Title :
HF ionospheric reflection channel modeling for stochastically disturbed ionosphere
Author :
Gherm, Vadim E. ; Zernov, Nikolay N.
Author_Institution :
Inst. of Radiophys., St. Petersburg Univ., Russia
Abstract :
The paper gives a description of a two-frequency, two-time coherence function of the HF field, propagating in the fluctuating ionosphere, in the framework of a complex phase method for a smoothly inhomogeneous dispersive medium with local inhomogeneities embedded. The coherence function is calculated numerically on the basis of the analytical expression, derived by the complex phase method. The results of numerical simulation of the coherence function are presented for a concrete one-hop HF path of propagation and an inverse power law spatial spectrum of the ionospheric electron density fluctuations. General properties of the coherence function are discussed
Keywords :
HF radio propagation; coherence; dispersion (wave); electromagnetic wave diffraction; electromagnetic wave propagation; electromagnetic wave scattering; electron density; inverse problems; ionospheric disturbances; ionospheric electromagnetic wave propagation; stochastic processes; EM wave diffraction; EM wave scattering; HF ionospheric reflection channel modeling; complex phase method; fluctuating ionosphere; inverse power law spatial spectrum; ionospheric electron density fluctuations; local inhomogeneities; numerical simulation; one-hop HF path; smoothly inhomogeneous dispersive medium; stochastically disturbed ionosphere; two-frequency coherence function; two-time coherence function; Coherence; Concrete; Diffraction; Dispersion; Electrons; Hafnium; Ionosphere; Numerical simulation; Optical scattering; Reflection;
Conference_Titel :
Spread Spectrum Techniques and Applications Proceedings, 1996., IEEE 4th International Symposium on
Conference_Location :
Mainz
Print_ISBN :
0-7803-3567-8
DOI :
10.1109/ISSSTA.1996.563502
