On the other hand angular attitude errors in w or ¢ of 
10 mgon cause maximum displacements in the projection of 
rays of 38 pm in the photoscale, with wide-angle photo- 
graphs. It means that the displacements will hardly exceed 
0,1 mm at map scales of 1:10 000 or smaller, taking the 
usual relations between photoscales and map-scales or ortho- 
photomap-scales into account. It also means, that the re- 
quirements also for large scale photomapping will be met, 
if the orientation data would reach a precision of 0,5 m or 
better in position and 5 mgon or better in attitude. 
5.3 More detailed considerations have to distinguish bet- 
ween mono-projection (rectification, orthoprojection) and 
stereo-projection. It can be shown, and it is confirmed by 
simulation, that the errors of attitude data and of positi- 
on data, if set directly as image orientation elements, are 
acting independently in first approximation. 
We consider first the monoprojection of photographs, as 
applied in rectification and orthoprojection. The error ef- 
fects of directly set orientation elements on the projection 
are summarized in the following table. It shows the r.m.s. 
projection errors uxy, considering the net area (18 cm x 
18cm) of à wide-ancie photograph (f = 15 cm), and assuming 
standard errors of o,,4,c= Oa =10 mgon and o 2g 
= 10 um of attitude 25 Position data, espe LA ches 
latter converted to photo-scale. 
combined effect 
IX Sac 1:60 000 photo scale 
10 mgon 10 mgon |og = 10 mgon, opc = 1m (= 17 um) 
  
by y image area | 28 um 11 um 2,0m 
Hy y edges 32 um 11 um 2 ,Q. i 
by y corners 36 um 11 um 2,4 m 
  
  
  
The values show that the assumed precision of the orienta- 
tion data would, in this case, allow about 3 x enlargement 
to the photomap. The error effects go proportional with the 
precision values og and opc and thus can easily be trans- 
ferred to other cases. The gaps between adjoining projec- 
tions will be V2 times larger than the above values (y) for 
edges and corners, respectively. The conclusion is that 
direct setting of navigation data would be sufficient for 
photo-mapping if attitude data would be precise in the order 
of 1:10 000 (= 6,4 mgon) and position data, reduced to photo- 
scale, in the order of 20 um. The latter specification is 
equivalent to 1,2 m for 1:60 000 photo scale or to 0,4 m 
for 1:20 000, respectively. 
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