/usr/share/doc/dx/help/dxall601 is in dx-doc 1:4.4.4-9.
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#!CSeaGreen #!N #!Rcntiso Contours and Isosurfaces #!N #!EC #!N #!N Given
a set of samples taken over a presumably continuous region, it
is meaningful to consider drawing smooth lines connecting together the locations
on the grid containing the same data values. You are probably
familiar with topographic maps that show contour lines connecting together the
same values of elevation of the Earth's surface features, such as
hills and valleys. These lines are called "contour lines" or "isolines"
( #!F-adobe-times-medium-i-normal--18* iso #!EF means "same" or "equal"). In most cases,
the places on the surface of the sample grid that have
identical data values will not coincide with the grid sample points.
This is another case where the "connections" component is required for
Data Explorer to determine where on the grid the same value
occurs (say the value 5.2) in order to create lines connecting
together all these locations. #!N #!N To return to our 3-dimensional
data set taken from the atmosphere. Since we have collected data
throughout a 3-dimensional space, we can identify volumetric elements defined by
connecting adjacent grid sample points in three dimensions using a "connections"
component like cubes. It now becomes possible to draw "isosurfaces" rather
than "isolines." An #!F-adobe-times-medium-i-normal--18* isosurface #!EF is that surface cutting through
a volume on which all data values are equal to a
specified value. Depending on the actual distribution of the data, isosurfaces
may look more or less like flat sheets (the isosurface of
"sea level" in a data set of elevations would look like
this); it might enclose a portion of our space or appear
as a whole set of small disconnected surfaces or enclosed spaces.
#!N #!N To create an isosurface, we pick a value of
interest. Suppose that according to our knowledge of meteorology, we know
that the dew point (at which water condenses from vapor to
liquid) is 12 degrees C in our sample. Although we measured
temperatures at only a fixed number of grid points, we are
interested in seeing where rain formation may begin throughout the atmosphere.
We could show only the sample points highlighted by themselves, but
once again, we make a reasonable assumption that we have taken
discrete samples from a continuous natural volume. In other words, rain
formation will not simply occur at the limited set of discrete
points where we have sampled temperatures of 12 degrees C, but
at all the points in between that are also at 12
degrees. How do we find all those in-between points? By interpolating
through the volumetric elements between adjacent sample points. And in fact,
the Isosurface module will do this automatically. #!N #!N The resulting
isosurface will represent all values of 12 degrees C throughout our
volume of sampled space. The actual image depends on the distribution
of the data, of course. If the outside of a rain
cloud were at exactly 12 degrees C, we would see a
shape resembling a cloud in the sky. But if rain formed
at an altitude where the temperature was 12 degrees C, we
would instead expect to see a flat sheet. Or we may
not know what to expect: that is one of the uses
of visualization, as well--for discovery, not just for verification. #!N #!N
Generally, the vertices that describe the mesh positions of an isosurface
will #!F-adobe-times-medium-i-normal--18* not #!EF coincide with the original grid points. It
is important to realize that an Isosurface is a new and
valid Data Explorer Field with positions and connections and a data
component (in which all data values are identical). You can treat
this Field just like any data Field you have imported. Color
mapping such a Field is not particularly useful since all the
data values are identical, so you will get the same color
for every point. #!N #!N To draw contour lines on a
2-dimensional grid, you also use the Isosurface module. Data Explorer figures
out the dimensionality of the visualization by looking at the input
data. Thus, a biologist's 2-D grid can be easily contour-mapped with
the same tool as a meteorologist's 3-D volume, but the visual
output will be appropriately different for the different inputs. Similar to
Isosurface's contour lines is the output of the Band module. This
yields filled regions between contours; these bands can be colored by
a color map or AutoColor to yield the kind of image
frequently used to show temperature distributions on a weather map. #!N
#!N #!N #!F-adobe-times-medium-i-normal--18* Next Topic #!EF #!N #!N #!Lmaping,dxall602 h Mapping #!EL #!N #!F-adobe-times-medium-i-normal--18*
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