was not measured, which makes the comparison to other 
measurements slightly biased. ( VM ) 
University of Stuttgart ( TUS ) 
The measurements on digital imagery were made using 
visual and automated methods. In the automated 
measurements, the special features were automatic 
selection of tie points, feature based matching and high 
number of tie points. A basic difference, as compared to 
other methods, is also the way tie points are used. The 
points are in small patches, which correspond to single 
points in the other methods. Very typically, the points 
were measured on only two images. 
The Zeiss PK1 measurements were made in a 
conventional way for comparison. 
TUS 1-4 Zeiss PK1 monocomparator measurements 
using analogue imagery. The cases have 
often been referred to with the name PK1. 
(VM) 
TUS5-12 Visual observations on digital images. 
(VM) 
TUS 13-16 Automatic measurements using 15 um data 
( 272 points per image ). ( AM) 
TUS 17-20 Automatic measurements using 30 um data 
( 237 points per image ). (AM) 
TUS21-24 Automatic measurements using 30 um data 
( 131 points per image ). ( AM) 
Technische Universitat Wien ( TUW ) 
The method is based on feature based matching, but, in 
this case, unlike TUS, the number of points corresponds 
to conventional cases. ( SM) 
Université Laval ( UL ) 
The measurements were made completely visually using 
Leica DVP system. The measuring resolution of 1/2 pixel 
is lower than in most systems. ( VM ) 
5. ANALYSIS OF THE RESULTS 
The analysis of accuracy is based on three methods; 
e Calculation of root mean square error values ( RMS ) 
from differences between known and adjusted check 
point coordinates. 
e Calculation of RMS values from short horizontal 
distances of neighbouring traverse points. 
e Theoretical error estimates delivered by the block 
adjustments. 
Most of the analysed cases are based on dense control 
and additional parameters. 
5.1 15 um pixel imagery 
The results with 15 um pixel size, dense control, and 
additional parameters are presented in Figure 3. 
    
352 
International Archives of Photogrammetry and Remote Sensing. Vol. XXXI, Part B3. Vienna 1996 
In plane coordinates, the RMS values, the variations of 
which are relatively small, are around 20 mm. An 
explanation for bigger values in TUM 2 is the one pixel 
measuring resolution, and in TUW 2 the low number of 
points when using feature based matching. 
80 
70 
60 
50 
mm 40 
30 
20 
10 
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Figure 3. RMS values from 15 um pixel size data, as 
well as from BC1 and PK1 measurements 
when using dense control and additional 
parameters. 
In comparison to measurements using analogue imagery, 
the best results are at the same level with the BC1 
measurements, and only slightly worse than the PK1 
results. The used block with signalised check points is 
favourable for visual methods, in general, and especially 
for monocomparator measurements. 
In a comparison between the different measurements of a 
single participant, no big differences can be found. An 
increase of measuring efforts, like in the series of FGI, 
seems to have no influence in planimetric accuracy. 
In the Z-coordinate, the variation is larger. The largest 
errors have often occurred, when using visual methods 
( FGI 2, NLSS 2, NTH 2, TUM 2, TUM 6, TUS 6 and 
UL 2 ). An exception from this is NLH 2. 
25 
  
    
  
  
    
  
     
     
  
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Estimated local coordinate errors 
calculated from short distances, when 15 
um imagery, dense control, and additional 
parameters have been used. 
The coordinate accuracies calculated from short 
distances ( Figure 4 ) show that the pointing accuracy on 
check points has varied. These values have an effect on 
values in Figure 3. 
5.2 30 pm pixel imagery 
The results from 30 um data with dense control and 
additional parameters ( Figure 5) have somehow a 
different nature than the corresponding results using 15 
um data. The variations of RMS values between different 
cases are, in general, larger, and the height-to-planimetri- 
accuracy relation is in most cases clearly smaller. 
  
     
   
    
       
   
     
     
    
     
   
    
    
    
  
   
     
    
    
    
    
     
    
   
   
    
    
      
    
    
   
    
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