Empirical Frequency-Dependent Wall Insertion Loss Model at 3–6 GHz for Future Internet-of-Things Applications

Empirical Frequency-Dependent Wall Insertion Loss Model at 3–6 GHz for Future Internet-of-Things Applications

A novel frequency-dependent wall insertion loss model at 3–6 GHz is proposed in this paper. The frequency-dependence of the wall insertion loss is modeled by the Fourier triangular basis neural network. A method to determine the optimal weighted vector and the number of the neurons is int...

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Bibliographic Details
Main Authors: Yang Liu, Guangjie Han, Jingpeng Liang, Rong Dai, Zheng-Quan Li
Format: Article
Language:English
Published: IEEE 2019-01-01
Series:IEEE Access
Subjects:
Wall insertion loss
neural network
3–6 GHz
internet of things (IoT)
Online Access:https://ieeexplore.ieee.org/document/8567900/
Description
Summary:A novel frequency-dependent wall insertion loss model at 3–6 GHz is proposed in this paper. The frequency-dependence of the wall insertion loss is modeled by the Fourier triangular basis neural network. A method to determine the optimal weighted vector and the number of the neurons is introduced. In addition, the impact of the wider continuous spectrum on the wall insertion loss is analyzed and extensive measurements are performed to validate the proposed model. The results obtained with the proposed model match better with the measured results than other models. The proposed model can be used in future indoor Internet-of-Things applications such as service computing.
ISSN:2169-3536

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