bul 2004
; case the
| an inner
6 control
(Xf control
projective
phs were
1e control
aphs was
re 9B/F).
9A) was
X camera
ct-camera
ering the
shot from
photo had
he belfry.
corrected
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the outer
ile hoist,
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ons) were
lel to the
Is (Canon
ed. So, in
itions and
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arches the
on added
nd, these
) of the
International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B5. Istanbul 2004
A B
Figure 10. A: Image rectified mosaic of outer east walls and belfry. B: Image rectified mosaic of outer north walls and belfry
Figure 11 shows a selection of highly oblique photographs the right pillar was covered by convergent photographs. In
employed in the bundle adjustment to solve the upper section the left part of the mosaic the deformation of walls and arch
of the rear arches. Workplace limitations made extremely is noticeable. Thus this arch is leaning toward the chapel.
complicate the measurement of control points due to
excessively inclination of sight. So, most part of control In both Figures 12 and 13 images of the nave walls have been
points was by means of photogrammetric network added in the background only for visualization.
densification. The rectified images mosaic of the rear arches
is illustrated in Figure 12.
X
Figure 11. Photographs upper part of rear arches in the nave.
Camera Canon D30 and 35 mm lens.
Figure 13 shows the front side of the arches. In this case uk - imu =
stereopairs with the Canon D30 and 20 mm lens helped with Figure 13. Images rectified mosaic of front arches in the nave
the stereoscopic bar (Figure 5) were taken. Because
limitations at the right side impeded the use of stereopairs,
