CSO
Contour Objects (CSO)
Contour Segmented Objects (CSOs) in MeVisLab
Introduction
Structure of CSOs
MeVisLab provides modules to create contours in images. 3D objects which encapsulate these contours are called Contour Segmented Objects (CSOs).
In the next image, you can see a rectangular shaped CSO. The pink circles you can see are called Seed Points.
Seed Points define the shape of the CSO. In case of a rectangle, you need four Seed Points forming the corners, to define the whole rectangle.
Contour Example 1: Creation of Contours
Contour Example 1: Creation of Contours
Introduction
We like to start with the creation of CSOs. To create CSOs, you need a SoCSO*
-Editor. There are several different editors, which can be used to create CSOs (see here). Some of them are introduced in this example.
Steps to do
Develop your network
For this example, we need the following modules. Add the modules to your workspace, connect them as shown below and load the example image $(DemoDataPath)/BrainMultiModal/ProbandT1.tif.
Contour Example 2: Contour Interpolation
Contour Example 2: Creating Contours using Live Wire and Interpolation
Introduction
In this example, we like to create CSOs using the Live Wire Algorithm, which allows semi-automatic CSO creation. The algorithm uses edge detection to support the user creating CSOs.
We also like to interpolate CSOs over slices. That means additional CSOs are generated between manual segmentations based on a linear interpolation.
Contour Example 3: 2D and 3D Visualization of Contours
Contour Example 3: Overlay Creation and 3D Visualization of Contours
Introduction
In this example, we’d like to use the created CSOs to display an overlay. This allows us to mark one of two lungs. In addition to that, we will display the whole segmented lobe of the lung in a 3D image.
Steps to do
Develop your network
Use the network from the contour example 2 and add the modules VoxelizeCSO
,
SoView2DOverlay
and View2D
to your workspace. Connect the module as
shown. The module VoxelizeCSO
allows to convert CSOs into voxel images.
Contour Example 4: Annotation of Images
Contour Example 4: Annotation of Images
Introduction
In this example we like to calculate the volume of our object, in this case the part of the lung we have segmented.
Steps to do
Develop your network and calculate the lung volume
Add the module CalculateVolume
and SoView2DAnnotation
to your workspace
and connect both modules as shown. Update the module CalculateVolume
,
which directly shows the volume of our object.
Contour Example 5: Contours and Ghosting
Contour Example 5: Visualizing Contours and Images
Introduction
In this example, we like to automatically create CSOs based on a predefined iso value.
Steps to do
Develop your network
Add the following modules to your workspace and connect them as shown. Load the example image Bone.tiff.
Automatic creation of CSOs based on the iso value
Now, open the panel of CSOIsoGenerator
to set the Iso Value to 1200. If you press Update in
the panel, you can see the creation of CSOs on every slide, when opening
the module View2D
. In addition to that the number of CSOs is displayed in the CSOManager
. The module
CSOIsoGenerator
generates iso-contours for each slice at a fixed iso
value. This means that closed CSOs are formed based on the detection of the
voxel value of 1200 on every slice.
Contour Example 6: Adding Labels to Contours
Contour Example 6: Adding Labels to Contours
Introduction
In this example, we are adding a label to a contour. The label provides information about measurements and about the contour itself. The label remains connected to the contour and can be moved via mouse interactions.
Steps to do
Develop your network
Add a LocalImage
and a View2D
module to your workspace and connect them as shown below. Load the file ProbandT1.dcm from MeVisLab demo data. In order to create contours (CSOs), we need a SoView2DCSOExtensibleEditor
module. It manages attached CSO editors, renderers and offers an optional default renderer for all types of CSOs.
Contour Example 7: Using the CSOListContainer
Contour Example 7: Using the CSOListContainer
Introduction
In this example, we are using the module CSOListContainer
instead of the CSOManager
. The CSOManager
is a heavy weight, UI driven module. You can use it to see all of your CSOs, CSOLists and CSOGroups in the module panel. The CSOListContainer
is a light weight module with focus on Python scripting. We recommend to use this module for final application development, because Python provides much more flexibility in handling CSO objects.