An ANN‐based channel modeling in 5G millimeter wave for a high‐voltage substation

Zihao Fu; Yu Zhang; Xiongwen Zhao; Fei Du; Suiyan Geng; Peng Qin; Zhenyu Zhou; Lei Zhang; Suhong Chen

doi:10.1049/cmu2.12281

IET Communications (Dec 2021)

An ANN‐based channel modeling in 5G millimeter wave for a high‐voltage substation

Zihao Fu,
Yu Zhang,
Xiongwen Zhao,
Fei Du,
Suiyan Geng,
Peng Qin,
Zhenyu Zhou,
Lei Zhang,
Suhong Chen

Affiliations

Zihao Fu: School of Electrical and Electronic Engineering North China Electric Power University Beijing China
Yu Zhang: School of Electrical and Electronic Engineering North China Electric Power University Beijing China
Xiongwen Zhao: School of Electrical and Electronic Engineering North China Electric Power University Beijing China
Fei Du: School of Electrical and Electronic Engineering North China Electric Power University Beijing China
Suiyan Geng: School of Electrical and Electronic Engineering North China Electric Power University Beijing China
Peng Qin: School of Electrical and Electronic Engineering North China Electric Power University Beijing China
Zhenyu Zhou: School of Electrical and Electronic Engineering North China Electric Power University Beijing China
Lei Zhang: Shandong Electric Power Research Institute of the State Grid Corporation of China Jinan China
Suhong Chen: Shandong Electric Power Research Institute of the State Grid Corporation of China Jinan China

DOI: https://doi.org/10.1049/cmu2.12281
Journal volume & issue: Vol. 15, no. 19
pp. 2425 – 2438

Abstract

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Abstract In this work, an artificial neural network (ANN) based time‐varying channel modeling framework is proposed, including a playback model and a prediction model. The purpose of the ANN‐based modeling framework is to playback 5G measured radio channels at certain measurement positions, and further predict large scale channel parameters (LSCPs) at unmeasured positions with limited amount of measurement data. 28 GHz channel measurements were also conducted at a high‐voltage substation for the first time worldwide to meet with 5G radio system deployment for China Energy Internet. Meanwhile, the performance of the playback channels is evaluated by comparison with the measurements and traditional geometry based stochastic modeling (GBSM) simulated channels. An optimized radial basis function (ORBF) ANN is applied in the prediction model, and the predicted LSCPs are compared with the other approaches, which shows that the ORBF has the best performance. This work offers a solution to predict radio channels and parameters in case of big measured or simulated channel datasets.

Published in IET Communications

ISSN: 1751-8628 (Print); 1751-8636 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Telecommunication
Website: https://ietresearch.onlinelibrary.wiley.com/journal/17518636

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