solved parameters are shown in Table 4. It can be seen that the 
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
standard errors of certain parameters are very big compared to [parameter estimate std. error 
the parameter values themselves. The reason for that can be that 
the chosen distortion model is too complicated for the used px 6.184062e+02 |1.125537e+00 
camera. Maybe just the parameters px, py, c, o and k; would py 4.775455e+02 |2.995073e--00 
have been enough to model the camera. ec 1.40261 1e+03 | 5.532361e+00 
parameter estimate std. error a 9.830809e-01 | 9.389204e-03 
px 6.170304e+02 |2.184800e+00 P -3.767164e-04 | 1.795160e-03 
Dy 4.835049e+02 | 1.885422e+00 kı 1.226342e-07 | 5.110449e-09 
€ 1.406630e+03 | 1.044922e+00 ks 2.153417e-14 | 1.478256e-14 
a 9.999628e-01 | 1.864703e-04 k; — |-8.917501e-20 | 1.436700e-20 
B __|-5-007041e-05| 1.789253e-04 P; |-1.115324e-06 | 3.976178e-07 
k; -3.677413e-14 | 2.514506e-14 
k; -1.857348e-20| 2.765898e-20 Table 5. Results of the first image set. 
Di 1.166692e-06 | 2.442701e-07 
p? -7.634132e-07 | 2.308410e-07 
  
  
  
  
  
Table 4. Results of the test field calibration. 
The first captured image set consisted of three horizontally 
rotated images with 50% overlap (see Figure 3). Totally 102 
corresponding image points were measured manually. The 
iterative calculation converged well and the results can be seen 
in Table 5. As can be noticed the estimated values of the 
parameters b,k,k;,p, and p; have again very large standard 
errors compared to their values. And the rest of the estimated 
values are very similar to those obtained from the test field 
calibration. 
  
Figure 3. First test image set. The distance to the building was 
20-30 meters. 
For the second test five images again with 50% overlap were 
taken (see Figure 4) and 223 image points were measured on 
them. In this case the camera was 2-3 meters away from the 
object. The solved parameters with their standard errors are 
shown in Table 6. Again the parameter values are quite close to 
those obtained earlier except py, which has shifted over twenty 
pixels. One reason for this shift can be the short distance to the 
object, which might cause a different focusing. Or then the 
small non-concentricity of the camera causes some bias to the 
results on very short distances. 
Figure 4. Second image set. The distance to the object was 2-3 
meters. 
—588- 
  
  
  
arameter 
estimate 
std. Error 
  
Dx 
6.164060e+02 
2.715294e+00 
  
PY 
4.518342e+02 
2.550095e+00 
  
1.407404e+03 
4.720895e+00 
  
1.005287e+00 
4.040044e-03 
  
1.413043e-02 
3.109527e-03 
  
1.255189e-07 
7.340497e-09 
  
-1.178755e-15 
2.964080e-14 
  
-4.838147e-20 
3.551263e-20 
  
2.032601e-07 
2.583520e-07 
  
  
  
  
  
8.416285e-07 
2.580397e-07 
  
  
Table 6. Results of the second image set. 
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REFEI 
Browi 
Photo. 
Fryer, 
Intern 
Vienn 
Hartel 
Rotati 
Olof | 
Verlag