28
to-
ion
29
1) projecting the plane raster from a point P onto the object,
a deformed and spatial raster is obtained whose nodes re-
present a discretization of the object (it is assumed that
the raster is permanently printed on the object);
2) taking the object from the same point P with a camera whose
optical axis is oriented as that of the projector, an un-
deformed image of the raster is obtained.
It is obvious that a projector having the same characteristics
of the camera has to be used. It must have fiducial marks to
locate the principal point and, the principal distance must be
known. It must also be constructed with the same precision of
the camera. We define such a projector a metric projector (4).
In this way the classical stereoscopic pair of photograms can be
replaced, without losing any information, by the original raster
and by one single photogram taken from a point different from
that of the projection. The advantage is obvious, the plate co-
ordinates on the pseudophotogram are predetermined and are there-
fore known with great precision.
Thus, while in the case of two Stereoscopic photograms it will
be necessary to measure the plate coordinates of corresponding
points on two photograms, in our case only the plate coordinates
of the imageries of the node of the raster on the single photo-
gram are to be measured. The measurements have to follow an
exact order, so as to allow a correct matching with the nodes of
the pseudophotogram.
In the following paragraphs, the term "raster", with reference
to the processing of the photogram mentioned above, will mean
the deformed image on the photogram of the original raster pro-
jected on the object.
3. Automatic measurement
In this section we describe the procedure which measures the
rectangular coordinates of the nodes of the raster in a coordi-
nate system of the image plane (5). Figure 1 gives a block dia-
gram of this procedure.
The ordering criterion adopted for a correct matching consists
in locating the nodes of the photogram sequentially from ieft
towards right along the successive horizontal lines of the
raster (which appear in general deformed) scanned from top down-
wards.
a) Digitizing
The analog information contained in the photogram has to be di-
gitized (6),(7) for processing on a digital computer. An image
Scanner samples and quantizes the values of photometric transpa-
rency or density of the image in grey levels, which are subse-
quentiy stored in a matrix A(i,j) (Table 1).
