Talk:Region Growing Segmentation

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* When prompted, select an empty Startup Project
 
* When prompted, select an empty Startup Project
[[File:SAGA1.PNG|400px|]]
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[[File:SAGA1.PNG|300px|]]
  
  
 
* Click the [[File:SAGA2.PNG]] button
 
* Click the [[File:SAGA2.PNG]] button
* Change [[File:SAGA3.PNG]] to {{button|text=All files}}
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* Change [[File:SAGA3.PNG|300px|]] to {{button|text=All files}}
 
* Open all split band images and the superimposed seed raster '''one after another'''
 
* Open all split band images and the superimposed seed raster '''one after another'''
 
* The layer panel on the left should now look like this:
 
* The layer panel on the left should now look like this:
  
[[File:SAGA3.PNG]]
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[[File:SAGA4.PNG]]
  
 
* In the line below {{button|text=Grids}} you see the extend of your raster files. If you happen to see two different of those lines, your raster images to not match 100 %. You can fix that again with the {{button|text=Superimpose sensor}} Tool in the OTB library
 
* In the line below {{button|text=Grids}} you see the extend of your raster files. If you happen to see two different of those lines, your raster images to not match 100 %. You can fix that again with the {{button|text=Superimpose sensor}} Tool in the OTB library

Revision as of 14:43, 9 April 2018

Contents

Region Growing Segementation with Saga's Seeded Region Growing Tool

The following tutorial explains how to delineate tree crowns, using SAGA's Seeded Region Growing Tool. The product, a polygon shapefile, can then be used in an object based classification, f.ex. in order to classify different tree species.



Material you need to complete the tutorial

Data

A multispectral image of the forest canopy

A canopy height model CHM

Software

QGIS 2.18.11

SAGA 2.3.2


Split multiband image into several raster images

SAGA's Region Growing Algorithm works only with single band images. Therefor, we have to split our multiband image into its individual bands following these instructions.


Seed points

The first step here is to extract the position of the tree tops, which are going to be the starting point for the region growing algorithm. You find a description of how to derive the seed points from a CHM here . Now have a look at how the seeds align with your multiband image


Unfiltered seed points.PNG


In this picture you see, that the points align well with the tree tops. However, there are many points that represent small trees (in the lower left corner) which you might not be so interested in. In order to correct that, we are going to filter the points by their height in the seed shapefile and save the shapefile with the selected seeds only as a new shapefile. If the seed points do not fit the image well, it might be due to the fact that you are using an orthophoto and not a true orthophoto. If you are working only with a smaller dataset you can help it by using the Georeferencer in the Raster menu by rubberheeting your orthophoto to make it fit. You'll find the instructions for doing so here.


This looks much better:


Filtered seed points.PNG



Seed point rasterization

In order to use the seed points in the region growing algorithm in SAGA, we have to convert the vector file to a raster file using the Rasterize module from the GDAL Conversions in QGIS. It is critical that we create a raster file that only contains the seed points and no-data. So every pixel outside the seed points has to be no-data. It is also critical that our rasterized vector image has the exact same CRS, extend and pixel size as the single band images.

  • In the Processing Toolbox, type 'rasterize' and select the Rasterize tool ind the SAGA geoalgorithms submenu
  • Select the seed point shapefile as input
  • Use the parameters shown in the screen shot or explained below
  • Select ID as Attribute and the other parameters according to the screenshot below
  • Select the extend of one of the band splits as extend by clicking select canvas/ layers extend in the Output extend line
  • Copy the exact cellsize from either the metadata of one of your split images and set output raster size to Output resolution in map units per pixel
  • Open the Advanced parameters menu and select the parameters shown in the screen shot
  • Save to a local file


Rasterize.PNG


The result should look like this:


Universe2.PNG




Now verify that the newly created seed point raster aligns 100% with one of the band split raster by checking the metadata and zooming into the seed pixels. Also check with the Info buttonInfo.PNG, if any pixel which is not a seed point, is no-data.

Your raster should align like this:


Seedpixel.PNG


Superimpose Vector

It happens regularly that, although following the previous steps meticulously, that the extend and pixel size of the rasterized vector file does not match the splitted band images 100 %. In this case we have to use the OTB Superimpose Vector tool that you can find in the Processing Toolbox.

  • Open the Superimpose Vector tool in the Processing Toolbox.
  • Select one of the split band images as Reference input
  • Select the rasterized seed point shapefile as The image to reproject
  • Fill in the other parameters as shown here:

Superimpose.PNG


Next, go to the Properties of the newly created layer in the Layers Panel

  • Check the extend of the layer in the Metadata tab.
  • Go to Styles, load max/min values and set the Color Gradient to White to black

The result should look very much the same as the first rasterized vector, but the extend and pixel size are now 100 % the same as in

the split band images.


Region Growing

Now we finally made it to the fun part of the whole exercise, which is creating the segments around the tops of the trees i.e. the seed points. Therefor we open SAGA GIS.

  • When prompted, select an empty Startup Project

SAGA1.PNG


  • Click the SAGA2.PNG button
  • Change SAGA3.PNG to All files
  • Open all split band images and the superimposed seed raster one after another
  • The layer panel on the left should now look like this:

SAGA4.PNG

  • In the line below Grids you see the extend of your raster files. If you happen to see two different of those lines, your raster images to not match 100 %. You can fix that again with the Superimpose sensor Tool in the OTB library
  • Go to the Geoprocessing menu and select Find and Run tool
  • Write ' region growing' and select SAGA6.PNG


  • Select the one grid on offer
  • Select your seed point raster as Seeds
  • Select your splitted band images as Features
  • Select create in Segments, Similarity and Tables<<Seeds
  • Select Normalize
  • Select 4 (von Neumann
  • Select feature space and position
  • Insert the values shown in the picture and click Okay twice

Region growing mask.PNG

After a short while, SAGA will have finished the calculation and you'll notice two new layers in the layer panel. Double-click on Segments and you hopefully see the first fruit of all the effort that you put into this exercise:


Region growing segments.PNG

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