Assessment of RISAT-1 and Radarsat-2 for Sea Ice Observation from Hybrid-Polarity Perspective
Permanent link
https://hdl.handle.net/10037/11692Date
2017-10-25Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
Utilizing several Synthetic Aperture Radar (SAR) missions will provide a data set with
higher temporal resolution. It is of great importance to understand the difference between various
available sensors and polarization modes and to consider how to homogenize the data sets for
a following combined analysis. In this study, a uniform and consistent analysis across different
SAR missions is carried out. Three pairs of overlapping hybrid- and full-polarimetric C-band
SAR scenes from the Radar Imaging Satellite-1 (RISAT-1) and Radarsat-2 satellites are used. The
overlapping Radarsat-2 and RISAT-1 scenes are taken close in time, with a relatively similar incidence
angle covering sea ice in the Fram Strait and Northeast Greenland in September 2015. The main
objective of this study is to identify the similarities and dissimilarities between a simulated and a
real hybrid-polarity (HP) SAR system. The similarities and dissimilarities between the two sensors
are evaluated using 13 HP features. The results indicate a similar separability between the sea ice
types identified within the real HP system in RISAT-1 and the simulated HP system from Radarsat-2.
The HP features that are sensitive to surface scattering and depolarization due to volume scattering
showed great potential for separating various sea ice types. A subset of features (the second parameter
in the Stokes vector, the ratio between the HP intensity coefficients, and the as angle) were affected by
the non-circularity property of the transmitted wave in the simulated HP system across all the scene
pairs. Overall, the best features, showing high separability between various sea ice types and which
are invariant to the non-circularity property of the transmitted wave, are the intensity coefficients
from the right-hand circular transmit and the linear horizontal receive channel and the right-hand
circular on both the transmit and the receive channel, and the first parameter in the Stokes vector.
Description
Source at http://dx.doi.org/10.3390/rs9111088