Title :
Terrain backscatter and oil sand exploration: Average reflectivity analysis
Author :
Ezeoke, Maurice ; Borda Fortuny, Cristina ; Tong, Kenneth
Author_Institution :
Dept. of Electron. & Electr. Eng., Univ. Coll. London, London, UK
Abstract :
A barefaced terrain scattering model for oil sand exploration will enable the discrimination of different terrain types using incoherent polarimetric decomposition. We use computer electromagnetic modeling with finite integration techniques and a network analyzer based indoor polarimetric scatterometer to determine and analyze terrain backscatter. The terrain targets vary in dielectric, physical and chemical properties so we investigated their intrinsic material effects on electromagnetic reflectivity prior to obtaining the average normalized radar cross section. We obtain a strong correlation between the models and empirical measurement for co-polar (HH and VV) polarizations at different incident geometry and frequency L-, C- and X-band.
Keywords :
network analysers; oil sands; radar polarimetry; remote sensing by radar; terrain mapping; average normalized radar cross section; barefaced terrain scattering model; chemical property; co-polar polarizations; computer electromagnetic modeling; dielectric property; electromagnetic average reflectivity analysis; empirical measurement; finite integration techniques; frequency C-band; frequency L-band; frequency X-band; incident geometry; incoherent polarimetric decomposition; indoor polarimetric scatterometer; intrinsic material effects; network analyzer; oil sand exploration; physical property; terrain types; Dielectrics; Hydrocarbons; Permittivity; Radar measurements; Scattering; Spaceborne radar; average terrain reflectivity; backscatter measurement; computer electromagnetic model; laboratory scatterometersystem; oil sand exploration;
Conference_Titel :
Radar Conference (Radar), 2014 International
DOI :
10.1109/RADAR.2014.7060258
