— Problem 8
Originally the comparison between analogue instruments and stereocomparators was not included
in the programme. With om = 2.5, the r.m.s. errors mz in “microns in the image“ for the mea-
surements with the analogue instruments put together are in the proportion of 1 : V; = 1.00 : 0.65
to those of the measurements in stereocomparators; consequently the ratio of the height errors
becomes 1 : V; = 1.00:0.85. The errors m; of the comparator measurements are thus about one
third smaller than those of the analogue instrument measurements; however, with the height
errors m;, the differences are slight.
The r.m.s. errors have often been computed separately for the point groups (interior, exterior and
edge points), in order to determine the decrease of accuracy towards the edge. Later on, the exterior
and edge points were taken together, since they were about equally accurate, and the ratios vx and
v; between their r.m.s. errors and the r.m.s. errors of the interior points were computed. It was
found that:
— For planimetric co-ordinates, the decrease of accuracy towards the edge is about v; — 1.55, and
for heights it is about oz = 1.25.
— The decrease in accuracy towards the edge is practically independent of the picture scale, of the
camera used and, above all, of the types of restitution instruments applied (C8, À 7 and stereo-
comparators) (see [6]).
In contrast to Oberriet, a hilly, partly mountainous area was chosen for the Reichenbach test, because
it was suspected that the heights of the points affected accuracy. Finally, the r.m.s. errors of both
tests were compared and some results of further international tests were incorporated into the com-
parison, viz: Revoira, Renfrew and Bezons and the Reichenbach test for the ISP. However, it was
extremely difficult to establish a basis which was to some extent suitable for a comparison of the
results. Probably this has not always been achieved. With both the Oberriet and Reichenbach tests,
about equal r.m.s. errors were found. However, if all the other tests are incorporated, then the
absolute errors m; pertaining to our Reichenbach test and along with these the errors pertaining to
the Oberriet test, are about 30% smaller than the overall average. For the height error, m;, this
percentage amounts to 10 only.
Bibliography
See French text, page 12.
