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praeucar HTIPHCÇCAUONS On irc OpUrauurrat WOTK,
I it will lead to the unification which is a most
desirable feature and also it will lead to simpli-
can supply the needs of many customers eco-
nomically. This naturally leads to the setting
up of data reduction centres where machine de-
velopment can proceed in response to the needs
of actual work. The combination of production
with machine design may even lead to the dis-
appearance of the present division of the in-
dustry into manufacturers and users.
The enormous volume of image data soon
to be available from lunar and planetary photo-
graphy would make great demands on the re-
duction centres, which could become even more
automatic and self-sufficient.
The library problem accompanying the
storage of ever larger volumes of information is
already acute, and techniques for data storage
and retrieval are currently receiving much at-
tention. Methods for handling graphic data are
not as advanced as the methods for symbolic
data, therefore the library problem arising out
of this abundance of imagery will no doubt be
a monstrous one. Perhaps the peculiar scanning
and sensing methods of Stereomat will assist in
this area also, thereby taming to some extent,
the monster it has helped create.
References
1 Hobrough, G.L. "Automatic Stereo Plotting”,
Photogrammetric Engineering Volume XXV 763
(1959)
2 Esten, Randall, D., "Automatic Contouring”,
Photogrammetric Engineering Volume XXIII 49
(1957)
3 Blackut, T.]., and Helava, U.V., "Automatic
Stereoplotting in Small and Large Scale Mapping”,
Report to the IXth International Congress of
Photogrammetry London 1960 from National
Council of Canada.
4 Helava, U.V., "Analytical Plotter in Pboto-
grammetric Production Line”, Photogrammetric
Engineering Volume XXIV 794 (1958)
AUTOMATIC STEREO
Appendix
The structure of the functional units of
Figure 4 and 5 are detailed under separate head-
ings.
The operation of the correlation circuits
is described in terms of their response to the
transient signals from image boundaries.
Scanning Generator — Figure 7
Separate X and Y noise generators give
independent motions to the scanning spot in the
X and Y directions. The quadrature network pro-
vides two periodic signals having a phase differ-
ence of 90 degrees. These signals are added to
the random noise signals to give a low-velocity
circular motion to the scanning spot. The cir-
cular motion is small, relative to the random
motion, and does not change the character of
the pattern appreciably. The purpose of the cir-
cular scan component is described later in con-
nection with terrain slope sensing. The gain
control units vary the size of the scanning pattern
in response to the T.S.M. signal from the corre-
lation unit.
4004 QUAD
NET.
F
[hosel 8 Bano] D [can | POWER] X,
NOISE > ( GAIN POWER|
| PASS + [— 59——9O DEFLECTION
L SEN. NET. = CONT. | AMP | DEFECT
CONTROL
SIGNAL IN
(TSM)
WAVEFORM AT E —/ NON REN
WAVEFORM AT F————— —; x Pf VY.
Figure 7. Scanning Generator
oi A [8m] C r — ;
NOISE PASS .—»—(*) GAIN POWER >
jus NET | T CONT pers eS DEFLECTION
fe
TYPICAL WAVEFORM AT A OR B
TYPICAL WAVEFORM AT COR D
Correlation Unit — Figure 8
Signals from the photo-cells are processed
by:
1. A multiplying correlator to give a tracing
velocity signal.
2. A registration discriminator to give aregis-
tration error signal.
The registration error signal is processed by
the parallax analyzer to give coherent X and Y
parallax signals.
A portion of the X parallax signal is pro-
cessed in the slope analyzer to give two signals:
root, unaer CridirrransTip oy vir rrerava,purne
adequate record of the discussion is available
for publication.
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