Ackermann:
Grün:
Welch (USA):
Ackermann:
were trying to get better correlation than could be
done under normal stereocomparator observing. The
outcome of this was that it did produce a signifi-
cantly better answer but it was so slow, so expens-
ive and so impractical that it was never adopted.
I mention this now because propably the automatic
image correlation is also extracting the latent
potential in the photographic image and in effect
it is now becoming a practical propositon, which
it wasn't then.
Thank you for this comment. These were the famous
Eden blobs, isn't it. At that time still most of
the work was done in analog instruments the pre-
cision of which was moderate. Therefore that kind
of point transfer did not really improve aerial
triangulation. However, in the meantime, we could
show that transfer of natural points - not marking
them - is really capable of very high precision.
The results are very close to those by signalized
points and probably very close to what we get now
with image correlation. As you pointed out the
real trouble with natural transfer points is the
administrative problem. You have to describe these
points and make sure that they are identified in
all other photographs again. So, in a practical way
it was not a very handy system, and that is why
nobody really applied it, at least not regularly.
Any more questions, please.
I would appreciate your comments on the impact of
pixel resolution. What about storing the large
number of pixels that would be involved.
To your first question: It can be concluded from
experience and from theoretical investigations
that the 20 microns pixel size, which we use at
the moment, is quite well adapted to the resolution
of present day aerial photographs. Smaller pixel
size would not improve the match because the resol-
ution isn't there. There are some exceptions,
however. For instance, in order to catch signalized
points of only 3 pixel diameter you need smaller
pixel size. At the moment we do not experiment
with different pixel sizes. 20 microns seem ap-
propriate for the time being.
To your second question: We have not really given
much thought to the problem of storing efficiently
the digital arrays. But it does not seem to be
much of a problem. First, vou do not store all
patches of a block together. Second, it is still
an open question whether you need storage pixel by
pixel or whether some efficient data reduction can
be applied. It also depends on which computer
facilities you have. I think, it is very feasible
to have an automated digital system. Certainly
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