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Ingegneria Sismica

Ingegneria Sismica

Frequency response characteristics and optimization design method of high-frequency power lines for transmitting electric wave signals

Author(s): Yunzhe Liu1
1School of Earth and Space Science and Technology, Wuhan University, Wuhan, Hubei, 430000, China
Liu, Yunzhe. “Frequency response characteristics and optimization design method of high-frequency power lines for transmitting electric wave signals.” Ingegneria Sismica Volume 43 Issue 1: 1-15, doi:10.65102/is2026123.

Abstract

There are two kinds of fading models for large and small scale fading in the propagation process of electromagnetic waves, and this paper analyzes the root-mean-square delay expansion and Les K factor of two kinds of small scale fading characteristics under line-of-sight and non-line-of-sight scenarios channels by combining the statistical method with the fitting. A channel model library is established, and multiple large-scale fading models are used to compare the residual sum of squares and the goodness of fit to analyze the large-scale fading characteristics in HF signal transmission. Combined with the performance of the characteristics existing in HF signal transmission, we propose a wireless channel multipath identification algorithm based on D-S evidence theory, analyze the algorithm operation flow, and test the algorithm for multi-channel scene identification. The CDF of the rms delay extensions under the line-of-sight and non-line-of-sight scene channels can be fitted well with shape parameters of 0.727 and 0.272 and scale parameters of 655.33 and 1173.83, respectively. The CDFs of the Rice K factors for the 2 scenarios fit the normal distribution well, with standard deviations less than 3 dB. The wireless channel multipath identification algorithm based on D-S evidence theory can improve the wireless signal transmission identification and optimize the frequency response of wireless signal transmission.

Keywords
HF signal transmission; small-scale fading; large-scale fading; D-S evidence; root-mean-square delay expansion; les k factor; wireless channel identification

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