Channel Modeling for 6G Communications: A Survey

2021 International Conference on Computer System, Information Technology, and Electrical Engineering (COSITE) Pub Date : 2021-10-20 DOI:10.1109/COSITE52651.2021.9649545

H. Walidainy, Ramzi Adriman, Y. Away, N. Nasaruddin

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引用次数: 3

Abstract

The development of communications technology is overgrowing, making disseminating information so fast, widespread, and massive. A network of communication systems starting from the first generation to the current sixth-generation (6G). Fifth-generation communication systems have been implemented in several places in the world today. However, research continues to develop the sixth-generation communication system. This paper aims to survey and design a channel modeling for a 6G communication system. Moreover, the channel model has also simulated the system in Banda Aceh city as a case study, using the NYUSIM simulator. In this paper, the channel model is considered in the form of Urban Microcell (Umi) and Line of Sight (LOS) with a frequency of 90 GHz. Based on the simulation, this paper found that the path loss value is 124.7 dB, and the received power is -45.5 dBm. The simulation result has also shown that the maximum distance from the transmitter to the receiver for 6G communication is 123.5 m with a delay of 6.4 ns on directional power delay profile (PDP). While on omnidirectional PDP, the delay is 21.9 ns. Thus, the resulting attenuation is relatively high for 6G communication systems due to high rainfall in Banda Aceh.

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6G通信的信道建模:综述

通信技术的飞速发展，使得信息传播速度之快、传播范围之广、传播量之大。从第一代到目前的第六代(6G)通信系统网络。目前，第五代通信系统已在世界上多个地方实施。然而，第六代通信系统的研究仍在继续。本文旨在调查和设计一个6G通信系统的信道模型。此外，该渠道模型还以班达亚齐市为例，使用NYUSIM模拟器模拟了该系统。本文考虑的信道模型为城市微蜂窝(Umi)和视线(LOS)形式，频率为90ghz。通过仿真，本文发现路径损耗值为124.7 dB，接收功率为-45.5 dBm。仿真结果还表明，在定向功率延迟曲线(PDP)上，6G通信的最大发送距离为123.5 m，延迟为6.4 ns。而在全向PDP上，延迟为21.9 ns。因此，由于班达亚齐的高降雨量，6G通信系统的衰减相对较高。

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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2021 International Conference on Computer System, Information Technology, and Electrical Engineering (COSITE)

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