BEE
vedge
ed filter)
Fig. 14: 1:1 window of Fig. 13
5. SUMMARY
The paper summarises some first results of a quality
investigation of the new Kodak DCS Pro Back 645M mounted
to a modified Mamiya body. Two useful focal lengths (35mm
and 24mm) are available for this camera. The camera can also
be operated by standard medium-format film material.
The geometric accuracy has almost proven the expected level
of 1:200000 of inner accuracy. With the performed standard
testfield calibration the accuracy is increased compared to usual
cameras such as Kodak DCS 460 or Fuji FinePix S1. Due to
mechanical instability of the mounting interface between
camera body and sensor back, standard bundle adjustment
programs fail if no image-variant interior orientation is
introduced. The extended camera model based on image variant
shift of the perspective centre and a finite element sensor
correction grid leads to sufficient adjustment results. The
exterior accuracy verified by calibrated reference scale bars is
still not sufficient. Further investigations have to be carried out
in this respect.
The radiometric quality of the camera is surprisingly good. The
internal camera software provides a number of different
exposure programs and image enhancements that result in
excellent color images with high resolution. The built-in
infrared filter should not be dismounted since it would result in
color errors and limited radiometric resolution.
+47
Although this report can only present very first results it looks
as if this camera/sensor unit is a powerful device for industrial
photogrammetry, but for architectural purposes too. The recent
costs of approximately 20.000 Euro depict a good price-
performance ratio.
6. REFERENCES
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Hastedt, H., Luhmann, T., Tecklenburg, W., 2002. Image-
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ISO/IEC 15775, 1999. Information technology - Office
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colour copying machines by analog test charts - Realisation
and application. International ^ Organisation for
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Kodak, 2002. Kodak DCS Pro Back. http://www.kodak.com
Luhmann, T., Wendt, K., 2000. Recommendations for an
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Peipe, J., 1995. Photogrammetric performance evaluation of
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Peipe, J., 1997. Photogrammetric performance evaluation of a
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