Full text: New perspectives to save cultural heritage

CIPA 2003 XIX th International Symposium, 30 September - 04 October, 2003, Antalya, Turkey 
system, the point sets from the two programs were directly com 
pared, to produce a mean RMS deviation (d). Additionally, they 
were compared with a rigid body transformation (giving a mean 
standard error Or), to check for small translations and rotations 
between the two 3D point sets. Table 3 presents the outcome of 
these comparisons according to number of images and ground 
control points (GCP). 
Table 3. RMS differences (d) and error (Ctr) of rigid body 
transformation between point sets after self-calibration 
B- PM 
B-PMS 
images 
GCP 
d (cm) 
CT R (cm) 
d (cm) 
CT R (cm) 
4 
6 
3.9 
2.8 
3.0 
2.3 
4 
7 
2.8 
2.1 
3.1 
2.0 
5 
7 
2.8 
2.0 
2.7 
2.0 
It is seen in ct r that, with the exception of 6 control points, the 
point sets indeed remain within the precision of reconstruction, 
as presented in Table 2. However, certain significant differences 
do exist between the two points sets, seen in the values of d, due 
to translation and rotation between the object systems. In fact, 
large differences are present even when comparing results from 
the same program obtained using different control points, a con 
sequence of control point uncertainty. What is to be noted here, 
however, is that the two programs are affected differently by the 
inaccuracy of the same control points. 
A probably more interesting aspect of self-calibration is the re 
sults as regards camera geometry, seen in Tables 4 and 5 (in the 
second case solutions are given with and without distortion). 
Table 4. Calibration results from PhotoModeler 
PM 
PMS 
images 
GCP 
c(mm) 
x 0 (mm) 
y 0 (mm) 
c(mm) 
Xo(mm) 
y 0 (mm) 
4 
6 
81.617 
0.010 
-0.004 
81.582 
0.012 . 
-0.003 
4 
7 
79.211 
0.006 
-0.001 
79.273 
0.003 
-0.000 
5 
7 
79.374 
0.004 
-0.000 
79.172 
0.008 
-0.001 
Table 5. Calibration results from bundle adjustment (BASTA) 
images 
GCP 
c(mm) 
Xo(mm) 
y 0 (mm) 
k| 
k 2 
4 
6 
79.011 
78.927 
-0.171 
0.257 
0.118 
0.187 
6.8x1 O' 7 
2.1xl0' 9 
4 
7 
79.011 
78.934 
-0.219 
0.186 
0.140 
0.204 
5.9x1 O' 7 
2.0x10' 9 
5 
7 
79.170 
79.083 
-0.046 
0.061 
0.308 
0.082 
2.4x1 O' 6 
-5.6xlO' 10 
control points with only one or two known object space coordi 
nates (the remaining ones are estimated as ‘partial’ tie points in 
the adjustments). This particular feature has proved very useful 
indeed in architectural applications, where control might not be 
available but the regular geometry of the object can be exploited 
instead. Considering the example of Fig. 3, one sees that a given 
horizontal length L on a planar façade XY allows generating 2 
full control points (1,2) and points with known X,Z (like point 
6), known Y,Z (points 3,4) or points simply on the plane (point 
5). Evidently, additional points on perpendicular planes (known 
X or Y or both) may also be considered. 
X i ,Y, Z Y, Z Y, Z X 2 ,Y,Z 
9: Q O 0 
o c 
1 3 
p 9 
4 2 
5 
c 
L 
6 
o 
z x 2 , z 
Figure 3. Example for defining ‘partial’ control points by using 
one known dimension L and exploiting object geometry. 
This approach has been applied in the present case to allow self 
calibration, the results of which are seen in Table 6. The known 
horizontal length was taken on the left XY façade, giving rise to 
2 full (X,Y,Z) control points. One more point was chosen on 
the horizontal line (known Y,Z); and three further points on the 
façade were also used (known Z). 
Table 6. Calibration results from BASTA with ‘indirect’ control 
(GCP: 2 full; 1 with known Y, Z; 3 with known Z) 
images 
c(mm) 
Xo(mm) 
y 0 (mm) 
k| 
k 2 
4 
79.012 
78.927 
-0.185 
0.247 
0.124 
0.193 
6.9x1 O' 7 
2.1xl0' 9 
5 
79.170 
79.078 
-0.023 
0.088 
0.303 
0.069 
2.5x1 O' 6 
-6.0xl0' 10 
Comparison of Tables 6 and Table 5 reveals that self-calibration 
essentially relying on a single known dimension in object space 
and making use of certain object properties yields identical ca 
mera calibration results to those from full control points. Since 
the plots at hand appear, from a purely metric point of view, as 
rather questionable, this is probably the approach to be adopted 
for the next steps of the present project. 
PhotoModeler yields a principal point ‘suspiciously’ coincident 
with the image centre (it is not known to these authors whether 
the program imposes some internal constraint to principal point 
location). The bundle adjustments result in a scatter of the x 0 , y 0 
values, generally expected when adjusting non-metric images. 
On the other hand, BASTA shows a very strong repeatability re 
garding the camera constant; the results from PhotoModeler, on 
the contrary, are more scattered, reaching a very large difference 
when using 6 control points. The radial distortion estimated by 
BASTA differs somewhat in the cases of 4 and 5 images; never 
theless, its value is quite small for this normal lens (the calibra 
ted curve does not exceed 40 pm at image comers). But if wide- 
angle lenses are used, the problem of distortion in PhotoMode 
ler must be tackled by partial camera pre-calibration (for simple 
approaches see Karras & Mavromati, 2001). 
4.2 Use of‘indirect’ control information 
Reference has already been made to the fact that BASTA accepts 
5. DISCUSSION 
Suitable tools exist today for conveniently handling tasks of ar 
chitectural photogrammetry, including instances were historic, 
usually poorly documented photographs need to be used. Photo 
Modeler is such a powerful 3D reconstruction tool. Although 
certain of its processes may remain somewhat ‘obscure’, it has 
been established here that the reconstruction it provides is equi 
valent to rigorous photogrammetric solutions. However, certain 
questions must be answered ‘externally’, such as lens distortion 
(a considerable problem in several tasks) or the requirement for 
more flexible means for tackling unconventional data. It seems 
that the combination of commercial program packages with own 
software, like the one used here, may prove even more fruitful. 
Recently, a ‘new’ set of old images (among them some giving a 
bird’s eye view) of the building in question have come to the 
authors’ attention. Students of Architecture again had acquired
	        
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