Erode/Dilate Bad Data¶
Bad data refers to a Cell that has a Feature Id of 0, which means the Cell has failed some sort of test and been marked as a bad Cell. If the bad data is dilated, the Filter grows the bad data by one Cell in an iterative sequence for a user defined number of iterations. During the dilate process the Feature Id of any Cell neighboring a bad Cell will be changed to 0. If the bad data is eroded, the Filter shrinks the bad data by one Cell in an iterative sequence for a user defined number of iterations. During the erode process the Feature Id of the bad Cell is changed from 0 to the Feature Id of the majority of its neighbors. If there is a tie between two Feature Ids, then one of the Feature Ids, chosen randomly, will be assigned to the bad Cell. If Replace Bad Data is selected, all Attribute Arrays will be replaced with their neighbor's value during erosion/dilation (instead of only Feature Id). The Filter also offers the option(s) to turn on/off the erosion or dilation in specific directions (X, Y or Z).
Goals a user might be trying to accomplish with this Filter include:
- Remove small or thin regions of bad data by running a single (or two) iteration erode operation.
- Increase the size of a bad data region by running an dilate operation. This might be useful if the experimental technique tends to underestimates the size of certain objects. For example, when running EBSD, the pores (which show up as bad data) are generally smaller in the scans than in the specimen, because the beam, when it is just inside the pore, still can pick up signal from the material just beneath the pore.
Running the erode-dilate operations in pairs can often change the size of some objects without affecting others. For example, if there were a number of big pores and a number of single bad Cells, running a single erode operation would remove the single Cells and reduce the pores by one Cell. If this is followed immediately by a dilate operation, then the pores would grow by one Cell and return to near their original size, while the single Cells would remain removed and not "grow back".
|Operation||Enumeration||Whether to dilate or erode|
|Number of Iterations||int32_t||The number of iterations to use for erosion/dilation|
|X Direction||bool||Whether to erode/dilate in the X direction|
|Y Direction||bool||Whether to erode/dilate in the Y direction|
|Z Direction||bool||Whether to erode/dilate in the Z direction|
|Replace Bad Data||bool||Whether to replace all data or just Feature Ids|
|Kind||Default Name||Type||Component Dimensions||Description|
|Cell Attribute Array||FeatureIds||int32_t||(1)||Specifies to which Feature each Cell belongs|
- (10) SmallIN100 Full Reconstruction
- (07) SmallIN100 Final Processing
- 04_Steiner Compact
License & Copyright¶
Please see the description file distributed with this Plugin
DREAM.3D Mailing Lists¶
If you need more help with a Filter, please consider asking your question on the DREAM.3D Users Google group!