A CONTRIBUTION TO THE REPORT OF THE WORKING GROUP IV/1 HIGHWAY
AND RAILWAY ENGINEERING, OF THE ISP TO THE HELSINKI CONGRESS
IN 1376
by Richard O Mahan,
U.S. Forest Service
THE GENERATION AND APPLICATION OF THE DIGITAL TERRAIN MODEL
Abstract
A recent trend in the use of photogrammetry has been the develop-
ment of digital photogrammetry, the result of the increasing use
of the electronic computer for the data reduction. A further pro-
duct of digital photogrammetry is the Digital Terrain Model (DTM).
The terrain is defined by many spatial coordinates observed as
discrete points on the surface of the earth, using stereomodel of
aerial photography and a precision digitized stereoplotter. A
technique has been developed to determine the authenticity of the
DTM in the form of a RMSE resulting in some guidelines in the po-
sitioning of the spatial coordinates, the number of points requi-
red, and the compatibility of the computer algorithms that will
perform the calculations. Authenticity of the DTM is essential to
the applications involving engineering projects where the cost of
moving earth is an important consideration. Significant advance-
ments will be made in the application of digital terrain modeling
as computer algorithms are developed that will generate specific
answers from the manipulation of the spatial coordinates that accu-
rately simulate the surface of the earth.
What is a Digital Terrain Model?
The electronic computer has made a significant impact on the way
that we conduct ourselves in our daily work. Many problems can be
solved in a timely manner with the computer now, that to do the
same calculation a few years back would be just too tedious and
time consuming to even think about. The preparation of maps as
well, has not escaped this influence.
However, there is difficulty in getting the electronic computer to
read maps the way that we are accustomed. The computer just cannot
look at a map, see a contour, and relate that to a level of the
terrain. The computer recognizes number - not contours, streams,
ridges and other features that are normally symbolized and shown
on maps. Let one reduce the map symbols to numbers that the compu-
ter can recognize, then wonders can be performed.
Now consider topography, normally symbolized in the form of con-
tour lines. Topography is generally the first requirement for an
engineering project. Since many engineering firms now have access
to the electronic computer, it is to their advantage to have topo-
graphy expressed in such a way that the computer can understand it
- hence the need for the Digital Terrain Model (DTM) is clearly
identified.
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