Seasonal comparison of HUTSCAT ranging scatterometer and ERS-1 SAR microwave signatures of boreal forest zone | IEEE Journals & Magazine | IEEE Xplore

Seasonal comparison of HUTSCAT ranging scatterometer and ERS-1 SAR microwave signatures of boreal forest zone


Abstract:

A set of ERS-1 SAR images along with airborne non-imaging ranging scatterometer (HUTSCAT) measurements and in situ surveys has been obtained from the Sodankyla test site ...Show More

Abstract:

A set of ERS-1 SAR images along with airborne non-imaging ranging scatterometer (HUTSCAT) measurements and in situ surveys has been obtained from the Sodankyla test site (center latitude=67.41/spl deg/N, center longitude=26.58/spl deg/E) in Northern Finland. A total of five measurement campaigns were organized during 1991-1993. Nineteen test lines have been selected from the test site to represent different land-use categories. The land-use in the test area consists of open areas (agricultural fields, bogs, and clear-cut areas) and sparsely forested areas (mires, pine, and mixed forests). Microwave signatures representing the test lines have been extracted from ERS-1 SAR images and HUTSCAT measurements. The behavior of these signatures has been compared with each other and with their boreal forest semiempirical backscattering model. A set of extensive field measurements (snow depth, density, wetness, coverage, and snow water equivalent) made on the test lines are used in the various analyzes. The results indicate that the behavior of ERS-1 SAR microwave signatures is similar to that of HUTSCAT even in the presence of forest canopies. Also, the deviations of microwave signatures for various land-use classes behave similarly. This allows the authors to use the boreal forest semiempirical backscattering model based on HUTSCAT data to divide the ERS-1 backscattering signal into two contributions: 1) backscattering contribution from the top layer of vegetation canopy and 2) backscattering contribution from the canopy, ground, and ground-canopy reflections. By using the boreal forest semiempirical model, the behavior of these contributions is also observed in various soil conditions. These results explain some aspects of the boreal forest backscattering mechanism in the presence of snow cover and wet soil, which have not been experimentally investigated before.
Published in: IEEE Transactions on Geoscience and Remote Sensing ( Volume: 37, Issue: 4, July 1999)
Page(s): 2068 - 2079
Date of Publication: 06 August 2002

ISSN Information:


References

References is not available for this document.