Vladimir Kurkin, N. Ilyin, M. Penzin, S. Ponomarchuk, Vitaliy Khakhinov
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引用次数: 0
摘要
我们提出了一种基于波导法的改进型高频无线电信道建模方法。波导法将地球-电离层波导内的辐射电磁场表示为一个径向边界问题的特征函数序列,其中地球表面为阻抗条件,无穷远处为辐射条件。无线电信道的传递函数表示为角度操作格林函数、激励系数和接收单个法向模态系数的一系列乘积。我们获得了确定径向算子特征函数和特征值的边界值问题的解决方案。该解决方案可应用于电离层 F 层临界频率以下的频率范围。我们研究了通过分析和数值总结强阻尼法向模态序列来计算信号的距离-频率、频率-方波和振幅特性的算法。
We present a modified method of HF radio channel modeling based on a waveguide approach. The waveguide approach represents the electromagnetic field of radiation inside the Earth—ionosphere waveguide as an eigenfunction series of a radial boundary problem with impedance conditions on the Earth surface and radiation conditions at infinity. The transfer function of the radio channel is represented as a series of products of angular-operator Green functions, excitation coefficients, and coefficients for receiving individual normal modes. We have obtained a solution of the boundary value problem of determining the eigenfunctions and eigenvalues of the radial operator. The solution can be applied to the frequency range below the ionospheric F-layer critical frequency. We examine algorithms for calculating distance-frequency, frequency-angular, and amplitude characteristics of signals by analyzing and numerically summarizing the series in terms of strongly damped normal modes.
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