The rationale for automatic processing of multispectral scanner data
are summarized as follows:
1. Automatic processing can be done in quasi-real time, that is,
before the information content of the data can significantly decay in
worth.
2. Automatic processing of large volumes of data can be done more
cost effectively (not necessarily more cheaply) than manual processing
and interpretation.
3. Although the information volume of the desired kind may be
small, the data volume is exceedingly high. Automating this data volume
reduction to information frees people for creative tasks less well
suited for machines.
4. Automatic processing gives a potential for a greater consistency
of results with objective classification standards. Some would also
mention higher accuracy here for automatic over manual processing.
5. Derived information from automatic interpretation is in a form
for quick and easy integration with other data bases in automatic infor-
mation systems such as automatic mapping and compilation of statistical
records or summaries.
6. Multispectral scanner data is recorded in electronic form
intended for automatic processing in contrast to photography in which
film is the recording medium.
A multistage sampling technique is envisaged for some operational
applications whereby an earth resource or land use inventory would be
performed using three data-collecting systems: satellites, aircraft,
and ground observers, in that sequence. Each of these systems would
provide progressively closer looks at progressively smaller areas, and
would provide more detailed information about those areas. Then, the
more detailed information would be applied to a much larger area for
which the limited sample appeared to be representative, as evidenced
by the similarity of the small areas to certain surrounding areas as
recognized in the space and aircraft data. The first tests of this
three stage approach for multispectral scanners will come from Earth
Resources Technology Satellite (ERTS) experiments.
But to achieve a practical tool, the sensors and automatic processors
must replace a sufficient number of ground observers for the costs to
be reasonable (a few U.S. dollars per square kilometer is the goal).
2. Basis of Spectral Discrimination
The most important keys in photographic interpretation are generally
spatial in nature, e.g., the shape, size, texture of an object class if
given sufficient contrast, although color may also be important. However,
the multispectral scanner (see Fig. 1) is a device which emphasizes
spectral information for recognition, although temporal, spatial, and
