Georeferencing of UAV photos

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(Quality Check)
(Preparation)
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# Open Qgis with a new project.
 
# Open Qgis with a new project.
 
# Prepare main Qgis map viewer:
 
# Prepare main Qgis map viewer:
* Load a vector file with Ground Control Points (GCPs) that were signalized on ground and measured by a high precision differential GNSS receiver : {{typed|text=geodata\uas\gcp_points.gpkg}}.
+
* Load a vector file with Ground Control Points (GCPs) that were signalized on ground and measured by a high precision differential GNSS receiver : {{typed|text=geodata\uas\gcp_points.shp}}.
 
Note, the Project Coordinate system switches automatically to '''EPSG:32632 (WGS84 / UTM zone 32N)''' which may be checked on the lower right of the QGIS Map Canvas.
 
Note, the Project Coordinate system switches automatically to '''EPSG:32632 (WGS84 / UTM zone 32N)''' which may be checked on the lower right of the QGIS Map Canvas.
 
* Add an aerial ortho photo map as background layer. Open the Datasource manager [[Image:QGIS_3.0_datasource.png|30px]] and establish a connection to a map server: {{mitem|text=Browser --> XYZ Tiles --> Google Satellite}}.  
 
* Add an aerial ortho photo map as background layer. Open the Datasource manager [[Image:QGIS_3.0_datasource.png|30px]] and establish a connection to a map server: {{mitem|text=Browser --> XYZ Tiles --> Google Satellite}}.  

Revision as of 21:21, 6 November 2021

Contents

Preparation

  1. Open Qgis with a new project.
  2. Prepare main Qgis map viewer:
  • Load a vector file with Ground Control Points (GCPs) that were signalized on ground and measured by a high precision differential GNSS receiver : geodata\uas\gcp_points.shp.

Note, the Project Coordinate system switches automatically to EPSG:32632 (WGS84 / UTM zone 32N) which may be checked on the lower right of the QGIS Map Canvas.

  • Add an aerial ortho photo map as background layer. Open the Datasource manager QGIS 3.0 datasource.png and establish a connection to a map server: Browser --> XYZ Tiles --> Google Satellite.
  • Make sure that the GCP vector file is on top of Google Satellite in the Layers panel by dragging and dropping the file.
  • Right click on the vector layer name in the Layers panel and Zoom to layer.
  • Change the color of the point markers: Right click on Layer name in the Layers panel Layer Properties--> Symbology
  • Show labels of the GCP layer: Layer Properties--> Label. Switch to Single lable. Open the Value dropdown list and select the attribute "Comment". In sub menu Text you may change font color and font size.

Qgis geo prepare.png

Registration of ground control points (GCP)

  • Open Raster –-> Georeferencer.
  • QGIS 2.0 addrast.png Open a UAV photo that has no spatial reference system (raw image coordinates): geodata\uas\mavic_ortho_rgba.tif.
  • In the Georeferencer window open Settings --> Configure Georeferencer. Check the box beside Show IDs. Choose Residual Units: Use map units if possible.
  • Add ground control points: First, navigate to a ground control point in the UAV image (e.g. cross signal). Zoom in with the magnifying glass or use the mouse roller.
  • Zoom in to a point which you can recognize on both the UAV photo and on Google maps in the main Qgis viewer.
  • Click on Add point on toolbar.

Georef menu.png. A cross shows up. Move the cursor to the first ground control point (cross signal).

info.png Panning without leaving the activated gcp registration
Just press the spacebar!

Zoom in using the mouse roller, mark the cross center with the cursor, register the position in the image by a left click. A new window Enter map coordinates opens. Click From map canvas. The Georeferencer window will now minimize automatically.

  • Pan and zoom to the same point in Google maps in the main viewer. Left click on the point: the coordinates in the Coordinate Reference System of the main viewer are now transferred directly to the "Enter map coordinates" window. OK.

Qgis geo addp.png

  • Zoom to the next control point, activate Add point and continue until 5 GCPs (S01, S02, S03, S04, S06) are registered.
  • For changing the position of a point that is already defined activate Move point. Move gcp.png. Move the point by a permanent left click.
  • For deleting a GCP activate Delete point Delete gcp.png and click on the point. Alternatively click on a point in the GCP table, right click Remove.
  • Save the registered GCP points. File --> Save GCP points as .... Save.

Transformation and Resampling

  • Define the transformation settings. Click on Transform settings button.png and determine the following settings:

Qgis geo transform.png

The Target SRS should be the same as the GCP coordinates and the project CRS: EPSG: 32632, WGS84/ UTM Zone 32N. First, try the transformation type Linear. The horizontal Residuals are now displayed in the last column of the GCP table. In the first column of the table individual points can be switch on or off. Check if the mean error (root mean square error) shown in the grey bar at the bottom of the window can be improved. Change the transformation type to Helmert.

  • Click on Play Play.png to create the final georeferenced image file that is loaded into the main Qgis viewer. Compare the results of different transformation types (e.g. Helmert and Thin Plate Spline)

Quality Check

  • Double click on the reprojected layer to open Layer Properties --> Transparency and change Global Opacity to about 60% by moving the slider Apply. Install the Map Swipe tool Plugin. This is a tool to make a layer or a group as a curtain above all layers of the map view. It helps checking the geometric quality.
  • Compare the geometry of the reprojected layer with Google maps.
  • Compare the results of two transformation types Helmert and Thin Plate Spline.
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