(7,900 m) has increased from 10 percent in FY 1972 to 80 percent in
FY 1975. The primary uses of high-altitude photographs are for
aerotriangulation and preparation of orthophotoquads.
An Itek Visual Edge Match Comparator has been installed as
the basis of quality control for aerial photography acquired under
contract, and for all subsequent photographic processing.
On April 1, 1973, the calibration services and associated
equipment for aerial cameras and lenses of the National Bureau of
Standards (NBS) were transferred to the USGS. All equipment has been
moved to the USGS National Center at Reston, Va., to form one of the
most complete facilities in the United States. During the transition
period, a number of modifications were made to increase the accuracy
and versatility of both NBS and USGS calibration instruments.
A new method of coordinate refinement for radial lens dis-
tortion has been developed. Corrections are applied according to
the grid location of the point rather than the radial distance from
the point of autocollimation. This allows corrections for asymmetrical
and irregular distortion and corrections for non-flatness of the magazine
platen.
3. Research projects in aerotriangulation included:
a. Utilization of superwide-angle photographs to
establish control for 1:24,000-scale topographic
maps.
b. Application of high altitude (1:80,000 scale) quad-
centered photographs and semianalytical aerotriangulation
methods to photogrammetrically establish vertical control
for lower altitude compilation photos.
c. Comparative evaluation of four different semianalytical
aerotriangulation methods.
d. Comparative evaluation of five different fully
analytical aerotriangulation methods.
4. The development of a Digital Cartographic Data Base was
initiated. The primary objective is to make map information available
in digital form for various kinds of analytical studies; the secondary
objective is to automate some of the cartographic operations.
A pilot project was conducted with Rome Air Development Center
to evaluate the technical problems of deriving digital data from the
stereomodel in the AS-11B-1 analytical stereoplotter and generating
graphics from the data.
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