tion
ints
; on
ute
wed
a
15
tes system X Y Z supplied by D.E.A. On the otherhand, the re-
sults obtained in the tests done with the absolute orientations
on the 12 points of the framework were transformed using a pro
gram of rototranslation from the co-ordinate system X Y Z to
the D.E.A. system. In this way, because the calibration had
been done with the D.E.A. equipment of the car model, the re-
sults obtained from the various tests (absolute orientations
on the 12 points of the framework, and absolute orientations
on the 6 points of the car model) could be compared to the
list of absolute co-ordinates of the points examined.
It should be noted that the number of points surveyed with
the monocomparator was about 40% less than the number surveyed
on the Stereocartograph, even though the points were chosen par
tly on the panel and partly on the car body model.
The results obtained, on the level of mean errors, are
shown in Table 1.
A short comment on the transcribed results is necessary:
as can be seen, the errors in the tests done with absolute o-
rientation using the 6 known points on the car model are con-
siderably smaller than those resulting from the orientation do
ne using the 12 points of the framework: obviously the colli-
mations done on the pre-marked points have proved to be better
than those on the pegs of the framework.
Even though, as was said, we tried to achieve a certain
degree of homogeneity between the tests done with the various
cameras, this homogeneity has obviously not been achieved, be
cause of the different photographic dimensions of the pegs;
this was noted particularly with the TMK Zeiss, which was put
at a considerable disadvantage by this; it would be useful to
repeat the experiments using auto-adhesive marks of different
dimensions so that the collimation for each camera could be
done on the most appropriate type of mark and in the best con
ditions.
