Title :
The use of a helicopter mounted ranging scatterometer for estimation of extinction and scattering properties of forest canopies. II. Experimental results for high-density aspen
Author :
Pitts, DAVID E. ; Badhwar, GAUTAM D. ; Reyna, EDDIE
Author_Institution :
NASA Johnson Space Center, Houston, TX, USA
fDate :
3/1/1988 12:00:00 AM
Abstract :
For pt.I see ibid., vol.26, no.2, p.140-3 (1988). An analytic expression is derived that describes the backscatter power from a semi-infinite plane parallel homogeneous canopy as a function of distance from an airborne radar. This model is fitted to observed data for a high-density aspen canopy by a modification of a technique developed by A.A. Tyapkin (1960). This inversion of the model provides unbiased estimates of the canopy extinction and backscattering parameters. An active radar calibrator located underneath the canopy provides an independent method of determining the volume extinction coefficient. The results reported indicate that the coefficients change throughout the year. A comparison of these coefficients with H.J. Eom and A.K. Funk´s (1984) disk model, using measured canopy properties, shows that at C-band frequency, only a part of the scattering and absorption can be attributed to the canopy leaves
Keywords :
geophysical techniques; radar applications; remote sensing; C-band; airborne; airborne radar; aspen; backscatter power; estimation; extinction; forest canopies; helicopter mounted ranging scatterometer; leaf reflection; measurement; microwave; radar; remote sensing; scattering properties; semi-infinite plane parallel homogeneous canopy; technique; tree; vegetation; Attenuation measurement; Frequency estimation; Helicopters; Optical scattering; Radar measurements; Radar scattering; Remote sensing; Spaceborne radar; Surface morphology; Vegetation mapping;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
