4. CONCLUSIONS
The determining factors in deciding what interval
to use between the REGULAR points are:
1) Purpose of the contour map.
2) Relief of the terrain in the area.
3) Map scale and contour interval.
If high levels of accuracy are required in specific
areas of the project, additional geographic points
can be added to increase the accuracy of the data
extracted from the DTM in that area. But system
errors and human errors may cause irregualar errors
in the finished contours. Therefore a general
guidance formula is needed to guide the operators
toward increasing work efficiency and the reliabil-
ity of the DTM data.
Concerning the reliability of the DTM created
contours, the suggestion is to establish a proce-
dure for digitization of geographic elements for
the DTM files. It is important to digitize the
verification contours on a different layer of the
graphic file after all of the geometric elements
are digitized. These verification contours can then
be compared with the contours generated with DTM
data.
From the comparative analysis between the contours
generated from the DTM (TTN) files and the digi-
tized contours by manual stereocompilation, we
derived the following conclusions:
1) Contours created by manual stereocompilation
are usually higher than the contours generated
by DTM files. Refer to Fig.6, the most of dif-
ferences between 25 FT spacing DTM and manual
stereocompilation are minus.
2) Reduction in the density of REGULAR points
will slightly reduce the accuracy of the
contours if the amount of REGULAR points is
still adequate to produce the desired contour
interval in the map. (see Fig.6)
3) An increased amount of REGULAR points will
create contours with smoother curves, i.e.
contours expressing more detailed relief.
4) BREAK lines play an important role to repre-
sent abrupt irregularities in the terrain. If
BREAK lines are omitted, it may lead a signif-
icant errors in the resulting model.
(see Fig.2 A)
If the REGULAR points are reduced, only rela-
tively minor errors will result.
5) Digitization of the geographic BREAK lines can
compensate for a reduction in the density of
REGULAR points. This is a feasible method to
enhance the DTM accuracy.
6) Unexpected human errors caused the Standard
Error from the 40-FT DTM file to be greater
than the Standard Error generated from the 50-
FT DTM file. (see Table.l & Fig.6)
The stereoplotter has been reset for the
digitization of 40-FT DTM after the digitiza-
tion of 50-FT DTM.
7) The accuracy of the contours generated with
DTM data using REGULAR points at the 50 FT
interval were acceptable for highway design.
8) More experiments are necessary to set up
detailed specifications for the application of
DTM data.
9) Comparing contours generated from different
point intervals and from manual compilation is
one of the primary methods to verify the
overall accuracy of the DTM data.
DTM applications are not accepted by some profes-
sional engineers, because they are reluctant to
adopt the results generated from DTM technology.
Lack of literature supporting the technical viabil-
ity of computer software is a major issue hindering
widespread acceptance of DTMs within the profes-
sion.
The accuracy of the DTM data affects the quality of
the results generated from DTM applications. The
above method of comparing contours from different
criteria can persuade engineers that the results
generated from DTM data are as good as the results
expected from traditional photogrammetric approach-
es. Therefore, eventually more advanced DTM appli-
cations will be supported and utilized by profes-
sional engineers.
5. ACKNOWLEDGEMENT
The author wishes to express his appreciation to
Mr. William Blank for his suggestions and support,
to Mr. Stanley Kijek for his digitization, to Mr.
Dave Keilly for his revisions, and to Buchart-Horn
Inc. for their support.
6. REFERENCES
+ References from BOOKS:
a) 1989. Engineering Site Package (ESP) and
Transportation Design Package (TDP), User's
Guide. Intergraph Corp. pp 7-3:7-9.
b) 1991. InSite/InRoads Reference Guide.
Intergraph Corp. pp GL-3:GL-9.
846
