ıl 2004 
P 
Se 
  
Css 
  
ted 
ble 
in 
ese 
the 
the 
for 
ind 
hy 
on 
1CY 
ia = 
of 
are 
her 
ich 
is half pixel. Hence, measures can be juged as 
acceptables for the continuation of the process. 
  
  
  
  
  
  
  
Resolution (dpi) 600 800 
Pixel dimension 42 32 
(um) 
Pointing | Left 6.08 4.12 
error photo 
(pm) | Right 4.47 5.39 
photo 
Theoric pointing 21 16 
error 
  
  
  
  
Table 5: Interior orientation error 
3.2.2 Relative orientation 
Table 6 shows that in general the differences are less than 
one fifth of a pixel. D'aprés le tableau 6, on remarque 
qu'en général les écarts sont inférieurs au cinquiéme du 
pixel. We can also notice an enhancement of relative 
orientation with increasing resolution. Consequently, the 
process can be continued and goes to the absolute 
orientation. 
  
  
  
  
  
Resolution (dpi) 600 800 
Pixel dimension 42 32 
(um) 
o, (uum) 6 5 
K 0.14 0.16 
  
  
  
  
Table 6. Relative orientation results 
3.2.3 Absolute orientation 
Table 7 provides absolute orientation results that is 
planimetric RMSE (mxy) and altimetric (mz) calculated 
for the different resolutions. Moreover, this table 
provides also the corresponding theoric accuracies in 
planimetry (op) and in altimetry (c7). Moreover, this 
table provides also the corresponding theoric accuracies 
in planimetry (cp) and in altimetry (07). By analizing 
these results, we can notice that, for any used resolution, 
the planimetric RMSE is less than the theoric error. 
  
  
  
  
  
  
Resolution (dpi) 600 800 
mxy (m) 0.896 0.797 
oP (m) 1.342 1.082 
mz (m) 0.487 0.276 
6Z (m) 1.897 1.477 
  
  
  
  
  
Table 7. Absolute orientation results 
Before going to the step of restitution evaluation, we 
should emphasize that results for the case of Sidi Slimane 
sont better than those of Al Hoceima. This may be due to 
the terrain topography and the vegetation cover which in 
turn may have an effect of features identification. 
3.3 Restitution evaluation 
For the purpose of restitution evaluation 11 GPS points 
were colected for the case of Al Hoceima and 14 others 
for the case of Sidi Slimane. The coordinates of these 
points were adjusted based on known planimetric points. 
Furthermore, taking into consideration both resolutions : 
367 
International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B7. Istanbul 2004 
600 and 800 dpi, the coordinates of these points were 
compared with their corresponding points provided by 
restitution. Table 8 presents the obtained average 
differences during this verification. 
  
  
  
  
  
  
Resolution (dpi) 600 800 
Al D,, (m) 3.90 1.996 
Hoceima | D, (m) 6.93 2.033 
Sidi D,, (m) 3.00 1.890 
Slimane | D, (m) 2.07 2.011 
  
  
  
  
Table 8. Results of restitution verification 
By analizing table 8, we can notice that for the same 
couple, the results is enhanced from resolution 600 to 800 
dpi. We can also notice that the obtained result for Sidi 
Slimane is better than the one for Al Hoceima. This may 
be due to the terrain topography which is rough in the 
case of al Hoceima and flat in the case of Sidi Slimane 
Moreover, to conclude for the scales of maps to be 
produced, we have considered the tolerated differences 
which are used by the National Cartographic Agency in 
Morocco. These differences are + 0.2mm at map scale for 
the case of planimetry and + 1/3 of contour interval for 
the case of altimetry. Therefore for a map at scale of 
1/50000, we obtain 10 m in planimetry and 3.33 in 
altimetry. 
By taking into account these differences, those of the 
collected points by GPS and their corresponding points 
collected from restitution, we can conclude from the 
results of table 9 that topographic mapping at scale of 
1/50 000 is possible using aerial photographs at scale of 
1/40 000 and an A3 office scanner. 
  
Resolution 600 800 600 800 
(dpi) 
  
% des points 
à écart < 10m 
% des points 
à écart < 3.33 m 
  
  
  
Al 82% 100% 27% 91% 
Hoceima 
Sidi 100% 100% 35% 71% 
Slimane 
  
  
  
  
  
Table 9. Results of restitution verification 
4 Conclusions 
This research has dealt with the study of accurac of 
digital restitution from images acquired by means of an 
A3 office scanner. The purpose was to see at which level 
can restitution results be used for topographic mapping at 
medium scale.accuracy Considering that the scale of 
photographs is 1/40 000 and the resolutions are 300 and 
400 dpi, we are faced with a problem of features 
identification and hence the results are not acceptables. 
On the other hand, for the resolutions of 600 and 800 dpi, 
the results are better and apply to topographic maps 
standards at scale of 1/50 000 and lower. Thus, it is 
possible to conclude that an A3 office scanner with a 
resolution of 800 dpi is sufficient to convert photographs 
at scale of 1/40 000 to images for the purpose of a digital