KMeansClassification - Unsupervised KMeans image classification¶
Unsupervised KMeans image classification
Detailed description¶
Performs unsupervised KMeans image classification.KMeansClassification is a composite application, using an existing training and classification application.The SharkKMeans model is used. The steps of this composite application : 1) ImageEnveloppe : create a shapefile (1 polygon), 2) PolygonClassStatistics : compute the statistics, 3) SampleSelection : select the samples by constant strategy in the shapefile (1000000 samples max), 4) SamplesExtraction : extract the samples descriptors (update of SampleSelection output file), 5) ComputeImagesStatistics : compute images second order statistics, 6) TrainVectorClassifier : train the SharkKMeans model, 7) ImageClassifier : performs the classification of the input image according to a model file.
It’s possible to choice random/periodic modes of the SampleSelection application. If you want keep the temporary files (sample selected, model file, ...), initialize cleanup parameter. For more information on shark KMeans algorithm [1].
Parameters¶
This section describes in details the parameters available for this application. Table [1] presents a summary of these parameters and the parameters keys to be used in command-line and programming languages. Application key is KMeansClassification .
| [1] | Table: Parameters table for Unsupervised KMeans image classification. |
| Parameter Key | Parameter Name | Parameter Type |
|---|---|---|
| in | Input Image | Input image |
| out | Output Image | Output image |
| nc | Number of classes | Int |
| ts | Training set size | Int |
| maxit | Maximum number of iterations | Int |
| outmeans | Centroid filename | Output File name |
| ram | Available RAM (Mb) | Int |
| sampler | Sampler type | Choices |
| sampler periodic | Periodic sampler | Choice |
| sampler random | Random sampler | Choice |
| sampler.periodic.jitter | Jitter amplitude | Int |
| vm | Validity Mask | Input image |
| nodatalabel | Label mask value | Int |
| cleanup | Temporary files cleaning | Boolean |
| rand | set user defined seed | Int |
| inxml | Load otb application from xml file | XML input parameters file |
| outxml | Save otb application to xml file | XML output parameters file |
Input Image: Input image filename.
Output Image: Output image containing class labels.
Number of classes: Number of modes, which will be used to generate class membership.
Training set size: Size of the training set (in pixels).
Maximum number of iterations: Maximum number of iterations for the learning step.
Centroid filename: Output text file containing centroid positions.
Available RAM (Mb): Available memory for processing (in MB).
Sampler type: Type of sampling (periodic, pattern based, random). Available choices are:
- Periodic sampler: Takes samples regularly spaced.
- Jitter amplitude: Jitter amplitude added during sample selection (0 = no jitter).
- Random sampler: The positions to select are randomly shuffled.
Validity Mask: Validity mask, only non-zero pixels will be used to estimate KMeans modes.
Label mask value: By default, hidden pixels will have the assigned label 0 in the output image. It’s possible to define the label mask by another value, but be careful to not take a label from another class. This application initialize the labels from 0 to N-1, N is the number of class (defined by ‘nc’ parameter).
Temporary files cleaning: If activated, the application will try to clean all temporary files it created.
set user defined seed: Set specific seed. with integer value.
Load otb application from xml file: Load otb application from xml file.
Save otb application to xml file: Save otb application to xml file.
Example¶
To run this example in command-line, use the following:
otbcli_KMeansClassification -in QB_1_ortho.tif -ts 1000 -nc 5 -maxit 1000 -out ClassificationFilterOutput.tif uint8
To run this example from Python, use the following code snippet:
#!/usr/bin/python
# Import the otb applications package
import otbApplication
# The following line creates an instance of the KMeansClassification application
KMeansClassification = otbApplication.Registry.CreateApplication("KMeansClassification")
# The following lines set all the application parameters:
KMeansClassification.SetParameterString("in", "QB_1_ortho.tif")
KMeansClassification.SetParameterInt("ts", 1000)
KMeansClassification.SetParameterInt("nc", 5)
KMeansClassification.SetParameterInt("maxit", 1000)
KMeansClassification.SetParameterString("out", "ClassificationFilterOutput.tif")
KMeansClassification.SetParameterOutputImagePixelType("out", 1)
# The following line execute the application
KMeansClassification.ExecuteAndWriteOutput()
Limitations¶
None
Authors¶
This application has been written by OTB-Team.
See Also¶
- These additional resources can be useful for further information:
- ImageEnveloppe PolygonClassStatistics SampleSelection SamplesExtraction PolygonClassStatistics TrainVectorClassifier ImageClassifier