The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences. Vol. XXXVII. Part B7. Beijing 2008
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2.1 Study site
The study site was selected in the periphery of Lake
Imja which is known as one of the most dangerous
glacial lakes in the world due to its rapid expansion and
huge amount of water storage capacity (Figure 1).
The majority of the supraglacial lakes that was formed
in the 1960s recently became moraine-dammed lakes
because of the glacier retreat. An example of those
lakes is Lake Imja and has been identified as a potential
threat to the Himalayans region. The lake was formed
within moraines and rapidly stretching towards the
glacier snout. The end moraine in Lake Imja measures
600m wide and has a massive dead ice core which is
frequently exposed. Rapid melting of the debris-covered
ice and significant changes in this outlet position has
been reported (Watanabe et al., 1994 and 1995).
Figure 1. Lake Imja study site, ALOS/AVNIR-2 image,
22 Oct 08.
2.2 Utilized Data
The study was carried out utilizing a pair TerraSAR-X
images (Table 1, Figure 2 & 3). The interval to obtain
the pairs of images was set at 11 days (the shortest
inverval of satellite revisit) to achieve good quality of
DEMs. Two different images were acquired at HS and
SM for comparing different spatial resolutions. SRTM
90m DEM data was utilized as reference DEM in this
study which was generated through C-band single-pass
interferometry. The accuracy of this DEM is about
16m (vertical) (E. Rodriguez et al).
Mode
Date
Direction
Incident
angle
Polarization
SM
2008/3/24
ascending
35.36
VV
SM
2008/4/4
ascending
35.36
W
HS
2008/3/18
decending
39.39
VV
HS
2008/3/29
decending
39.39
VV
Table 1 TerraSAR-X data acquisition dates.
Figure 3. Lake Imja, TerraSAR-X image, SM, 04 Apr 08.
2.3 InSAR processing
The technique of SAR interferometry is widely
practiced to produce the map of the topography or
ground deformation. InSAR for the space-borne SAR is
conducted by repeat-pass interferogram. In the repeat-
pass mode, the orbit accuracy depends on the quality of
DEMs. The orbit of TerraSAR-X is in a ±250 m tube
with respect to a reference orbit (Eineder et al, 2003)
and the orbit distance is shorter and hence a good DEM
quality is expected. InSAR processing was conducted
by SARscape® software in this study
(http://www. sarmap. ch/).
3. RESULS AND DISCUSSIONS
We conducted the qualitative accuracy of the DEMs
generated by the TerraSAR-X images and compared
them with the SRTM data (Figure 4, 6 and 8). Coherent
images shown in Figures 5 and 7, indicated the
influence on the quality of the DEMs (SARScape®,
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