and other systematic distortions. Electronic scanning of the
photographic imagery provides the waveforms which are
used in correlation for orientation purposes as well as in
determining three dimensional map coordinates of the imagery.
This approach permits considerable flexibility in terms of
universal input compared to the conventional stereo compila-
tion instruments, with respect to focal lengths, lens dis-
tortion, type of camera, etc, The contour information is
produced in conventional graphical form by means of a coordina-
tograph, in line drop form as oriented segments or bands of
several density levels, or digital data on magnetic tape.
Automatic output of planimetric data is an orthophotograph form.
11. The digital approach is characterized by the initial
conversion of the photographic image, spot by spot, into
digital values representing gray scale levels. The two main
functions are the scanning and digitizing of the photographic
data, and the analysis and manipulation of the data in a
large digital computer to obtain the desired output products,
contours and orthophotographs. In the manipulation of data,
corrections can be made for lens distortion, film shrinkage,
earth curvature, refraction, and other systematic distortions.
Conjugate images are located by using statistical methods in
the matching of spot densities.
BACKGROUND
12. It is interesting to note that the word "automation"
appeared for the first time in 1955 in dictionaries and encyclo-
pedias, but that first directed effort toward automation in
photogrammetry was in 1950 when the U. S. Army Engineer Research
and Development Laboratories, (ERDL - Now designated U. S. Army
Mobility Equipment Research and Development Center, (MERDC)),
Fort Belvoir, Virginia, awarded a contract to the Bausch and
Lomb Optical Company, Rochester, New York, for ''A Study of an
Automatic Scanning Device for Producing 3-D Topographic Maps."
This initial study, which was based on some preliminary
experimentation by Bausch and Lomb based on a suggestion from
Dr. George Harrison of the Massachusetts Institute of Technology,
employed a two projector multiplex bar and a scanning unit
replacing the tracing table. In this first effort only high
contrast, artificially produced diapositives could be matched to
determine profiles when projected on the scanning unit. Successive
developmental efforts were pursued by the U. S. Army under contract
with Pickard and Burns, Inc., Needham, Massachusetts; Hycon Manu-
facturing Company, Pasadena, California; Hogan Laboratories, New
York, New York, and Bunker-Ramo Corporation, Canoga Park, California
during the period from 1952 to 1962 based on modifying conventional
stereoplotters to automate the contouring operation using projection
type plotters of first, the Multiplex and then the Kelsh type. The
last contract resulted in an instrument which was called the "Auto-
matic Stereomapping System." This system mechanized the operation
of a Kelsh stereoplotter so that it automatically scanned a stereo-
model in successive profiles. The scanning unit utilized a Nipkow
disc (a rotating disk with holes in a spiral pattern) to scan the
stereoimage, and with the aid of tilt and height servo systems and
