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[DGA12] A New Theoretical Approach of Wavelet-Based Multifractal Characterization of HF Channel Scattering Function: Theoretical and Physical Interpretations
Revue Internationale avec comité de lecture : Journal IEEE Trans. on Geoscience and Remote Sensing, vol. 50(5), pp. 1736-1747 , 2012, (doi:10.1109/TGRS.2011.2169801 )Mots clés: Fractal , ionosphere , irregularities , multifractal , scattering function
Résumé:
In high-frequency (HF) ionospheric communications, the dynamic nature of the high-latitude ionosphere creates small-scale ionospheric irregularities capable of scattering HF radio waves. In addition, there are large-scale irregularities which may be identified using some specific methods. However, small-scale irregularities cannot be easily identified and characterized. The aim of this paper is to introduce a new wavelet-based multifractal dimension mapping approach for the identification and the quantification of the small-scale irregularities. Numerical results show the improvement of the proposed methods compared to those obtained by the classical Legendre multifractal analysis. In our analysis, we have used the scattering function as a tool for the HF channel characterization. Our analysis deals with experimental scattering functions measured during the solar eclipse on August 11, 1999.
Equipe:
laetitia
Collaboration:
CNAM Paris
BibTeX
| @article { | |||
| DGA12, | |||
| title | = | "{A New Theoretical Approach of Wavelet-Based Multifractal Characterization of HF Channel Scattering Function: Theoretical and Physical Interpretations }", | |
| author | = | "A. Dziri and C. GOUTELARD and A. ABDAOUI and H. VU THIEN", | |
| journal | = | "IEEE Trans. on Geoscience and Remote Sensing", | |
| year | = | 2012, | |
| volume | = | 50, | |
| number | = | 5, | |
| pages | = | "1736-1747 ", | |
| doi | = | "10.1109/TGRS.2011.2169801 ", | |
| } | |||
