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into the computer. The latter include a basic program tape and an
initial-conditions tape, as in the AP-2 system. An additional separate
program tape is also entered, depending on whether the operational
mode is to be profiling or contouring.
Interior Orientation
Approximate positions of the fiducial marks on each photograph
are entered into the computer by means of the initial-conditions
program tape. When the interior orientation procedure is initiated by
the operator, the computer drives the photocarriages to one of these
positions and begins a simple search routine to locate a reference
portion of the fiducial mark, using information supplied by the corre
lator. The correlator outputs are then used by the computer to control
positioning of the photograph until the fiducial mark is correctly aligned
with the optics. This location is stored, and the photograph is indexed
to the next fiducial mark. After all fiducial locations have been de
termined, the photograph center is computed automatically, adjusted
for any known camera calibration errors, and then stored as the location
of the principal point.
Relative Orientation
Relative orientation is based on measurements of Y parallax made
automatically at from 5 to 12 points in the model. At each such point,
the correlator outputs are used by the computer to eliminate both X and
Y parallax. The X parallax is eliminated by controlling the effective
elevation of the point being observed in the model in order to permit a
more accurate measurement of Y parallax. The Y parallax is eliminated
by inserting a differential displacement in the Y positions of the two
photographs. During this process, the amount of motion required is
recorded as the Y parallax. After these measurements have been made
at the desired number of points, the computer calculates and stores in
appropriate locations the necessary changes in the values of the orien
tation elements.
Absolute Orientation
Absolute orientation is based on the known model coordinates of
three or more control points. It is performed in the same manner as
in the basic AP-2 system, except that model elevation is now automati
cally controlled to eliminate X parallax. Any residual Y parallax is
