the 
the 
| the 
er ef 
sen 
. for 
ove 
IEE’S 
and 
Vset 
veen 
turn 
best 
(ters 
this 
best 
than 
ntial 
nent 
ible, 
1 ob- 
1clu- 
sults 
DG 
ge if 
Ising 
ibra- 
aron 
d for 
cipal 
  
  
er of 
ight, 
Ore). 
International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part Bl. Istanbul 2004 
  
point and boresight parameters could be accurately determined 
with blocks consisting of a single bi-directional flight line and 
no GCPs. With the I-block the determination of some image 
deformation parameters was not possible, so in accurate 
applications the use of the cross-shaped block is recommended. 
These results prove theoretical results of Honkavaara (2003). 
Single GCP improves the reliability, but does not enable 
accurate determination of the principal distance or datum in the 
single scale calibration. In accurate applications about 10 
GCPs are preferable, as suggested by Honkavaara (2003). Even 
a single GCP is advantageous, if the unknowns to be estimated 
are significantly larger than the obtainable standard deviations. 
The standard deviations of the unknowns have been 
extensively used as quality indicators in this study. As well 
known, there are many limitations for the utilisation of these 
numbers (systematic errors, improper weighting, ignored 
correlations etc.), and they cannot be used as a sole quality 
indicator. It is recommendable to collect standard deviation 
data systematically, because this is valuable information for the 
quality control procedures. 
6. CONCLUSIONS 
In this article results of analysis of 10 calibration blocks of sca- 
les 1:8000 and 1:16000 were given. The block structures were 
a comprehensive block consisting of 8 flight lines and having 
12 GCPs, a single bi-directional flight line having one double 
GCP and a single bi-directional flight line without GCPs. 
Calibrations were made in single scales. 
The most significant calibration parameters were interior ori- 
entations and boresight. Also most of the physical and Ebner’s 
mathematical deformation parameters were significant. Tests 
are still needed to conclude whether or not these additional 
image deformation parameters improve significantly the quality 
of DG; with the examined optics it appeared that rather the 
quality of the orientation observations was the bottleneck. 
These results do not verify what are the best additional para- 
meters to be used. Interior orientation parameters have a clear 
physical meaning, thus their use is well founded. Full sets of 
radial and tangential distortion parameters are difficult because 
they correlate with other parameters. It is important, that the 
treatment of the deformation parameters and the analysis of the 
correlations and accuracy are efficiently implemented to the 
commercial block adjustment software. 
Principal point and boresight parameters could be determined 
accurately enough with a block having a single bi-directional 
flight line and no GCPs. The use of one double GCP was 
advantageous only if >20 cm datum corrections or >20 um 
principal distance corrections were necessary. 
REFERENCES 
Baron, A., W. Kornus, J. Talaya, 2003. ICC Experiences on 
Inertial/GPS Sensor Orientation. In: Proc. of Workshop: 
Theory, Technology and Realities of Inertial/GPS/Sensor Ori- 
entation, ISPRS WG I/5, Barcelona 2003, on CD-ROM, 5 p. 
171 
Brown, D.C. 1976. The Bundle Adjustment — Progress and 
Prospects- International Archive of Photogrammetry, Com. III, 
Helsinki, Finland. 
Burman, H, 2000. Calibration and Orientation of Airborne 
Image and Laser Scanner Data Using GPS and INS. 
Dissertation, Kungl Tekniska Hogskolan. 
Cramer, M, 2001. Performance of GPS/Inertial Solutions in 
Photogrammetry. In: Fritsch/Spiller (eds.): Photogrammetric 
Week ‘01, Wichmann Verlag, Heidelberg, Germany, p. 29-62. 
Cramer, M, Stallman, D., 2002. System Calibration for Direct 
Georeferencing. In: International Archives of the 
Photogrammetry, Remote Sensing and Spatial Information 
Sciences. Vol. 34, Part 3A. pp. 79-84. 
Ebner, H., 1976. Self Calibrating Block Adjustment. In: 
International Archives of Photogrammetry, Vol. 21, Comm IIL 
Fraser, C., 1997. Digital Camera Self-calibration. ISPRS 
Journal of Photogrammetry and Demote Sensing. 1997; 52(4): 
149-159. 
Honkavaara, E., llves, R., Jaakkola, J., 2003. Practical Results 
of GPS/IMU/camera System Calibration. In: Proc. of 
Workshop: Theory, Technology and Realities of Inertial/GPS/ 
Sensor Orientation, ISPRS WG I/5, Barcelona, CD-ROM, 10 p. 
Honkavaara, E., 2003. Calibration Field Structures for 
GPS/IMU/Camera-system Calibration. The Photogrammetric 
Journal of Finland, Vol. 18, No. 2, pp.3-15. 
Jacobsen, K., 1982. Attempt at Obtaining the Best Possible 
Accuracy in Bundle Block Adjustment. Phtogrammetria, 
37(1982) 219-235. 
Jacobsen, K. 2003. Issues and Method for In-Flight and On- 
Orbit Calibration, Workshop on Radiometric and Geometric 
Calibration, Gulfport, 2003, 11 p. 
Kilpelä, E., 1981. Compnensation of Systematic Errors of Ima- 
ge and Model Coordinates. Photogrammetria, 37(1981) 15-44. 
Schroth, R., 2003. Direct Georeferencing in Practical 
Applications. In: Proceedings of Workshop: Theory, 
Technology and Realities of Inertial/GPS/Sensor Orientation, 
ISPRS WG 1/5, Barcelona 2003, on CD-ROM, 5 p. 
Tempelmann, U., Hinsken, L., Recke, U., 2003. ADS40 Calib- 
ration & Verification Process. In: Proc. of Workshop: Theory, 
Technology and Realities of Inertial/GPS/Sensor Orientation, 
ISPRS WG 1/5, Barcelona 2003, on CD-ROM, 6 p. 
Wegmann, H., 2002. Image Orientation by Combined (A)AT 
with GPS and IMU. In: Proceedings of ISPRS Commission I 
Mid-term Symposium, Nov. 2002, Denver, Colorado, USA. 
ACKNOWLEDGEMENTS 
I am grateful to Risto Ilves and Juha Vilhomaa from the Natio- 
nal Land Survey of Finland for providing me extensive data for 
the empirical investigation. I also thank Eero Ahokas from the 
FGI for carefully building and maintaining the calibration 
fields that were used in this study. 
  
  
  
  
  
| 
i 
i 
|