International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B7. Istanbul 2004 
6.2 Automatic Photogrammetric technique 
In the last point “5. Mathematical prediction of glacier 
dynamic" we have solve the automatism of the "control points". 
The position of these points can be predicted through the 
previous knowledge of the climatic data and the dynamic of 
another campaigns. In doing so, for instance, the even years the 
traditional observation techniques can be employed (geodesy, 
G.P.S.) and in the odd years, the position of the points can be 
estimated with predictive calculations. 
In addition, there has been a problem with photogrammetry 
because of the convergent geometry. In the near future, the 
*Foto-Cartógrafo" software, will be used for recovering the 
exterior geometry of the images. 
6.3 Previous work to photogrammetric orientations 
6.31 Taking photographs: In our case, the photographies 
of the glacier are convergent and sloping, and the relation base- 
distance is, in many cases of 1/1, that is to say, there is the same 
distance between the projection's centers and the object's 
distance. Great relations between the base and the distance to 
the object makes longer the intersection of the rays and this 
allows us to improve accuracy (Figure 4). By contrast, the 
conventional analytic and digital stereoplotters cannot perform 
the photogrammetric orientations. 
  
  
| Foto 4 Palo 
| E oto 
| P16 ‘ + 
| a P10 
| Foto 5 
= 21 a 5 mb Foto 2 
pa, =" 7 23 
M P11 a8 
e? s Opa 24 Wl Foto 1 
Foto 6 P1 = 9 
pio 
& Foto 9 
, P4 P7 
' Foto 7 
Foto 8 P5 
P6, 
| 100 metros 
| Fronte del glaciar 
  
  
Figure 4. Scheme of the rods, control points or artificial signs of 
the photographics takings. 
6.3.  Premarking control points: In some places like 
deserts, beaches, forests and glacier, etc., the natural points 
could not be the most indicated targets to be controlled 
photogrammetrically. In these cases, the artificial points are 
located on land before taking the photographs. Their positions 
are specified through topographic measurements, although they 
can be foreseen statistically (Sanjosé y Lerma, 2001). 
To realize our study in different rocks glaciers (Argualas, 
Posets, Veleta) signals of different materials have been made; 
for instance, at the very beginning the signals were made of 
plastic, but their result was bad because they did not stay 
symmetrical from all the attitudes. Later, these signals were 
made of cardboard, which have been employed on the 
photographs, but their problem was related to traveling. During 
last years, the signals were made of cloth, which is very easy to 
transport, plus internal rods to give them a squared form. 
  
  
  
  
Figure 5. Design of a signal and its position on a photography. 
In order to automate the calculation of the glacier's dynamic, 
permanent artificial signals can be left on the glacier (Figure 5). 
These signals are made of metal and they are put on the ground. 
Following this way, the signal's movement is the same as the 
glacier. 
7. RECOMENDATIONS FOR FUTURE WORK BASED 
UPON EXPERIENCE 
Project results have been analysed taking into account the 
position and attitude of shorts, quantity of control point and 
their distribution: 
e Geometry: It is preferred convergent photographs 
than normal ones. It should be avoided narrow 
parallax angles. 
e. Number of photographs: It is important to take care 
upon the distribution of photographs, rather than on 
the number. Minimum number: three; recommended: 
four o five maximum. 
e Number of control points: To the orientation, apart 
from the control points, another kinds of points can be 
observed. In relation with these points: 
|l. Employ great quantity of control points does not 
imply get better results. The program needs more 
than ten similar points, and the system will be 
more consistent if all of them are points of object 
coordinates. 
2. To obtain the same number of photographs, the 
'ariation of control points imply errors, although 
they are better if there is a greater number of 
points. 
3. "The medial quadratic error is, in general, smaller 
if we only take into account the calculation of 
the residual of the referential system of the 
control points. 
8. CONCLUSIONS 
As the geodetic methods only allow us to measure a small 
number of control points (targets) on site, and aerial 
photogrammetry is too expensive and not ideal for this kind of 
projects, close range photogrammetric techniques appears as an 
complementary method ideal for the 3D reconstruction and 
analyses of rock glaciers (Figure 6). Furthermore, the 
combination of multidisciplinary data and methods seems 
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