109
should not be generally applied. Taking into account the general spirit in which international tests
on air-surveys and aerotriangulation (so called: essais contrôlés) were carried out by I. S. P.
between 1952 and 1956, where each responsible expert was left free to apply his own methods and
equipment, M. Cruset suggests international cooperation to be established as follows: international,
national and private laboratories to exchange lenses and cameras so as to have them tested by
different means and methods. Results obtained to be ultimately published by Commission I. Such
results obtained in laboratory-tests should afterwards be checked by trials in airplanes.
Je donne la parole au Dr. L. E. Howlett du National Research Council of
Canada.
Dr. L. Howlett: The trouble with this subject, on which so much nonsense is L. Howlett
spoken, is: if you have a perfect lens, there is no problem at all. If you do not
have a perfect lens, which you never have, then all the language which you
apply to a perfect lens cannot be just transferred to an imperfect lens and make
sense. Such terms as »principal point», »focal length» mean nothing to an ordi
nary imperfect lens until one has done some definition.
If we think in terms of calibration, the first thing that we want to define is
the geometry of the system. Photogrammetrists are particularly interested in
the principal point. Principal point defined by physicists for a perfect lens has
meaning. But when we come to a lens in which there are both residual errors
of design and manufacturing errors, you have none of these things. It is essen
tial then to select certain quantities, focal lengths and principal point in such
a way that what you have is as close as possible to what you would have had
if the lens had been perfect. To do this, it seems essential to have a co-ordinate
system. It seems to me, a rather happy thing, that when we discussed these
matters at Washington, at the last Congress, mention was made of a prin
cipal point of autocollimation. This at least gives a fixed point to which one
can refer to distortion characteristics of a given lens. I think we were un
fortunate in introducing the expression »principal point», since the principal
point of autocollimation is not a principal point. It is merely a point that can
be unambiguously defined and can form an origin for a system to which the
distortion of the lens can be referred. In general, a lens has two distortions;
one is commonly called radial distortion. This comes in the main from the
residual aberrations left by the designer. It is always completely symmetrical.
In addition to this distortion, another one is introduced by the manufacturer.
I think it was an unhappy choice of word, that this distortion was called tan
gential, since, in manufacturing, distortion does not have to take place in the
tangential direction; it can, in fact, occur in any direction and cannot be pre
dicted. Hence I think it would have been much happier if we had divided dis
tortion into two neat parcels: one coming from the theoretical side, the residual
left by the designer, and the other introduced by the inability of any manu
facturer to manufacture a perfectly centred system.
Now, when we get into the problem of the second error, we get into further
difficulties in defining what we mean in calibrating. This brings up the problem
immediately of whether you should calibrate visually or photographically. One
presumes that a photogrammetrist wishes to have something which is meaning
ful to him. In another work we recently have demonstrated that there is a
difference, a measurable difference between the distortion of the Aviogon as
measured visually and as measured photographically. This is a significant differ
ence and I think it is the first occasion at which it has been measurable. It has
been measurable because of the excellent definition which is obtainable by the
Aviogon and, I think, obviously, requires that, to be meaningful, all future
calibrations of aerial cameras must be done by a technique which is equivalent
to the photographic method.
Le Dr. Ilotvlett constate que la terminologie utilisée pour les objectifs réels et imparfaits
s’applique mal à ces optiques puisqu’elle a été forgée pour l’objectif parfait, instrument qui ne pose
aucun problème de contrôle. Il se félicite que l’on ait pu recourir à la notion de point principal
d’autocollimation en ce sens qu’il fixé une origine aux mesures de distorsion, mais regrette qu’un
