Difference between revisions of "DEM"

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* Choose '''ground''' classification and '''Last return''' option to create a terrain model from LAS data.
 
* Choose '''ground''' classification and '''Last return''' option to create a terrain model from LAS data.
 
* Choose all classifications and '''First return''' option to create a surface model from LAS data.
 
* Choose all classifications and '''First return''' option to create a surface model from LAS data.
[[File:Hint.jpg]] During LAS data import a classification image and a intensity image are created and loaded as background maps. A difference image between the first and last return is created if the '''All returns''' option in the DEM Import dialog is choosen.
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[[File:Hint.jpg]] During LAS data import a classification image and a intensity image are created and loaded as background maps. A difference image between the first and last return is created if the '''All returns''' option in the DEM Import dialog is choosen.<br>
 
[[File:Hint.jpg]] A Radar beam splits as it hits objects. The result are multiple returns. LIDAR can collect up to four returns. The difference between first and last return can show object height. The last return doesn’t always reach the ground.
 
[[File:Hint.jpg]] A Radar beam splits as it hits objects. The result are multiple returns. LIDAR can collect up to four returns. The difference between first and last return can show object height. The last return doesn’t always reach the ground.
  

Revision as of 14:18, 30 April 2012

A DEM (Digital Elevation Model) contains points with elevation data. DEM Data are based on LIDAR (Light Detection and Ranging) technology measurement, also known as Airborne Laser Scanning. There are DEM with point data arranged in a regular grid with a constant distance between the points. This distance is called cell size. Other DEM contain data points arranged irregularly (cloud-model).

Read more about this topic: http://en.wikipedia.org/wiki/Digital_elevation_model

DEM.jpg

Import

The OCAD DEM Module is able to import files with regular and irregular DEM data. Supported DEM data formats are: ESRI ASCII Grid (*.asc), Raw data ASCII XYZ file (*.xyz), ASCII Grid XYZ file (*.xyz), LAS file (*.las) and SRTM file (*.hgt) file.

  1. Open a map or create a new one.
  2. Select Import from the DEM menu. First use Add button to add at least 1 DEM to the DEM Import dialog.
  3. Analyze the DEM to get some information about the DEM like extent, cell size etc.
  4. If the source file is a regular grid (data type of import files = grid), the Cell size box is set to read only. OCAD sets the same cell size for the imported DEM. For irregular DEM data source (data type of import files = raw) the cell size can be set in the 'cell size' box. For these DEM's OCAD interpolates a regular grid with the specified cell size during the import.
  5. At the end of the import procedure the imported DEM must be saved in the OCAD DEM file format (*.ocdDem) and it is loaded to the OCAD map.
  6. To see the extent of the loaded DEM activate the Show Frame menu item.


hint The Cell size range is between 0.01 and 650 m.
hint For DEM's with negative elevation values use the option Do not save negative height values to set them to 0.
Hint.jpg DEM import is limited to approximately 25 mio. data points, resp. 20 mio. data points for LAS files.


File:DEMImport.PNG

LAS data import:

  • Choose ground classification and Last return option to create a terrain model from LAS data.
  • Choose all classifications and First return option to create a surface model from LAS data.

Hint.jpg During LAS data import a classification image and a intensity image are created and loaded as background maps. A difference image between the first and last return is created if the All returns option in the DEM Import dialog is choosen.
Hint.jpg A Radar beam splits as it hits objects. The result are multiple returns. LIDAR can collect up to four returns. The difference between first and last return can show object height. The last return doesn’t always reach the ground.

DemImportLas MultipleReturn.jpg
Source: Lohani, Bharat. Airborne Altimetric LiDAR: Principle, Data Collection, Processing and Applications.


SRTM hgt data import:

  • This is a world wide available DEM data set from the Shuttle Radar Topography Mission (SRTM).
  • The data files and documentation: [1]

Hint.jpg SRTM hgt data import requires that a coordinate system set in the OCAD map file.

Open

Open an OCAD DEM file (*ocdDem).


Show Frame

Shows blue rectangle with the extent of the loaded DEM.


Resize

Resize OCAD DEM file (make a subset) and save it as a new OCAD DEM file.


Info

Shows information about OCAD DEM file.


Close

Close OCAD DEM file.


Merge DEM

miniatur

To merge two different DEMs, choose Merge from DEM menu.


  • DEM 1: Choose the first DEM.
  • DEM 2: Choose the second DEM.


Hint.jpg The two DEMs must have the same data format, cell size and image clipping.


Calculate DEM Difference

miniatur
  1. Choose Calculate DEM Difference from DEM menu.
  2. The Calculate DEM Difference dialog box appears.
  3. Add Upper DEM = DSM data file
  4. Add Lower DEM = DEM data file
  5. Click OK.


To visualize the DEM difference choose [Classify Vegetation Height]


  • No difference between the elevation models appears black.
  • The greater the difference, the whiter it appears.


Hint.jpg Same data format, cell size and clipping of DSM and DEM required.

Create Contour Lines

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This function calculates contour lines based on the loaded DEM.

  • Define 1-3 contour intervals (for example 1m, 5m, 25m) and a pre-selected line symbol (according to the first three line symbols in the settings) for each type appears (can be changed).
Hint.jpg Contour interval values can be entered manually or chosen from the list.
  • Specify the minimum (lowest) and maximum (highest) contour for the calculation.

ContourLines.PNG

Create Hypsometric Map

miniatur
This function calculates a grayscale or colored hypsometric map as GeoTIFF file.
Optionally it is directly loaded as background map.


Two different types of hypsometric maps can be edited:

  • Grayscale hypsometric map
  • Colored hypsometric map

HypsometricMap.PNG

Create Hill Shading

miniatur
This function calculates a shaded relief picture (hill shading).


There are two calculation methods available:
  • Slope shading is optimized to see outlines of features like paths in a slope.
  • Slope shading combined with oblique light shading is the recommended method if the hill shading should be used as a background relief of a map. Optionally the calculated hill shading is directly loaded as background map.


Aside from the chosen method an Azimuth and a Declination of the light source has to be set. Standard settings are 315° (north-west) and 45°. An Exaggeration factor of 4 is pre-selected and can be altered.

HillShading.PNG

Calculate Slope Gradient

miniatur
Choose Calculate Slope Gradient from DEM menu.
The Calculate Slope Gradient dialog box appears.


Select one of two different methods:

  • Continous (<x° = grayscale / >x° = black)
  • Black/White (<x° = white / >x° = black)

The resulting picture can be used to identify cliffs an rock faces. The result can sometimes be significantly improved with a slight adjustment of the gradient (between 42-45 degrees).

Slope gradient also shows paths or relief features independent from a azimut like the Hill Shading.

SlopeGradient.PNG

Classify Vegetation Height

Choose Classify Vegetation Height from DEM menu.


There are two different options to show vegetation height classification:

  • gray scale classification
  • Color classification

File:VegetationHeight.PNG

Legend for color classification:

Meter statement refers to the difference between the two DEMs.
Legend VegetationHeight.PNG

Create Profile

Create Profile command is activated if 1 line object in the map is selected. The command calculates a profile for the selected line object. In the DEM Profile dialog box choose between Auto scale option and a manually set Scale. Turn on/off Grid. The Elevation factor is the scale factor between the vertical and horizontal profile axis. The Elevation resolution and the Length resolution are filters that influence the calculation of the total ascent and total descent. These resolution values should not be more accurate than the elevation resolution and cell size of the DEM. It is possible to Add the profile to the actual OCAD map, to Export it as *.ocd, *.bmp or *.gif file or to print it.

hint DEM Profile dialog is a non-modal dialog. The user can switch between it and the OCAD map window. It is possible to edit the selected line object in the OCAD map. Click the Update button in the DEM Profile dialog to see the profile for the edited object.

Export Profile

ToDo

Export

DEMExport.PNG

Export OCAD DEM file as ESRI ASCII Grid or as ASCII Grid XYZ. Select Create tiles for large DEMs.

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