International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B1. Istanbul 2004 
  
  
  
ID Camera JOP ae Num be ji 6, (mmn) Similar 
1 Nikon288616 Set 1 Set 2 0.00618 No 
2 Nikon288894 Set 1 Set 2 0.00475 
3 Nikon288895 Set 1 Set 2 0.00311 
4 Nikon288896 Set 1 Set 2 0.01603 
  
  
  
  
Table 7 — Stability Comparison of IOP sets for Nikon cameras 
(Note: If co « 0.0021, IOP sets considered similar) 
As mentioned earlier, the ROT method is used to evaluate the 
similarity between the IOP sets. However, if the SPR method is 
used, the results differ depending on the type of terrain chosen. 
A comparison was done between a flat and hilly terrain using 
just the SPR method for the Nikon288616 camera. Two extreme 
object space configurations were used. The first object space 
represented a hilly terrain with a height variation of + 800 m. 
The second object space represented a flat terrain with a height 
variation of £ 0 m. For the hilly terrain, the spatial offset 
standard deviation was 0.00619 mm, which is close to that 
estimated by the ROT method (0.00618 mm). These standard 
deviation values are similar because a hilly terrain would 
decouple any correlation between the IOP and EOP, thus 
yielding a reliable evaluation of the degree of similarity 
between the reconstructed bundles. On the other hand, using a 
flat terrain, the standard deviation of the spatial offset from the 
SPR procedure turned out to be 0.000087 mm (approximately 
0.03 pixels), which indicates a good fit between the two bundles 
at a flat object space. However, this is a very optimistic and 
deceiving conclusion. In such a case, a flat terrain would lead to 
high correlation between the IOP and EOP. Therefore, although 
the two bundles are significantly different from each other, the 
EOP will adapt to absorb the differences between the two IOP 
sets to produce a good fit at the object space. 
6. CONCLUSION AND RECOMMENDATIONS 
The presented research outlined an efficient approach for 
calibration, and a meaningful measure for evaluating stability of 
off-the-shelf digital cameras. For calibration, an easy-to- 
establish test field consisting of straight line features and 
signalized points were used. Deviations from straightness in 
image space straight lines were attributed to various distortion 
parameters that were modelled using collinearity equations. 
The two methods of evaluating camera stability, which 
quantitatively determined the degree of similarity between 
reconstructed bundles using two sets of IOP, were introduced. 
The ROT method is a comparison confined to the image space 
where the quality of the coincidence between conjugate light 
rays within two reconstructed bundles sharing the same 
perspective center is determined. The two bundles are allowed 
to rotate relative to each other until the best coincidence is 
achieved. The SPR method allows for spatial and rotational 
offsets between the two bundles while observing their quality of 
fit at a given object space. For both methods, the similarity 
measure was characterized by the standard deviation of the 
spatial offset between the two bundles. If the standard deviation 
was within the image coordinate measurement accuracy range 
(V4 to % pixel size) of the implemented camera, then the two 
[OP sets were considered similar. 
There were nine amateur and professional digital cameras tested 
in the experiments. Each type of camera had different 
characteristics and resolutions. The experimental analysis of the 
cameras revealed that the IOP remained stable over the eight- 
month period. The only exception was the stability of the Nikon 
cameras. The Nikons were just turned off and on between 
dataset acquisitions and this altered the IOP. 
It should be noted that the calibration technique and stability 
measures described in this paper are general enough that they 
can be applied to digital as well as analogue cameras intended 
for mapping applications. The proposed stability measures 
would allow amateur users of digital cameras to evaluate their 
IOP and stability. A possible future initiative could be directed 
towards finding a way to compare more than two sets of IOP at 
one time. Current research will test additional new cameras and 
continue to focus on their short and long-term stability. 
ACKNOWLEDGEMENT 
This research work has been conducted under the auspices of 
the GEOIDE Research Network through its financial support of 
the project (ACQZHAB: SIACQO5). The authors would also 
like to acknowledge Mr. Paul Mrstik from Mosaic Mapping 
Systems Inc. for his help in establishing the calibration test field 
and providing some of the cameras used to analyze stability. 
7. REFERENCES 
Brüuer-Burchardt, C., and K. Voss, 2001. A new algorithm to 
correct fish-eye and strong wide-angle-lens-distortion from 
single images, Proceedings of the 2001 International 
Conference on Image Processing, October 7-10, 2001, 
Thessaloniki, Greece, Volume 1, pp. 225-228. 
Brown, D., 1971. Close range camera calibration, Journal of 
Photogrammetric Engineering & Remote Sensing, 37 (8): 
855-866. 
Chen, S., and W. Tsai, 1991. A systematic approach to analytic 
determination of camera parameters by line features, 
Pattern Recognition, 23(8): 859-877. 
Fraser, C., 1997. Digital camera self-calibration, ISPRS Journal 
of Photogrammetry and Remote Sensing, 52(4): 149-159. 
Fryer, J, 1996. Camera calibration. Close range 
Photogrammetry and machine vision, (K.B. Atkinson, 
editor), Whittles Publishing, Caithness, Scotland, pp. 156- 
180. 
Guogqing, Z., U. Ethrog, F. Wenhao, and Y. Baozong, 1998. 
CCD camera calibration based on natural landmarks, 
Pattern Recognition, 31(11): 1715-1724. 
Habib, A., M. Morgan, and Y. Lee, 2002-a. Bundle Adjustment 
with Self-Calibration using Straight Lines, Journal of 
Photogrammetric Record, 17(100): 635-650. 
Habib, A., S. Shin, and M. Morgan, 2002-b. New Approach for 
Calibrating Off-The-Shelf Digital Cameras, ISPRS 
Symposium of PCV'02 Photogrammetric Computer 
Vision, Graz, Austria, 9-13 September, Unpaginated CD 
Rom. 
Habib, A., M. Morgan, 2004. Stability Analysis and Geometric 
Calibration of off-the-shelf digital cameras, Accepted for 
publication in the Journal of Photogrammetric Engineering 
& Remote Sensing. 
  
  
  
  
    
   
   
     
   
   
  
    
   
  
   
   
   
    
   
   
  
  
  
  
  
   
   
  
   
  
  
   
  
  
  
   
   
   
  
  
  
  
  
  
  
  
   
  
  
   
   
  
   
  
  
  
  
  
  
   
   
  
   
   
  
   
  
    
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