ijwmn.2022.14602

B. S. D. Silva, I. Batalha

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Abstract

The propagation of information by electromagnetic waves suffers different types of interference, according to the characteristics of the environment. The 5G system relies on adaptive modulation and coding techniques to better suit the channel and maximize effective data exchange between the user equipment and the network. Practical studies on the behaviour of the system under different environmental conditions, subject to attenuation processes such as fading, are important to understand and improve the 5G efficiency. This work has analysed the effect of the MCS (Modulation and Coding Scheme) variation on throughput for channel degraded by the multipath fading effect in a mobile communication. The analysis was carried out showing that the decision algorithms in terms of MCS switching to maintain adequate data rates according to the requirement (QoS) is an important factor. Considering both 64 QAM and 256 QAM, the throughput degradation effect was more evident in higher-order modulations due to the higher probability of bit error in the symbol constellation. This study can be a key for understanding and developing robust MCS switcher for 5G and beyond communications.

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城郊场景下5G NSA通信性能实验室分析

根据环境的特点，电磁波传播信息会受到不同类型的干扰。5G系统依靠自适应调制和编码技术来更好地适应信道，并最大限度地提高用户设备和网络之间的有效数据交换。实际研究系统在不同环境条件下的行为，受衰落等衰减过程的影响，对于理解和提高5G效率非常重要。本文分析了移动通信中调制和编码方案(MCS)变化对信道吞吐量的影响。分析表明，决策算法在MCS切换方面根据要求保持足够的数据速率(QoS)是一个重要因素。考虑到64 QAM和256 QAM，由于符号星座中更高的误码概率，高阶调制的吞吐量退化效应更为明显。这项研究可以成为理解和开发用于5G及以后通信的强大MCS切换器的关键。

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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International Journal of Wireless & Mobile Networks

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