What is a DRG Topographic Map and how to use them.
by Doyle's GIS
This page has information regarding:
How to View these files
View the maps in the Global Maper. This will
allow you to view and zoom in on the map. Also, as you move the
cursor around the map, it will give you the coordinates of any given point in
Lat Long or UTMs. You can enter these points into a GPS and go to that
map point in the real world. You can also measure distances between
points on the map. If you are not familiar with the symbols used see yhe
USGS Topographic Map
Symbols. To read more about what you can do with these files
Click Here
What is a DRG? Source: United States Geological Survey (USGS)
A digital raster graphic (DRG) is a scanned image of a U.S. Geological Survey (USGS)
topographic map. The scanned image includes all map collar information. The
image inside the map neatline is georeferenced to the surface of the Earth. The
DRG can be used to collect, review, and revise other digital data, especially
digital line graphs (DLG). When the DRG is combined with other digital products,
such as digital orthophoto quadrangles (DOQ) or digital elevation models (DEM),
the resulting image provides additional visual information for the extraction
and revision of base cartographic information. The USGS is producing DRG's of
the 1:24,000-, 1:24,000/1:25,000-, 1:63,360- (Alaska), 1:100,000-, and
1:250,000-scale topographic map series.
Data production is through an innovative partnership agreement with Land
Information Technologies, Ltd., of Aurora, Colo. The order and rate of
production will be determined by user requirements and by partnerships with
Federal and State agencies. Full coverage of the contiguous United States is
expected to be completed in late 1997.
Producing a DRG
Four items are needed to produce a DRG of a 7.5-minute topographic map:
1.a USGS topographic map, 2.the Universal Transverse Mercator (UTM) coordinates of the sixteen 2.5-minute grid ticks for georeferencing and rectification, 3.a digital image produced by scanning a USGS map on a high-resolution scanner, and 4.software to correct distortion and reference the scanned raster image to ground coordinates.
At the USGS, the first step in the process is to scan a paper 7.5-minute topographic map at 250 dots per inch. The position of each of the sixteen 2.5-minute grid ticks on the image is collected. Software uses these coordinates to rectify and georeference the image to the UTM ground coordinates. A bilinear transformation completes the georeferencing.
The image is compressed using lossless compression to reduce the size of the data set. The final result is a compressed TIFF 6.0 file. The file size range is between 5 to 15 megabytes.
Specifications
The standard USGS 7.5-minute DRG has the following specifications:
The source material for a DRG is a paper USGS topographic map.
The USGS DRG's are in TIFF 6.0 and employ GeoTIFF 0.2 specifications to define a set of TIFF tags. These tags describe all cartographic information associated with the file.
The map is scanned at a minimum resolution of 250 dpi.
The digital image is georeferenced to the true ground coordinates of the 2.5-minute grid ticks and projected to the UTM for projection consistency with USGS DOQ's and DLG's. The datum of the source materials is preserved in the DRG.
If scanned at a finer resolution, the image is resampled to 250 dpi. The image is converted to an 8-bit color image in a compressed TIFF file.
Color values are standard between DRG quadrangles. The USGS employs up to 13 colors on each DRG. Color values are contained in each TIFF file.
The digital image is accompanied by a metadata file that complies with the Federal Geographic Data Committee's Content Standards for Digital Geospatial Metadata (June 8, 1994).
The DRG's will be available on Compact Disc-Recordable (CD-R); each CD-R includes the USGS topographic maps for a 1-degree cell. For the contiguous States plus Hawaii, the cells will usually contain sixty-four 1:24,000-scale files, two 1:100,000-scale files and one 1:250,000-scale file. Variability in the number of files and area covered occurs over irregularly-shaped land masses; for example, 1-degree cells that encompass coastal areas may include fewer files.
Attribute and Positional Accuracy Requirements
The DRG uses a standard palette to ensure uniform color throughout a particular
map series. The RGB values for a particular color, therefore, will remain
consistent throughout that DRG series. Although the color values of the DRG may
sometimes match those of the paper source map, a user will usually notice small
differences between the colors on the digital image and on the paper map. Also,
the quality of the user's monitor affects the DRG color displayed. Although the
DRG generally contains the complete content of the source map, features may
occasionally be blurred because of substandard source materials.The DRG also may
contain misclassified pixels (color noise).
The horizontal positional accuracy of the DRG matches the accuracy of the published source map. To be consistent with other USGS digital data, the image is cast on the UTM projection and will, therefore, not always be consistent with the credit note on the image collar. Only the area inside the map neatline is georeferenced, so minor distortion of the text may occur in the map collar.
The distributed 1:24,000-scale DRG at 250 dpi will have a ground sample distance of 2.4 meters (8 feet).
Uses of a DRG
The DRG is useful as a backdrop onto which other digital data can be overlaid.
At the USGS, the DRG is used for validating DLG's and for DLG data collection
and revision. The DRG can help assess the completeness of digital data from
other mapping agencies. It can also be used to produce "hybrid" products. These
include combined DRG's and DOQ's for revising and collecting digital data, DRG's
and DEM's for creating shaded-relief DRG's, and combinations of DRG, DOQ, and
DLG data. Although a standard DRG is an effective mapping tool, its full
potential for digital production is realized in combination with other digital
data.
Source: United States Geological Survey (USGS)
This page has been
viewed
free hit counter
Since Nov. 12, 2003