ENVI Tutorial:
The DEM Extraction Module
Table of Contents
OVERVIEW OF THIS TUTORIAL ...............................................................................................................................................................1
Files Used in This Tutorial ................................................................................................................................................................1
WORKING WITH THE DEM EXTRACTION WIZARD..................................................................................................................................1
Inputting a Stereo Image Pair............................................................................................................................................................2
Defining Ground Control Points (GCPs) ..........................................................................................................................................2
Defining Tie Points ............................................................................................................................................................................3
Editing Tie Points................................................................................................................................................................................................4
Calculating Epipolar Geometry and Images........................................................................................................................................................5
Specifying Parameters .......................................................................................................................................................................6
Specifying DEM Output Projection Parameters ..................................................................................................................................................6
Specifying DEM Extraction Parameters..............................................................................................................................................................6
Examining Results..............................................................................................................................................................................7
Loading DEM Result to Display and Performing 3D SurfaceView ....................................................................................................................7
Loading DEM Result to Display with Editing Tool ............................................................................................................................................9
WORKING WITH THE STEREO 3D MEASUREMENT TOOL.........................................................................................................................9
WORKING WITH THE EPIPOLAR 3D CURSOR TOOL ...............................................................................................................................10
 Tutorial: The DEM Extraction Module
Overview of This Tutorial
This tutorial introduces the Digital Elevation Model (DEM) Extraction Module with functionality that enables you to extract
elevation data from stereo imagery to create a DEM. A DEM is a raster grid of elevation values that represent a surface.
DEMs are useful for many applications such as mapping, orthorectification, and land classification. They are often used to
create contour maps and perspective maps and for various types of land use planning applications.
The DEM Extraction Module allows you to extract DEMs from pushbroom stereo images, such as those coming from the
ASTER, IKONOS, OrbView3, QuickBird, and SPOT satellites. It is important that the imagery have associated rational
polynomial coefficients (RPCs) which contain necessary information about the sensor model. In addition, RPCs are used
in tie point generation and to calculate the stereo image pair relationship.
The DEM extraction process requires a stereo pair of images containing RPC positioning from either an along track or an
across track satellite acquisition. Along track stereo images are acquired on the same orbital pass by a satellite which
usually has more than one sensor looking at the Earth from different angles. Across track stereo images are those taken
by the same sensor on multiple orbits.
The DEM Extraction Module is comprised of the DEM Extraction Wizard and three DEM tools: the DEM Editing Tool, Stereo
Pair 3D Measurement Tool, and the Epipolar 3D Cursor Tool.
Note
The DEM Extraction Module requires an additional license in your installation; contact your ENVI sales
representative to obtain a license. If you are not licensed for the DEM Extraction Module, the tool will
be disabled.
In order to run this tutorial, you must have ENVI installed on your computer.
Files Used in This Tutorial
ENVI Resource DVD: envidata/ASTER/
U. S. Geological Survey Data. This ASTER Level 1 data are processed by the Japanese Ground Data System (GDS) and
archived by the Land Processes Distributed Active Archive Center (LP DAAC) at the USGS EROS Data Center (EDC). The
data contains advanced spaceborne thermal emission and reflection radiometer (ASTER) data files in the hierarchical data
format for earth observing system (HDF-EOS).
File Description
AST_L1A.hdf
ASTER Level 1 data
AST_L1A.hdf.met
Metadata for above
Input Stereo Image pair
Working with the DEM Extraction Wizard
DEM extraction is a multi-step decision making process involving the setting of
Define GCPs
many parameters used in different steps. These steps can be run individually, or
from within the DEM Extraction Wizard. The Wizard guides you through nine
steps, presenting you with objective parameters, such as minimum/maximum Define Tie Points
elevation of the area of interest, as well as other strategy parameters that
depend upon the terrain relief, cultural content, image quality, shadowing, and
Specify parameters
the desired speed of operation.
Right is a diagram of the DEM Extraction Wizard workflow.
Output DEM and
examine results
The Wizard allows you to step forward, backwards, and to save the workflow at
any step so that you can continue at a later time.
Edit DEM
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ENVI Tutorial: The DEM Extraction Module
 Tutorial: The DEM Extraction Module
Inputting a Stereo Image Pair
The DEM extraction process begins with input of a stereo image pair that contains or has associated RPCs. For this
demonstration, we will extract a DEM from an ASTER L1A product using the DEM Extraction Wizard. ASTER uses the
visible near infrared (VNIR) telescope s normal (3N) and backward (3B) viewing bands for along-track stereoscopic
observation. In this example, we will use the 3B band for the left image and the 3N band for the right image.
Select a stereo pair of images containing RPC positioning from either an along track or an across track satellite
acquisition.
1. Before attempting to start the program, ensure that ENVI is properly installed as described in the Installation
Guide that shipped with your software, then start ENVI.
2. From the ENVI main menu bar, select File Open
External File EOS ASTER.
3. Navigate to the envidata\ASTER directory, select
the file AST_L1A.hdf from the list, and click
Open. The Available Bands List is displayed.
4. From the ENVI main menu bar, select
Topographic DEM Extraction
DEM Extraction Wizard New.
5. Click the Select Stereo Images button. The
Select Left Stereo Pair Image dialog appears. The
order of the data entry here should not matter.
However, in tools such as the tie point generation,
you will likely see different tie point selections and
calculated errors because the solution will be
different.
6. Select ASTER VNIR Band3N and click OK. The
Select Right Stereo Pair Image dialog appears.
7. Select ASTER VNIR Band3B and click OK. ENVI
estimates the scene minimum and maximum
elevations using the associated RPC information
and a World DEM file included in the ENVI sample datasets.
8. Click Next to continue.
Defining Ground Control Points (GCPs)
In the second step of the Wizard, you will be provided with
the option to define or use existing GCPs. When defining
GCPs, you can choose any of the following options:
" No GCPs. Choosing this option would result in a
relative DEM, which is a DEM with possible
differences in position, scale and rotation from
geodetic coordinates on the ground and mean sea
level.
" Define GCPs Interactively. Choosing this option
would require that you manually enter, load, and
edit GCPs that will tie the DEM to a planar map
projection. The result of which would be an
absolute DEM. An absolute DEM uses ground
control and has horizontal and vertical references
systems tied to these geodetic coordinates.
" Read GCPs From File. Choosing this option would require that you select a GCP file from which to read GCPs.
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 Tutorial: The DEM Extraction Module
For this exercise, you will not use GCPs so the resulting DEM values will be relative elevations.
1. Click the No GCPs radio button. Note that the Examine and Edit Stereo GCPs option (step 3 of 9) is not
available. It is only available if you have loaded a GCP file into the Wizard.
2. Click Next to continue. ENVI skips Step 3 and moves you to Step 4.
Defining Tie Points
Next, the relationship between the stereo images must be defined by selecting or generating tie points. The tie points
are used to define the epipolar geometry and create epipolar images, which are used to extract the DEM. When defining
tie points, you can choose any of the following options:
" Generate Tie Points Automatically. ENVI can generate tie points automatically, based on terrain features
within the image.
" Define Tie Points Interactively. Choosing this option would require that you manually define tie points
between the two stereo images.
" Read Tie Points From File. Choosing this option would require that you select a tie point file from which to
read the tie points.
For this exercise, you will generate tie points automatically.
1. Click the Generate Tie Points Automatically radio
button.
Automatic tie point generation requires four parameters
to be specified:
" The Number of Tie Points you wish to
generate.
" The Search Window Size and the Moving
Window Size. The Search Window is a
defined subset of the image. The Moving
Window defines an area within the Search
Window that is used to scan and find a
topographic feature match for a tie point
placement. The size of these windows should
be considered with respect to the spatial
resolution of the data. For example, higher
spatial resolution data, such as sub-meter
QuickBird imagery, should use larger window
sizes in order to increase the reliability of
finding similar features between the stereo
image Moving Windows.
" The Region Elevation is the average
elevation of the region based on the dominant
elevation of the image. It is estimated based on the associated RPC information.
Note
Increasing the number of tie points, the Search Window size, and/or the Moving Window size will
increase the processing time but should also increase the reliability of the matching.
2. Increase the number in the Search Window Size field to 101 (type and replace the current number in the field
or use the increase/decrease buttons). Note that the Search Window Size is always an odd number in square
pixels and must be larger than the Moving Window Size.
3. Increase the number in the Moving Window Size field to 19, which is reasonable for 15 m ASTER data.
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ENVI Tutorial: The DEM Extraction Module
 Tutorial: The DEM Extraction Module
4. Ensure that the Examine and Edit Tie Points toggle is set to Yes so that you can review the tie points and edit
those which are less than optimal, then click Next to continue. It may take a few minutes to generate the tie
points.
Editing Tie Points
Once the tie points have been generated, step 5 of 9 of the DEM Extraction Wizard (View and Edit Tie Points) will display
both images and tie points for examination. Explore and experiment with the options in this step. You can use the Reset
button to undo the last change.
1. Try manually entering x and y locations for the left and right images.
2. Move the Zoom box to a new location in one of the
images and click Update to update the tie point.
3. Use the Current Tie Point arrow buttons to examine
each point.
4. Click the Likely Error Rankings drop-down button.
This lists the tie points in order of relative likelihood of
error. The first tie point listed is considered the  most
likely to have error. However, it is possible that the
top ranking tie point has very little error since it is only
an approximation. In this case, you should check
through the list for pixels with obvious misalignment
but with lower error.
5. Use the Auto Predict section to help estimate
placement of the tie point in the image.
6. Examine the Maximum Y Parallax value displayed
on the Wizard screen to see if you have improved the
amount of error in the tie points. Any time you update
a tie point, you should examine the Y Parallax value.
It provides an estimate, in pixels, of displacement
between the images in the y direction. Tie points
should be adjusted so that the Y Parallax is minimized.
Ideally, it would display 0, indicating no offset in the y
direction - all points are displaced in the x direction
only. The maximum allowable Y Parallax value is 10
pixels. You must reduce the value to less than 10 in
order to continue DEM extraction.
7. Once you have a Y Parallax under 10 pixels, click Next
to continue.
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 Tutorial: The DEM Extraction Module
Calculating Epipolar Geometry and Images
Using the tie points, ENVI will calculate the epipolar geometry and epipolar images that are used to extract the DEM.
These epipolar images describe the relationship between the pixels in the stereo pair and they can be viewed in 3D using
anaglyph glasses. However, it should be noted that approximately 10% of the population cannot see in stereo, so the
images may not appear in 3D for these individuals.
1. The epipolar parameters dialog allows you to enter
the name for the left and right epipolar images and
select how and where you wish to output the
images.
2. You also have the option in this dialog to apply an
Epipolar Reduction Factor, which will reduce the
resolution of the extracted DEM. This is useful if
you do not require a full resolution DEM for your
application or demo as it will take less processing
time to create the DEM. For example, this ASTER
stereo pair has a resolution of 15m. If the
requirement was for a 30m DEM, you could reduce
the DEM by 2 using the Epipolar Reduction
Factor.
3. Using the Examine Epipolar Results option, you
can view the epipolar images prior to the DEM
extraction. The images can be viewed in 3D using
the anaglyph glasses provided in your software
package.
You can view the images using two different RGB
triplets. The first option allows you to view the left
epipolar image as red and the right epipolar image
as green and blue. The second option allows you
to view the right epipolar image as red and the left
epipolar image as green and blue.
Click RGB=Left,Right,Right. The resulting
epipolar image is displayed as an RGB triplet. If
viewed through the anaglyph glasses, the image
will appear in 3D.
Depending on which image was initially entered as
the right or left stereo image, the RGB triplets can
be viewed as an inverse where peaks appear as valleys
4. Click Next to continue.
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ENVI Tutorial: The DEM Extraction Module
 Tutorial: The DEM Extraction Module
Specifying Parameters
Now that you have created the epipolar images, you will need
to specify the DEM output projection and extraction
parameters.
Specifying DEM Output Projection Parameters
Step 7 of the DEM Extraction Wizard allows you to set
parameters for the DEM output projection and map extents.
You have the option to change things such as the output
projection type, pixel size, or output image size. Experiment
with some of the following options.
" You can change the Eastings and Northings fields
(E and N respectively) to Latitude and Longitude
(Lat and Lon) by clicking the toggle button next to
the map projection field.
" Click the Change Proj button to change the projection
or projection units.
" You can type in values for X Pixel Size and Y Pixel
Size in the fields provided.
" The Output X Size and Output Y Size values
describe the output DEM size in pixels. This is the
overlapping region of your output projection.
" The Options drop-down button allows you to set the
output size units, choose options when pixel sizes
change, restore initial values on this step of the
Wizard, and use the map extent from an existing file.
For this exercise, you will use the defaults provided for this screen.
1. Examine the options provided.
2. Click Next to continue.
Specifying DEM Extraction Parameters
Step 8 of the DEM Extraction Wizard allows you to specify the parameters
for the DEM extraction. Here you can define thresholds, set the size of the
area in which you wish to perform image matching, determine the level of
terrain detail, and specify where to save your DEM result.
" The Minimum Correlation value is the correlation coefficient
threshold used to determine whether or not the points within the
Moving Windows are a good match. If a correlation coefficient is
smaller than this minimum, then the points are not considered to
be a good match. In general, correlation values between 0.65 and
0.85 are reasonable, but for larger Moving Window sizes, a less
strict correlation can be used.
" Edge Trimming indicates the normalized percentage of trimming
to be applied to the outer edges of the output DEM.
" The Moving Window Size defines the area in which to compute
the correlation coefficients between the two images. As with
automatic tie point generation, a larger window size should be used
with higher resolution imagery in order to increase the reliability of
finding similar features within the Moving Window.
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ENVI Tutorial: The DEM Extraction Module
 Tutorial: The DEM Extraction Module
" From the Terrain Relief drop-down list, you can select the type of terrain your DEM best represents. Select Low
if the terrain consists primarily of flat areas and low-terrain relief. The DEM will have a smoothed effect.
Moderate is the default option, which is appropriate for most terrain types. Select High if the terrain consists
primarily of mountainous and high-terrain relief. Topographic features with large relief displacement are not
smoothed.
" DEM extraction uses image matching to find matching features on the left and right image of the stereo pair. The
use of Terrain Detail determines how precisely you wish to represent the terrain in the DEM output. This option
controls the number of image pyramid levels used during image matching. The levels range between Level 1
(minimum) and N (maximum), where N is determined by the epipolar image resolution. Level 1 terrain detail
indicates that image matching stops after the coarsest level of image matching is finished. Level N indicates that
image matching is performed on the highest image resolution possible (the epipolar image resolution). Higher
levels of terrain detail will require a more rigorous level of image matching and will affect the processing time
required to extract the DEM.
" You can set parameters for the DEM result. These parameters include the Output Data Type field, which allows
you to choose between Integer (default) or Floating Point. You can also choose to save the output to File
(default) or Memory, and you can select where you wish to save the DEM result.
For this exercise, you will use the defaults provided for this screen to produce a moderately detailed DEM.
1. Examine the options provided.
2. Type or choose a filename in Output DEM Filename field.
3. Click Next to start the DEM extraction process. The processing time required can be significant, depending on
your choices for Moving Window Size and Terrain Detail. As the processing completes, the various files created
(Left Epipolar Image, Right Epipolar Image, and Elevation result) appear in the Available Bands List.
Examining Results
Once your DEM extraction is complete, you can examine and/or edit the resulting DEM. The last screen of the Wizard
provides two options; both options will load the DEM result to a display group, but one will also open the DEM Editing
Tool so you can edit the DEM. You will explore each of the options in this step to examine and edit the resulting DEM.
Loading DEM Result to Display and Performing 3D SurfaceView
To begin, you will load the DEM result to display and perform a 3D surface view using the spectral bands from the original
ASTER image to examine the DEM results.
1. Click the Load DEM Results to Display button (do not close the DEM Extraction Wizard). Since this extracted
DEM has been projected using the UTM coordinate system, you will need to use a projected image to perform the
overlay in order to have properly aligned image and DEM pixels.
2. From the ENVI main menu bar, select Basic Tools Preprocessing Data-Specific Utilities ASTER
Georeference Data. This option will georeference the VNIR bands of the ASTER 1A data.
3. Select the AST_L1A.hdf file and click OK (see image below).
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ENVI Tutorial: The DEM Extraction Module
 Tutorial: The DEM Extraction Module
4. Select UTM and click OK.
5. In the Output Result to area, select File, type or choose a file name and location, and click OK.
6. Now you will load a color infrared (CIR) image. From the Available Bands List, right-click the file you just created
and select Load CIR to . Move the Image box in the Scroll window to an area in the image.
7. From the Display group menu bar, select Tools 3D SurfaceView.
8. Select the newly created DEM Elevation input band and click OK.
9. Accept the default parameters to display the surface by clicking OK.
10. Look for unusual artifacts. Use the Options menu in the 3D SurfaceView window to set options for viewing the
image. If you find areas that you wish to alter, you can use the DEM Editing Tool.
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ENVI Tutorial: The DEM Extraction Module
 Tutorial: The DEM Extraction Module
Loading DEM Result to Display with Editing Tool
The DEM Editing Tool, which is a component of the DEM Extraction Module, allows you to interactively edit pixel values
within a region of interest (ROI) using one of seven different methods.
1. From the DEM Extraction Wizard dialog, click the Load DEM Result to Display with Editing Tool to open the
DEM in a display group with the DEM Editing Tool available.
2. Move the Image box in the Scroll window to an area in the image.
3. Draw a polygon ROI by clicking the left mouse button in the Image window to establish the first point of the ROI
polygon then selecting further border points in sequence by clicking the left button again. Close the polygon by
clicking the right mouse button.
4. Using the DEM Editing Tool, the new ROI, or the entire
DEM, can be replaced with a single value, a smoothing
filter, with the mean of the area, and so on. Explore the
options available in the Method drop-down list in the DEM
Editing Tool dialog.
If you are satisfied with your edits, you can save the file
with the new values. If you do not like the effect, you can
choose to undo your edits to the DEM.
The DEM Editing Tool can also be used on spectral data to
edit pixels in a single band.
5. For this exercise, you do not have to save your edits. Click
Cancel.
6. Click Finish then click No to close the DEM Extraction
Wizard without saving your place in the Wizard.
Working with the Stereo 3D
Measurement Tool
The Stereo 3D Measurement Tool is another tool available with the DEM
Extraction Module. This tool allows you to interactively calculate elevations from
stereo images and associated RPC information given a single tie point.
1. From the ENVI main menu bar, select Topographic DEM Extraction
Stereo 3D Measurement.
2. Select the ASTER VNIR Band3N option and click OK.
3. Select the ASTER VNIR Band3B option and click OK.
4. In either the left or right Image window, move the Zoom box over a
feature whose 3D measurement you wish to collect. Using the buttons on
the Stereo 3D Measurement Tool dialog, click Predict Right or Predict
Left to have the Zoom box in the second image center on the conjugate
point.
5. Click Get Map Location to compute the Lat/Lon and elevation based on
the RPS and selected points. The regional elevation is estimated from the
RPC information, but if you have a more accurate elevation for the region,
then you can enter this value here.
6. You could choose to collect and save these points as an ENVI vector file
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ENVI Tutorial: The DEM Extraction Module
 Tutorial: The DEM Extraction Module
or as a 3D shapefile using the Export Location button.
7. Click Cancel to close the Stereo 3D Measurement Tool.
Working with the Epipolar 3D Cursor Tool
The Epipolar 3D Cursor Tool is another tool available with the DEM Extraction Module. This tool allows you to perform 3D
measurements in a 3D stereo viewing environment based on an existing epipolar stereo pair of images. You can view an
anaglyph of epipolar stereo imagery and adjust the height of the cursor to extract elevation data. As you view the
surface, you can collect points then export them as points, lines, or polygons to an ASCII file, EVF file, or ArcView 3D
Shapefile.
1. From the ENVI main menu bar, select Topographic DEM Extraction Epipolar 3D Cursor.
2. Select the Left Epipolar Image option and click OK.
3. Select the Right Epipolar Image option and click OK. The
epipolar stereo image opens in a new display group, with left
epipolar image as the red band, and the right epipolar image as
the blue band.
4. The cursor in the Image window is now a double red and blue
cursor which, when viewed using the anaglyph red/blue stereo
glasses, merges together into a single cursor. You can control the
3D cursor using specific mouse and keyboard controls.
" Use the mouse to move the 3D cursor around the
epipolar stereo image.
" Click the left mouse button to snap the 3D cursor to the
ground.
" Click the middle mouse button to export the map and
elevation for the point to an ENVI Point Collection table.
" Use the right and left arrow keys on the keyboard to
move the 3D cursor one pixel to the right or left.
" Use the up or down arrow keys on the keyboard to move
the 3D cursor one pixel toward the top or bottom of the
image.
" Use the + or - key on the keyboard number pad to raise
or lower the apparent elevation of the 3D cursor.
5. Once you have explored some of the options available in the
Epipolar 3D Cursor Tool, click Cancel to close the tool.
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ENVI Tutorial: The DEM Extraction Module


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