Difference between revisions of "Basic detector workflow for Lacey grids"
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==Workflow GUI== | ==Workflow GUI== | ||
− | The GUI allows for independent execution of each step. | + | The GUI allows for independent execution of each step. Alternatively, the user can just click on 'run all' (at the right bottom corner of the GUI) to execute all the steps at once. If any viewing GUI is opened, the result of each step will update automatically. |
+ | When the last step it's computed, the results will be exported to the main Hole Picker GUI. | ||
+ | |||
[[File:BasicLaceyWorkflowGUI.png|thumb|center|500px| Steps in the basic lacey workflow]] | [[File:BasicLaceyWorkflowGUI.png|thumb|center|500px| Steps in the basic lacey workflow]] | ||
Revision as of 17:19, 13 February 2017
This is the default detection workflow for the Hole Picker, suitable for Lacey grids. Its execution GUI comprises 8 steps.
Contents
Algorithmic steps
Sobel filtering
Produces and image that enhances the boundaries between holes and carbon.
Boundary dilation
Uses the dilation morphological operator to widen the found boundaries.
Binarization
Size based roi selection
Thinning of selected points
Point reordering
Workflow GUI
The GUI allows for independent execution of each step. Alternatively, the user can just click on 'run all' (at the right bottom corner of the GUI) to execute all the steps at once. If any viewing GUI is opened, the result of each step will update automatically. When the last step it's computed, the results will be exported to the main Hole Picker GUI.
Support tools
With the Visualization menu in the workflow GUI you can launch a view that represents the result of all the steps in the workflow, updating the results after each execution.