Datasets:

csaybar
/

CloudSEN12-scribble

	---
	license: cc-by-nc-4.0
	---

	# CloudSEN12 SCRIBBLE
	## A Benchmark Dataset for Cloud Semantic Understanding

	![CloudSEN12 Images](https://cloudsen12.github.io/thumbnails/cloudsen12.gif)

	CloudSEN12 is a LARGE dataset (~1 TB) for cloud semantic understanding that consists of 49,400 image patches (IP) that are
	evenly spread throughout all continents except Antarctica. Each IP covers 5090 x 5090 meters and contains data from Sentinel-2
	levels 1C and 2A, hand-crafted annotations of thick and thin clouds and cloud shadows, Sentinel-1 Synthetic Aperture Radar (SAR),
	digital elevation model, surface water occurrence, land cover classes, and cloud mask results from six cutting-edge
	cloud detection algorithms.

	CloudSEN12 is designed to support both weakly and self-/semi-supervised learning strategies by including three distinct forms of
	hand-crafted labeling data: high-quality, scribble and no-annotation. For more details on how we created the dataset see our
	paper.

	Ready to start using [CloudSEN12](https://cloudsen12.github.io/)?

	[Download Dataset](https://cloudsen12.github.io/download.html)

	[Paper - Scientific Data](https://www.nature.com/articles/s41597-022-01878-2)

	[Inference on a new S2 image](https://colab.research.google.com/github/cloudsen12/examples/blob/master/example02.ipynb)

	[Enter to cloudApp](https://github.com/cloudsen12/CloudApp)

	[CloudSEN12 in Google Earth Engine](https://gee-community-catalog.org/projects/cloudsen12/)


	<br>

	### Description

	<br>

	\| File \| Name \| Scale \| Wavelength \| Description \| Datatype \|
	\|---------------\|-----------------\|--------\|------------------------------\|------------------------------------------------------------------------------------------------------\|----------\|
	\| L1C_ & L2A_ \| B1 \| 0.0001 \| 443.9nm (S2A) / 442.3nm (S2B)\| Aerosols. \| np.int16 \|
	\| \| B2 \| 0.0001 \| 496.6nm (S2A) / 492.1nm (S2B)\| Blue. \| np.int16 \|
	\| \| B3 \| 0.0001 \| 560nm (S2A) / 559nm (S2B) \| Green. \| np.int16 \|
	\| \| B4 \| 0.0001 \| 664.5nm (S2A) / 665nm (S2B) \| Red. \| np.int16 \|
	\| \| B5 \| 0.0001 \| 703.9nm (S2A) / 703.8nm (S2B)\| Red Edge 1. \| np.int16 \|
	\| \| B6 \| 0.0001 \| 740.2nm (S2A) / 739.1nm (S2B)\| Red Edge 2. \| np.int16 \|
	\| \| B7 \| 0.0001 \| 782.5nm (S2A) / 779.7nm (S2B)\| Red Edge 3. \| np.int16 \|
	\| \| B8 \| 0.0001 \| 835.1nm (S2A) / 833nm (S2B) \| NIR. \| np.int16 \|
	\| \| B8A \| 0.0001 \| 864.8nm (S2A) / 864nm (S2B) \| Red Edge 4. \| np.int16 \|
	\| \| B9 \| 0.0001 \| 945nm (S2A) / 943.2nm (S2B) \| Water vapor. \| np.int16 \|
	\| \| B11 \| 0.0001 \| 1613.7nm (S2A) / 1610.4nm (S2B)\| SWIR 1. \| np.int16 \|
	\| \| B12 \| 0.0001 \| 2202.4nm (S2A) / 2185.7nm (S2B)\| SWIR 2. \| np.int16 \|
	\| L1C_ \| B10 \| 0.0001 \| 1373.5nm (S2A) / 1376.9nm (S2B)\| Cirrus. \| np.int16 \|
	\| L2A_ \| AOT \| 0.001 \| - \| Aerosol Optical Thickness. \| np.int16 \|
	\| \| WVP \| 0.001 \| - \| Water Vapor Pressure. \| np.int16 \|
	\| \| TCI_R \| 1 \| - \| True Color Image, Red. \| np.int16 \|
	\| \| TCI_G \| 1 \| - \| True Color Image, Green. \| np.int16 \|
	\| \| TCI_B \| 1 \| - \| True Color Image, Blue. \| np.int16 \|
	\| S1_ \| VV \| 1 \| 5.405GHz \| Dual-band cross-polarization, vertical transmit/horizontal receive. \|np.float32\|
	\| \| VH \| 1 \| 5.405GHz \| Single co-polarization, vertical transmit/vertical receive. \|np.float32\|
	\| \| angle \| 1 \| - \| Incidence angle generated by interpolating the ‘incidenceAngle’ property. \|np.float32\|
	\| EXTRA_ \| CDI \| 0.0001 \| - \| Cloud Displacement Index. \| np.int16 \|
	\| \| Shwdirection \| 0.01 \| - \| Azimuth. Values range from 0°- 360°. \| np.int16 \|
	\| \| elevation \| 1 \| - \| Elevation in meters. Obtained from MERIT Hydro datasets. \| np.int16 \|
	\| \| ocurrence \| 1 \| - \| JRC Global Surface Water. The frequency with which water was present. \| np.int16 \|
	\| \| LC100 \| 1 \| - \| Copernicus land cover product. CGLS-LC100 Collection 3. \| np.int16 \|
	\| \| LC10 \| 1 \| - \| ESA WorldCover 10m v100 product. \| np.int16 \|
	\| LABEL_ \| fmask \| 1 \| - \| Fmask4.0 cloud masking. \| np.int16 \|
	\| \| QA60 \| 1 \| - \| SEN2 Level-1C cloud mask. \| np.int8 \|
	\| \| s2cloudless \| 1 \| - \| sen2cloudless results. \| np.int8 \|
	\| \| sen2cor \| 1 \| - \| Scene Classification band. Obtained from SEN2 level 2A. \| np.int8 \|
	\| \| cd_fcnn_rgbi \| 1 \| - \| López-Puigdollers et al. results based on RGBI bands. \| np.int8 \|
	\| \|cd_fcnn_rgbi_swir\| 1 \| - \| López-Puigdollers et al. results based on RGBISWIR bands. \| np.int8 \|
	\| \| kappamask_L1C \| 1 \| - \| KappaMask results using SEN2 level L1C as input. \| np.int8 \|
	\| \| kappamask_L2A \| 1 \| - \| KappaMask results using SEN2 level L2A as input. \| np.int8 \|
	\| \| manual_hq \| 1 \| \| High-quality pixel-wise manual annotation. \| np.int8 \|
	\| \| manual_sc \| 1 \| \| Scribble manual annotation. \| np.int8 \|

	<br>


	### np.memmap shape information

	<br>

	train shape: (8785, 512, 512)
	<br>
	val shape: (560, 512, 512)
	<br>
	test shape: (655, 512, 512)

	<br>

	### Example

	<br>

	```py
	import numpy as np

	# Read high-quality train
	train_shape = (8785, 512, 512)
	B4X = np.memmap('train/L1C_B04.dat', dtype='int16', mode='r', shape=train_shape)
	y = np.memmap('train/manual_hq.dat', dtype='int8', mode='r', shape=train_shape)

	# Read high-quality val
	val_shape = (560, 512, 512)
	B4X = np.memmap('val/L1C_B04.dat', dtype='int16', mode='r', shape=val_shape)
	y = np.memmap('val/manual_hq.dat', dtype='int8', mode='r', shape=val_shape)


	# Read high-quality test
	test_shape = (655, 512, 512)
	B4X = np.memmap('test/L1C_B04.dat', dtype='int16', mode='r', shape=test_shape)
	y = np.memmap('test/manual_hq.dat', dtype='int8', mode='r', shape=test_shape)
	```
	<br>


	This work has been partially supported by the Spanish Ministry of Science and Innovation project
	PID2019-109026RB-I00 (MINECO-ERDF) and the Austrian Space Applications Programme within the
	[SemantiX project](https://austria-in-space.at/en/projects/2019/semantix.php).

	---
	license: cc-by-nc-4.0
	---

	# CloudSEN12 SCRIBBLE
	## A Benchmark Dataset for Cloud Semantic Understanding

	![CloudSEN12 Images](https://cloudsen12.github.io/thumbnails/cloudsen12.gif)

	CloudSEN12 is a LARGE dataset (~1 TB) for cloud semantic understanding that consists of 49,400 image patches (IP) that are
	evenly spread throughout all continents except Antarctica. Each IP covers 5090 x 5090 meters and contains data from Sentinel-2
	levels 1C and 2A, hand-crafted annotations of thick and thin clouds and cloud shadows, Sentinel-1 Synthetic Aperture Radar (SAR),
	digital elevation model, surface water occurrence, land cover classes, and cloud mask results from six cutting-edge
	cloud detection algorithms.

	CloudSEN12 is designed to support both weakly and self-/semi-supervised learning strategies by including three distinct forms of
	hand-crafted labeling data: high-quality, scribble and no-annotation. For more details on how we created the dataset see our
	paper.

	Ready to start using [CloudSEN12](https://cloudsen12.github.io/)?

	[Download Dataset](https://cloudsen12.github.io/download.html)

	[Paper - Scientific Data](https://www.nature.com/articles/s41597-022-01878-2)

	[Inference on a new S2 image](https://colab.research.google.com/github/cloudsen12/examples/blob/master/example02.ipynb)

	[Enter to cloudApp](https://github.com/cloudsen12/CloudApp)

	[CloudSEN12 in Google Earth Engine](https://gee-community-catalog.org/projects/cloudsen12/)


	<br>

	### Description

	<br>

	\| File \| Name \| Scale \| Wavelength \| Description \| Datatype \|
	\|---------------\|-----------------\|--------\|------------------------------\|------------------------------------------------------------------------------------------------------\|----------\|
	\| L1C_ & L2A_ \| B1 \| 0.0001 \| 443.9nm (S2A) / 442.3nm (S2B)\| Aerosols. \| np.int16 \|
	\| \| B2 \| 0.0001 \| 496.6nm (S2A) / 492.1nm (S2B)\| Blue. \| np.int16 \|
	\| \| B3 \| 0.0001 \| 560nm (S2A) / 559nm (S2B) \| Green. \| np.int16 \|
	\| \| B4 \| 0.0001 \| 664.5nm (S2A) / 665nm (S2B) \| Red. \| np.int16 \|
	\| \| B5 \| 0.0001 \| 703.9nm (S2A) / 703.8nm (S2B)\| Red Edge 1. \| np.int16 \|
	\| \| B6 \| 0.0001 \| 740.2nm (S2A) / 739.1nm (S2B)\| Red Edge 2. \| np.int16 \|
	\| \| B7 \| 0.0001 \| 782.5nm (S2A) / 779.7nm (S2B)\| Red Edge 3. \| np.int16 \|
	\| \| B8 \| 0.0001 \| 835.1nm (S2A) / 833nm (S2B) \| NIR. \| np.int16 \|
	\| \| B8A \| 0.0001 \| 864.8nm (S2A) / 864nm (S2B) \| Red Edge 4. \| np.int16 \|
	\| \| B9 \| 0.0001 \| 945nm (S2A) / 943.2nm (S2B) \| Water vapor. \| np.int16 \|
	\| \| B11 \| 0.0001 \| 1613.7nm (S2A) / 1610.4nm (S2B)\| SWIR 1. \| np.int16 \|
	\| \| B12 \| 0.0001 \| 2202.4nm (S2A) / 2185.7nm (S2B)\| SWIR 2. \| np.int16 \|
	\| L1C_ \| B10 \| 0.0001 \| 1373.5nm (S2A) / 1376.9nm (S2B)\| Cirrus. \| np.int16 \|
	\| L2A_ \| AOT \| 0.001 \| - \| Aerosol Optical Thickness. \| np.int16 \|
	\| \| WVP \| 0.001 \| - \| Water Vapor Pressure. \| np.int16 \|
	\| \| TCI_R \| 1 \| - \| True Color Image, Red. \| np.int16 \|
	\| \| TCI_G \| 1 \| - \| True Color Image, Green. \| np.int16 \|
	\| \| TCI_B \| 1 \| - \| True Color Image, Blue. \| np.int16 \|
	\| S1_ \| VV \| 1 \| 5.405GHz \| Dual-band cross-polarization, vertical transmit/horizontal receive. \|np.float32\|
	\| \| VH \| 1 \| 5.405GHz \| Single co-polarization, vertical transmit/vertical receive. \|np.float32\|
	\| \| angle \| 1 \| - \| Incidence angle generated by interpolating the ‘incidenceAngle’ property. \|np.float32\|
	\| EXTRA_ \| CDI \| 0.0001 \| - \| Cloud Displacement Index. \| np.int16 \|
	\| \| Shwdirection \| 0.01 \| - \| Azimuth. Values range from 0°- 360°. \| np.int16 \|
	\| \| elevation \| 1 \| - \| Elevation in meters. Obtained from MERIT Hydro datasets. \| np.int16 \|
	\| \| ocurrence \| 1 \| - \| JRC Global Surface Water. The frequency with which water was present. \| np.int16 \|
	\| \| LC100 \| 1 \| - \| Copernicus land cover product. CGLS-LC100 Collection 3. \| np.int16 \|
	\| \| LC10 \| 1 \| - \| ESA WorldCover 10m v100 product. \| np.int16 \|
	\| LABEL_ \| fmask \| 1 \| - \| Fmask4.0 cloud masking. \| np.int16 \|
	\| \| QA60 \| 1 \| - \| SEN2 Level-1C cloud mask. \| np.int8 \|
	\| \| s2cloudless \| 1 \| - \| sen2cloudless results. \| np.int8 \|
	\| \| sen2cor \| 1 \| - \| Scene Classification band. Obtained from SEN2 level 2A. \| np.int8 \|
	\| \| cd_fcnn_rgbi \| 1 \| - \| López-Puigdollers et al. results based on RGBI bands. \| np.int8 \|
	\| \|cd_fcnn_rgbi_swir\| 1 \| - \| López-Puigdollers et al. results based on RGBISWIR bands. \| np.int8 \|
	\| \| kappamask_L1C \| 1 \| - \| KappaMask results using SEN2 level L1C as input. \| np.int8 \|
	\| \| kappamask_L2A \| 1 \| - \| KappaMask results using SEN2 level L2A as input. \| np.int8 \|
	\| \| manual_hq \| 1 \| \| High-quality pixel-wise manual annotation. \| np.int8 \|
	\| \| manual_sc \| 1 \| \| Scribble manual annotation. \| np.int8 \|

	<br>


	### np.memmap shape information

	<br>

	train shape: (8785, 512, 512)
	<br>
	val shape: (560, 512, 512)
	<br>
	test shape: (655, 512, 512)

	<br>

	### Example

	<br>

	```py
	import numpy as np

	# Read high-quality train
	train_shape = (8785, 512, 512)
	B4X = np.memmap('train/L1C_B04.dat', dtype='int16', mode='r', shape=train_shape)
	y = np.memmap('train/manual_hq.dat', dtype='int8', mode='r', shape=train_shape)

	# Read high-quality val
	val_shape = (560, 512, 512)
	B4X = np.memmap('val/L1C_B04.dat', dtype='int16', mode='r', shape=val_shape)
	y = np.memmap('val/manual_hq.dat', dtype='int8', mode='r', shape=val_shape)


	# Read high-quality test
	test_shape = (655, 512, 512)
	B4X = np.memmap('test/L1C_B04.dat', dtype='int16', mode='r', shape=test_shape)
	y = np.memmap('test/manual_hq.dat', dtype='int8', mode='r', shape=test_shape)
	```
	<br>


	This work has been partially supported by the Spanish Ministry of Science and Innovation project
	PID2019-109026RB-I00 (MINECO-ERDF) and the Austrian Space Applications Programme within the
	[SemantiX project](https://austria-in-space.at/en/projects/2019/semantix.php).