373
of the ERS-1 system including the processors. (-) in Table 1 means that the target has not been
imaged on that particular orbit, (*) means that the plates of the reflector were snow-covered. On
March 8 only three and on November 24 only two of the six reflectors have been cleared from snow.
Snow on the plates reduces the RCS by up to 20dB.
With the exception of orbit 11833 all RCS values of the different reflectors are in good
agreement with each other (min-max variation is less than ldB) and also with the theoretical value.
The average value tends to slightly higher radar cross sections them the theoretical one. That
consequently means that ESA’s calibration factor is too low by a few tenth of a dB. Detailed analysis
indicates differences of data processed by the UK and German PAF. This offset in the calibration
of data from different PAFs and the lower RCS values from orbit 11833 are under investigation.
Date
Orbit
CR 1
CR 2
CR 3
CR 4
CR 5
CR 6
13-01-93
7825
51.1
50.1
50.6
50.8
50.7
50.6
01-02-93
8097
50.5
50.0
50.9
50.7
50.7
50.6
17-02-93
8326
-
-
47.1*
47.6*
-
44.8*
08-03-93
8598
50.2
50.3
46.9*
45.2*
34.9*
49.8
12-04-93
9099
50.6
50.5
50.4
50.5
50.4
50.6
28-04-93
9328
50.9
50.7
50.8
50.8
50.7
50.7
17-05-93
9600
49.8
50.0
50.0
50.0
50.0
50.0
02-06-93
9829
50.9
50.2
50.6
50.9
50.7
50.7
21-06-93
10101
50.0
50.3
50.1
49.8
49.9
50.2
07-07-93
10330
-
-
50.3
50.2
-
50.5
26-07-93
10602
50.9
50.8
50.4
50.6
50.5
50.5
11-08-93
10831
-
-
50.5
50.1
-
50.3
30-08-93
11103
50.0
49.9
50.0
50.0
50.0
50.0
15-09-93
11332
-
-
50.5
50.6
-
50.3
04-10-93
11604
50.0
50.0
49.8
49.8
50.1
50.2
20-10-93
11833
-
-
47.3
47.5
-
47.5
20-10-93
11840
51.0
50.8
51.0
50.6
51.3
50.9
08-11-93
12105
50.3
50.6
50.6
50.6
50.5
50.4
24-11-93
12334
-
-
50.3
50.5
-
44.3*
Table 1: RCS values of 3m corner reflectors measured by ERS-1.
For future multichannel and multisensor remote sensing systems (e.g. SIR-C/X-SAR) it is
desirable to be able to cross-calibrate data from different tracks and different sensors (channels). The
1989 calibration campaign at the DLR test site in Oberpfaffenhofen [1] gave an opportunity for such
an experiment, including a cross-calibration of the E-SAR and AIRSAR. Statements concerning the
quality of cross-sensor calibration can be derived from the variation of the average backscattering
coefficient in range direction. In order to achieve coincidence, the average a° values (derived from
data of the same track) in Fig. 7 are plotted against the corresponding ground range position.
The reference point is the position of a prototype PARC which was tested in that experiment.
Both systems measured nearly the same backscatter except for near and far range. This is most
probably due to the differences in incidence angles resulting from different flight altitudes of the
two airplanes. An alternative explanation for the increased E-SAR values in this range could be
the changed weather conditions: fight rain in the morning during the E-SAR flights, warm and
sunny in the afternoon during the DC-8 flights. This indication is strengthened by the fact that
the middle part in the cross-track direction is dominated by man-made structures and urban areas
(DLR buildings and the village of Gilching) where the backscatter might be considered less sensitive
to moisture. In these areas the measured backscatter is more nearly coincident.
