Математическое моделирование девиаций частоты декаметрового радиосигнала в искусственно-возмущенной ионосфере

The mathematical modeling of statistical Doppler decameter radio signal characteristics in the ionosphere with dielectric constant artificial perturbation by approximation of geometric optics and the small parameter method has performed. Nonstationarity natural ionosphere has given a nonlinear critical frequency function of the F2 layer in time. Chaotic motion of artificial random inhomogeneities under the hypothesis of frozen turbulence transfer has performed. Regular – random models and fully turbulized cloud of artificial ionization have reviewed. Average and standard deviation of Doppler frequency numerical calculations by Pedersen and lower beams on the one-hop radio paths of different length for these models have conducted. The defining role of the signal path form and the structural features of the clouds formation by ionization frequency deviation have shown.