In order to support the multi scale requirements of the "FOC" concept, the
cartographic feature data must be collected at the largest scale chart series to
be supported. Likewise, the cartographic data within the data base must be
referenced to absolute horizontal and vertical datums to insure that data
integrity can be maintained throughout any subsequent transformations and/or
adjustments required for accurate portrayal at the selected product scale.
OBJECTIVE
Sufficient resources (hardware) are now available at DMAAC to rigorously
pursue an automated charting production program. The objective is to
automate the conventional (manual) compilation process and thereby achieve
the following benefits:
Increased productivity (less handling of data).
Standardization.
Increased flexibility.
* Quick response to user needs.
The overall cost of charting, however, will not experience an immediate
decrease because of automation. Translation of information from the source
materials to the digital data base will often involve heavy computational loads
and significant data processing support. Only after the data base is developed
and implemented and the techniques for interactive maintenance of chart
feature data established, will the payback inherent in the data base concept be
achieved.
AUTOMATED COLOR SEPARATION
The annual volume of most types of chart and navigational products currently
produced at DMAAC is not large enough to merit immmediate cost effective
applications to automation. The Domestic Air Target Materials (ATM) program
was selected as the first candidate for automated color separation because of
the large number of charts produced each year. ATM charts are produced at a
scale of 1:200,000 and are used by air crews for general planning, in-flight
navigation and training.
As an example, in the production of ATM Domestic training charts, United
States Geological Survey (USGS) 7-Y.i" and 15" quadrangle sheets are used as the
primary source for control. For purposes of support of the ATM program, an
automated charting or digital color separation capability is the ability to
produce quality reproducible materials (negatives) from cartographic sources
(USGS quads). All data generation, transformation, processing, editing and
symbolization is to be accomplished in a digital (soft copy) mode to the
maximum extent possible.
Digital data source coverage within the domestic area would allow cost
effective revisions of resident ATM charts. Also, a contiguous data base at a
scale of 1:200,000 would provide the base required for development of the
"FOC" concept into a production reality. Systems, software, and hardware
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