International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume XXXIX-B7, 2012
XXII ISPRS Congress, 25 August — 01 September 2012, Melbourne, Australia
3. ASSESMENT OF THE INTERMEDIATE DEM
3.1 Production Status
The acquisition of the first global coverage was completed by
January 2012. The following two months were used for
additional acquisitions of difficult areas. By April 2012 a total
of 135,000 RawDEMs have been prepared for calibration and
mosaicking. The remaining first year acquisitions are scheduled
to be processed by ITP and MCP Preparation until May 2012.
On basis of the available data first calibration and mosaicking
tests are currently conducted. The operational IDEM production
is planned to start in summer 2012.
By the end of March 2012 the acquisition of the second
coverage started. It will take approximately one year followed
by additional acquisitions where necessary. The final
TanDEM-X product generation will start in 2013 and will be
finished in 2014.
3.2 Validation results
Within the mosaicking the acquisitions are corrected by the
estimated offset and tilts. The absolute accuracy of the resulting
IDEM is checked against reference data like SRTM C-Band,
ICESat data, high resolution DEMs or GPS tracks. Note that the
differences are always calculated TanDEM-X - Reference data.
In order to evaluate the relative height accuracy the absolute
differences between neighboring acquisitions are computed.
The requirement for the relative accuracy refers only to random
errors (systematic errors are not considered). This means, that
90% of all differences around the mean have to be below 2m in
an area of 100km x 100km (linear 90% point-to-point error).
3.2.1 Test Site Manitoba, Canada: The first test site
consists of 8 acquisitions covering the north-western part of
Minnesota, USA and the southern part of Manitoba, Canada.
Figure 1 depicts the RawDEM outlines (red) and the resulting
1°x1° DEM tiles (black). The terrain of the test site is
moderately flat and sparely vegetated. The calculated offsets
and tilts are below 2m and 8mm/km respectively.
The Tile N49W98 - the name refers to the lower left corner -
was investigated in more detail, as it contains a GPS track with
a height accuracy of < 0.5m. The mean difference between
TanDEM-X and the GPS heights is -0.56m with a standard
deviation of 1.14m (Figure 2). The comparison to ICESat
results in a mean difference of 0.19m with a standard deviation
of 0.24m (Figure 3). Even for a DEM generated with only one
coverage these results prove full compliance with the absolute
height requirements (Table 1). Also, the difference to SRTM
shows very good results with a mean below 2m. As TanDEM-X
is more accurate, remaining SRTM errors (e.g. typical SRTM
waves) are visible in the difference image (Figure 4). The
relative height accuracy, estimated by calculating the absolute
differences between neighboring acquisitions, is well below the
required 2m (Figure 5).
Reference Mean Std.dev | LE90 # points
[m] [m] [m]
GPS -0.56 1.14 1.75 4550
ICESat 0.19 0.24 0.38 2021
SRTM 1.80 1.49 2.30 all
Neighbor 0.68 0.67 0.57 all
Table 1: Differences of IDEM tile N49W98 to reference data
(mean, standard deviation, linear 90% point-to-point error,
number of points)
46
1°x1° tiles marked black, tile N49W98 marked green
- ¥en
M
Figure 2: Difference between TanDEM-X and GPS o
amplitude mosaick, North-Eastern part of tile N49W98 - area
around Winnipeg, range of values [-3; 3]
ABDRR-ICESA1
Figure 3: Difference between TanDEM-X and ICESat on
amplitude mosaick, tile N49W98, range of values [-5; 5]
