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METHOD CAMERA INSTRUMENT PLOTTING EDITING
ANALOGUE Wild P31/100 Technocart D Graphical by hand
ANALYTICAL Hasselblad/80 ADAM MPS-2 Automatic AutoCAD
LOW COST—-HYBRID Wild P31/100 |Digitizer+S/W Automatic AutoCAD
Table 1
DTM of the vessel's hull was produced and
it was later interpolated along prede-
fined lines in order to produce the final
plots.
One of the main problems with all methods
is the uncertainty with which the various
lines of interest are being defined on
the hull, in the photogrammetric stereo—
model. With the analogue method, the in-
strument may be driven along specific
planes, provided of course, that the co-
ordinate system of the control is ident-
ical with that of the final shipbuilding
plan. Even then a relatively experienced
operator may be faced with difficulties.
With the analytical method, things are
theoretically more favourable. However,
it proved equally difficult to drive the
instrument along predefined planes, thus
determining their section with the
object. Special off-line interpolation
stage was necessary for both methods, in
order to achieve the required results, as
described above. In addition the lack of
detail points on the surface of the hull
presents another problem to the observer.
Since it is impossible to either paint or
project onto the hull some kind of tex-
ture, the operator is required to proceed
very carefully.
In all cases the lines produced needed
some kind of smoothing. This may either
be done graphically with special drawing
aids, or computationally. A special CAD
Programme was developed for this purpose.
As input it requires co-ordinates of
observed points on the sections and it
then determines the appropriate curve to
fit (usually of third order). This is
determined by the type of the vessel, its
dimensions and the position of the sec-
tion.
An interesting problem is to attempt the
survey of such a vessel while it is in
the water, when a portion of the ship's
hull is underwater. Two are the obvious
solutions. In the case of clear waters
the photography could be taken from out-
side and special two-media algorithms
should be employed. Alternatively under-
water photography with specialised ins-
trumentation should be employed. Both
alternatives will be tested in the course
of a major research project, which will,
hopefully, start in the near future.
n—-— 7777
o 1 2m
Figure 3
On the other hand, the final method,
Proved easier and faster in any respect.
As the DTM could be produced in any co-
ordinate system, no special care should
be taken for the determination of the
control. Hence simple distance measure-
ments may be used for the analytical ori-
entation of the stereopair, thus making
the fieldwork easier, simpler and more
accessible by à non-photogrammetrist.
Careful specification of the plane para-
meters produces more reliable sections of
the object. The only drawback of this
method is the - temporary - lack of ste-
reoscopy for the observations.
4. CONCLUDING WORDS
Since the main issue in this discussion
is the photogrammetric methodology, it is
proposed that simple instrumentation com-
bined with simple measurements and simple
software may lead to the required result.
Of course it has been clear from the ex-
periments that the best way to handle the
problem is to produce a DTM of the ves-
sel's hull and produce the required sec-
tions from it.
