OpenEarthMap Land Cover Mapping Few-Shot Learning Challenge
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1.
RIKEN Center for Advanced Intelligence Project
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2.
The University of Tokyo
Description
***The challenge is over, please use the Verion 3 which contains all the data and files for post-challenge research***
Overview
This challenge is co-organized with the L3D-IVU 2024 CVPR workshop. The challenge is an extension of the OpenEarthMap benchmark dataset for a generalized few-shot semantic segmentation (GFSS) task. The challenge aims to evaluate and benchmark learning methods for few-shot semantic segmentation on the OpenEarthMap dataset to promote research on geoinformatics for social good. The motivation is to enable researchers to develop few-shot learning algorithms for high-resolution RS image semantic segmentation.
Page
https://cliffbb.github.io/OEM-Fewshot-Challenge/
Baseline
The baseline model for the challenge is available here.
Leaderboard
See the challenge submission at the Codalab.
Description
The dataset has been designed for remote sensing few-shot learning, particularly, for GFSS tasks in land cover mapping. The dataset consists of only 408 samples from the original OpenEarthMap dataset for RS image semantic segmentation. It extends the original 8 semantic classes of the OpenEarthmap benchmark to 15 classes, which is split into 7:4:4 for train_base_class, val_novel_class, and test_novel_class disjointed sets, respectively (i.e., train_base_class ∩ val_novel_class ∩ test_novel_class = ∅). The 408 samples are also split into 258 as `trainset`, 50 as `valset`, and 100 as `testset`. The `trainset` is for pre-training a backbone network. It contains only the images and labels of the train_base_class split. Both the `valset` and the `testset` consist of a support set and a query set for a 5-shot with 4 novel classes and 7 base classes GFSS task. The `valset` and the `testset` contain the images and labels of the val_novel_class and the test_novel_class splits, respectively.
The challenge is in two phases: development phase and evaluation phase. The `valset` is for the development phase and the `testsets` is for the evaluation phase. Both `valset` and `testset` have 20 image-label pair examples, 5-set examples for each of the 4 novel classes in the support set. The `valset` and the `testset` contain an additional 30 images and 80 images, respectively, in the query set, which are to be predicted using the 20 labelled images in their support set. The labels for each image in the support sets do not contain any of the train_base_class split. Also, in each 5-set examples, the labels contain only one novel class (i.e., one novel class per 5-set examples). However, in the `valset`, the labels for the images in the query set contain both train_base_class and val_novel_class; and in the `testset, the labels for the images in the query set contain both train_base_class and test_novel_class `. Note that both the support set and query set in the `valset` are different from the ones in the `testset`.
File Structure and Content (All files are in `.tif` format): ----------------------------------------------------------- 1. **trainset.zip**: - Contains `images` and `labels` folders - `images` folder: 258 images of size 1024x1024 with a GSD (Ground Sampling Distance) of 0.6-1m.
- `labels` folder: 258 segmentation masks of the images in the `images` folder. 2. **valset.zip**:
- Contains `images` and `labels` folders
- `images` folder: 50 images of size 1024x1024 with a GSD (Ground Sampling Distance) of 0.6-1m.
- `labels` folder: 20 labels of the ``support set`` images in the `images` folder. The labels for
the 30 ``query set`` images in the `images` folder are withheld.
3. **testset.zip**:
- Contains `images` and `labels` folders
- `images` folder: 100 images of size 1024x1024 with a GSD (Ground Sampling Distance) of 0.6-1m.
- `labels` folder: 20 labels of the ``support set`` images in the `images` folder. The labels for
the 80 ``query set`` images in the `images` folder are withheld.
4. **train.txt**:
- Contains a list of file names in the `trainset.zip`.
3. **val.json** and **test.json**:
- Contains a list of file names the in the `valset.zip` and `testset.zip`, respectively. Below is
the structure of the `val.json` and `test.json` files.
- fnames = {
{"support_set": {8: ["filename_1.tif", "filename_2.tif", ...., "filename_5.tif"],
9: ["filename_1.tif", "filename_2.tif", ...., "filename_5.tif"],
10: ["filename_1.tif", "filename_2.tif", ...., "filename_5.tif"],
11: ["filename_1.tif", "filename_2.tif", ...., "filename_5.tif"]},
{"query_set": ["filename_1.tif", "filename_2.tif", "filename_3.tif", ...
....,
"filename_n.tif"]}
}
Land Cover Mapping Classes Strucure: ------------------------------------
1. **The `trainset`:
classId2className = {
# ***Base classes*** 1: 'tree', 2: 'rangeland', 3: 'bareland', 4: 'agric land type 1', 5: 'road type 1', 6: 'sea, lake, & pond', 7: 'building type 1'
}
2. **The `valset` and `testset`:
classId2className = {
# ***Base classes*** 1: 'tree', 2: 'rangeland', 3: 'bareland', 4: 'agric land type 1', 5: 'road type 1', 6: 'sea, lake, & pond', 7: 'building type 1'
# ***Novel classes***
8: '',
9: '',
10: '',
11: ''
}
- The class names for the ***Novel classes*** depends on the data set.
For the `valset`, the class names can be updated as:
{
8: 'road type 2',
9: 'river',
10: 'boat & ship',
11: 'agric land type 2'
}
For the `testset`, the class names can be updated as:
{
8: 'vehicle & cargo-trailer',
9: 'parking space',
10: 'sports field',
11: 'building type 2'
}
License
See OpenEarthMap
Files
valset.zip
Files
(919.4 MB)
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