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  • Input file to the "2nd stage Image Stacking" service (step 5) of the Ailanthus Workflow within the Internal Joint Initiative. It represents the autumn multi-spectral (8 bands) image (vegetation at the post peak of biomass) acquired from Worldview-2 satellite at 2 meters spatial resolution. The data needs to be georeferenced and a surface reflectance product. These data will be stacked with coregistered images from the other season to be used as input to the supervised data-driven classifier. File format: raster geotiff.

  • Input file to the "2nd stage Image Stacking" service (step 5) of the Ailanthus Workflow within the Internal Joint Initiative. It represents the summer multi-spectral (8 bands) image (vegetation at the dry season) acquired from Worldview-2 satellite at 2 meters spatial resolution. The data needs to be georeferenced and a surface reflectance product. These data will be stacked with coregistered images from the other season to be used as input to the supervised data-driven classifier. File format: raster geotiff.

  • Output file from the "2nd stage Image Stacking" service (step 5) and the input file to the "Extractor Resampler and Masking" service (step 8) of the Ailanthus Workflow within the Internal Joint Initiative. It is a multi-layer file containing the two multi-season images each one with its 8 bands. File format: raster geotiff.

  • Output file from the "Extractor Resampler and Masking" service (step 8) and input file to the "2nd stage Data-driven Classifier" service (step 9) of the Ailanthus Workflow within the Internal Joint Initiative. It is a multi-layer file containing the two multi-season images each one with its 8 bands in which those pixels not classified as deciduous vegetation from first stage land cover mapping are masked. File format: raster geotiff.