Datasets:

IGNF
/

PureForest

@@ -30,8 +30,7 @@ This dataset includes 135,569 patches, each measuring 50m*50m, covering a cumula
 Each patch represents a monospecific forest, labeled with a single tree species to facilitate classification tasks.
 The proposed classification features 13 semantic classes, hierarchically grouping 18 tree species from 9 different tree genus.
-A reference train/val/test split is provided with class stratification.
-To account for spatial autocorrelation, each forest exclusively belongs to either the train, validation, or test set.
 | Class | Train (%) | Val (%) | Test (%) |
 |-------|------------:|----------:|-----------:|
@@ -64,15 +63,24 @@ Lidar points clouds            |  Aerial imagery
 ## Annotation
 Annotation were made at the forest level, and considering only monospecific forests. A semi-automatic approach was adopted in which pure forest polygons
-were selected and then curated by photointerpreters. The annotation polygons came from the [BD Forêt](https://inventaire-forestier.ign.fr/spip.php?article646),
 a forest vector database of tree species occupation in France. Ground truths from the F[rench National Forest Inventory](https://inventaire-forestier.ign.fr/?lang=en)
-were also used.
 ## Data Splits
 The polygons were sampled in southern France due to the partial availability of the Lidar data at the time of dataset creation.
-They are located in 40 distinct French administrative departments.
 ## Citation
 Please include a citation to the following article if you use the PureForest dataset:

 Each patch represents a monospecific forest, labeled with a single tree species to facilitate classification tasks.
 The proposed classification features 13 semantic classes, hierarchically grouping 18 tree species from 9 different tree genus.
+A reference train/val/test split is provided.
 | Class | Train (%) | Val (%) | Test (%) |
 |-------|------------:|----------:|-----------:|
 ## Annotation
 Annotation were made at the forest level, and considering only monospecific forests. A semi-automatic approach was adopted in which pure forest polygons
+were selected and then curated by expert photointerpreters from the IGN. The annotation polygons came from the [BD Forêt](https://inventaire-forestier.ign.fr/spip.php?article646),
 a forest vector database of tree species occupation in France. Ground truths from the F[rench National Forest Inventory](https://inventaire-forestier.ign.fr/?lang=en)
+were also used to improve the condidence in the purity of the forests.
 ## Data Splits
 The polygons were sampled in southern France due to the partial availability of the Lidar data at the time of dataset creation.
+They are located in 40 distinct French administrative departments, covering a large diversity of territories and forests.
+To define a common benchmark, we divided the data into train, validation, and test sets, with a stratification on semantic labels.
+Annotation polygons are scattered across southern France, leading to a good geographical diversity within each semantic class.
+To account for the high spatial autocorrelation, the split is performed at the annotation polygon level:
+each forest exclusively belongs to either the train, validation, or test set.
+This makes PureForest suitable to evaluate the territorial generalization of classification models.
+We aimed for a 70%-15%-15% split across the train, validation, and test sets, respectively.
+Approximate positions of forests in PureForest
+![](./dataset_extent_map.excalidraw.png)
 ## Citation
 Please include a citation to the following article if you use the PureForest dataset: