Computer Time
It is estimated that a full frame classification (185
x I 85 kms) will use on the average about three hours of computer
time. This will vary with the complexity of the classification in
terms of both numbers of units and any modifications that might be
required, such as changes in lookup tables. Measured against the
use of conventional air photographs, this is also a real cost to
the user which would not enter into the latter approach.
User Time
Disregarding the vagaries of computer systems, it is
felt that the total time taken to generate a full frame ERTS map
should be about three to four days. Added to this would be a
variable time factor of up to two weeks for processing the image
on the EBR system, depending on how readily it could be accessed.
If an area to be mapped is covered by parts of four ERTS frames,
equalling about 32,000 kms , then three to four weeks should be
allowed to produce the terrain maps. Comparing this with the more
traditional airphoto technique, coverage of an equivalent area
should take three to four man-months, in order to classify the ter
rain and transfer the data to a suitable base map. The only real
advantage in using the latter technique is that, with the addition
of the third dimension, greater detail and more precise definition
of the nature of the surface materials can be achieved.
It should be noted, finally, that the Bend.ix-PDP 10
system used on this project is not economically feasible as an
operational tool, largely because of its slowness, and time
sharing costs. Further research on this project will use the
Image 100 Series system which not only uses a dedicated computer
but is also fully interactive, reducing both time and operational
costs o
CONCLUSIONS
Programs of small scale terrain mapping in the north
may be enhanced by the use of automated techniques of multispectral
analysis of ERTS-1 data. However, it must be stressed that the
product is useful only as the starting point for other, more con
ventional mapping activities. It is felt that human experience
and expertise alone determines the validity of the classification,
and that this can only be verified by substantial ground checking.
While the use of ERTS saves time and effort in the early
stages of a mapping program, there is a continuing need for con
ventional photography to complement the ERTS data, and to identify
areas requiring more detailed attention.
Further testing of the technique is required. There is
a need to establish new training sets for each succeeding ERTS
frame. We need to test the validity of our assumptions regarding
the internal consistency of spectral classes within an ERTS frame.
