produced, the ICPs are measured within this image and 
compared with the reference. Then the resulting residuals 
serve as a measure for the desired geometrical accuracy. 
3.3 Practical results 
Several tests using MOMS-02 imagery regarding the 
dependency on different test sites, different numbers of 
GCPs, different pixel measurement techniques as well as 
different transformation models have been conducted. The 
used data sets of Dubai (U.A.E.), Harare (Zimbabwe) and 
Pasajes (Bolivia) show various drawbacks so that each 
aspect has to be handled separetely without the possibility 
for an absolute comparison. 
3.3.1 Test sites: Examinations on different test sites 
even in one single datatake can lead to inhomogenious 
results due to varying image or topography contrast, differ- 
ent target qualities (e.g., road crossings vs. hill tops), 
changed weather conditions or unequally accurate refer- 
ence material. Table 2 compares three sub-scenes over 
Dubai whereby the object coordinates of the GCPs have 
always been taken from the same source. There is a conti- 
nous decrease in accuracy from sub-scene A ("City Cen- 
tre": good contrast, narrow road crossings as targets, 
stereo impression possible) over B ("Al Jumayrah": low 
contrast due to sensor problems, road-crossings) towards 
  
  
  
  
  
  
  
  
  
  
  
  
  
: Result: ICP-residual 
Variable: o's 
No. of GCPs 
Sx Sy sz 
24 3.7m | 39m ! 47m 
15 4.3m 3.5m 4.2m 
7 38m | 34m | 40m 
4 40m | 36m | 47m 
Constants: Test site = Dubai-A / Reference = 1 : 10 000 / Pixel sizes = 
4.5 m & 13.5 m / No. of ICPs = 26 / Measurement = stereo / Transfor- 
mation = collinearity. 
  
  
Table 3: Influence of different numbers of GCPs 
3.3.3 Pixel measurement techniques: Due to the along- 
track stereoscopic capabilites MOMS-02 data are suitable 
for deriving three-dimensional object information. Table 4 
shows that there is a significant increase in accuracy - 
especially in the vertical component - if the incoming 
image coordinates are measured in stereoscopic rather 
than in monoscopic mode because the pointing accuracy 
is improved. 
  
Result: ICP-residuals 
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
C (“Bida Saif”: very low contrast, only some very wide road Variable: 
crossings). Measurement 
sx sy sz 
: Result: ICP-residuals Mono 4.6 m 44m 10.9 m 
Variable: 
Test site 
eX sy sz Stereo 4.2m 3.6m 45m 
Constants: Test site = Dubai-A / Pixel sizes = 4.5 & 13.5 m/ Reference = 
A: Best contrast & targets 3.3m | 46m 6.1m 1:10 000 / No. of GCPs (ICPs) = 25 (30) / Transformation = collinearity 
B: Weak contrast 39m | 53m 7.5m Table 4: Influence of different measurement techniques 
C: Poor contrast & targets | 100m | 7.6m | 13.4 m Applying an interactive stereo measurement on-screen it 
  
  
  
  
  
Constants: Pixel sizes = 4.5m & 13.5 m/ No. of GCPs (ICPs) =7 (7) / 
Measurement = stereo / Transformation = collinearity / Reference = 1 : 
10 000 
  
  
  
Table 2: Influence of different test sites 
Comparing the test sites Dubai and Harare - both having 
good image contrast - by using polynomial transformations 
based on the same number of GCPs and ICPs yields dif- 
ferences in the planimetric residuals in the order of 0.5 to 
1.0 m in favour of the Dubai data set. This leads to the 
conclusion that the reference material of Dubai (not gener- 
alized orthoimage maps at 1 : 10 000) is superior to that of 
Harare (combination of line maps at 1 : 5 000 and 1 : 25 
000). 
3.3.2 Number of GCPs: The number of used GCPs 
affects the reliability of the adjustment process. Experi- 
ences with MOMS-02 imagery show that about 10 points 
per scene is a sufficient measure. As table 3 indicates, 
also the minimum number of 4 points for the specific trans- 
formation model (Jacobsen, 1994) will yield acceptable 
results if well known and measured points are used. 
744 
has been found that although a multi-resolution combina- 
tion of the HR-channel and the three-times enlarged chan- 
nel FW (or BW) decreases the base-to-height-ratio by 
factor 2, at the same time the pointing accuracy is impro- 
ved - theoretically by factor 3 - due to the use of high reso- 
lution data. In fact, the human eyes are so flexible that they 
neglect blurring effects coming from the low-resolution 
image. 
Measurements within the Pasajes data set confirm these 
experiences whereby now due to the lack of appropriate 
absolute reference material the standard deviation of the 
relative orientation (sg) of the corresponding stereo part- 
ners serves as the accuracy measure (table 5). This value 
is based upon an overdetermination of measured conju- 
gate points and is transformed from pixel into correspon- 
ding ground values. Both the multi-resolution and the 
single-resolution approaches show nearly the same rela- 
tive accuracy of about 0.9 pixel which gives evidence 
about the same relative pointing accuracy. With that the 
absolute accuracy can be improved by factor 3 if the multi- 
resolution method with the HR-channel is used. - From 
table 5 one can also conclude that the image quality of the 
International Archives of Photogrammetry and Remote Sensing. Vol. XXXI, Part B4. Vienna 1996