Sentinel-1 maritime mesocyclone dataset

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Grahn, Jakob; Bianchi, Filippo Maria, 2022, "Sentinel-1 maritime mesocyclone dataset", https://doi.org/10.18710/FV5T9U, DataverseNO, V1

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Description	This dataset consists of 2004 geocoded Sentinel-1 image samples, divided into two classes: one class with mesocyclones being present in the images (class "pos"), and one class with mesocyclones being absent (class "neg"). The dataset is divided in training and test set. The training set contains 1,547 images (254 of class "pos", 1,293 of class "neg"). The test set contains 435 images (64 of class "pos", 371 of class "neg"). The dataset was used for the first time in the paper "Recognition of polar lows in Sentinel-1 SAR images with deep learning", where a detailed description of the dataset formation is presented. In the paper, the dataset is used to study the possibility of detecting polar lows in C-band SAR images. Specifically, a deep learning model was trained to classify the labelled images. Evaluated on an independent test set, the model yields an F-1 score of 0.95, indicating that polar lows can be consistently detected from SAR images. Interpretability techniques applied to the deep learning model reveal that atmospheric fronts and cyclonic eyes are key features in the classification. Moreover, experimental results show that the model is accurate even if: (i) such features are significantly cropped due to the limited swath width of the SAR, (ii) the features are partly covered by sea ice and (iii) land is covering significant parts of the images. By evaluating the model performance on multiple input image resolutions (pixel sizes of 500m, 1km and 2km), it is found that higher resolutions yield the best performance. This emphasises the potential of using high-resolution sensors like SAR for detecting polar lows, as compared to conventionally used sensors such as scatterometers. (2022-03-30)
Subject	Earth and Environmental Sciences; Computer and Information Science
Keyword	Polar lows, Mesocyclones, Deep learning, Synthetic Aperture Radar (SAR)
Related Publication	J. Grahn, F. M. Bianchi, "Recognition of polar lows in Sentinel-1 SAR images with deep learning", 2022doi: 10.48550/arXiv.2203.16401
License/Data Use Agreement	CC0 1.0

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Citation Metadata

Persistent Identifier	doi:10.18710/FV5T9U
Publication Date	2022-04-13
Title	Sentinel-1 maritime mesocyclone dataset
Author	NORCE Norwegian Research Centre0000-0003-2575-9075 UiT The Arctic University of Norway0000-0002-7145-3846
Point of Contact	Use email button above to contact. Grahn, Jakob (NORCE Norwegian Research Centre)
Description	This dataset consists of 2004 geocoded Sentinel-1 image samples, divided into two classes: one class with mesocyclones being present in the images (class "pos"), and one class with mesocyclones being absent (class "neg"). The dataset is divided in training and test set. The training set contains 1,547 images (254 of class "pos", 1,293 of class "neg"). The test set contains 435 images (64 of class "pos", 371 of class "neg"). The dataset was used for the first time in the paper "Recognition of polar lows in Sentinel-1 SAR images with deep learning", where a detailed description of the dataset formation is presented. In the paper, the dataset is used to study the possibility of detecting polar lows in C-band SAR images. Specifically, a deep learning model was trained to classify the labelled images. Evaluated on an independent test set, the model yields an F-1 score of 0.95, indicating that polar lows can be consistently detected from SAR images. Interpretability techniques applied to the deep learning model reveal that atmospheric fronts and cyclonic eyes are key features in the classification. Moreover, experimental results show that the model is accurate even if: (i) such features are significantly cropped due to the limited swath width of the SAR, (ii) the features are partly covered by sea ice and (iii) land is covering significant parts of the images. By evaluating the model performance on multiple input image resolutions (pixel sizes of 500m, 1km and 2km), it is found that higher resolutions yield the best performance. This emphasises the potential of using high-resolution sensors like SAR for detecting polar lows, as compared to conventionally used sensors such as scatterometers. (2022-03-30)
Subject	Earth and Environmental Sciences; Computer and Information Science
Keyword	Polar lows Mesocyclones Deep learning Synthetic Aperture Radar (SAR)
Related Publication	J. Grahn, F. M. Bianchi, "Recognition of polar lows in Sentinel-1 SAR images with deep learning", 2022 doi 10.48550/arXiv.2203.16401 https://doi.org/10.48550/arXiv.2203.16401
Language	English
Producer	Grahn, Jakob (NORCE The Norwegian Research Centre AS) (NORCE) https://www.norceresearch.no/personer/jakob-grahn
Contributor	Data Collector: Grahn, Jakob Project Member: Bianchi, Filippo Maria Related Person: Hindberg, Heidi Related Person: Larsen, Yngvar Related Person: Grydeland, Tom
Funding Information	European space agency (ESA): Open call project Polar low detection based on Sentinel-1 data - Grant nr. 4000129961
Distributor	UiT The Arctic University of Norway (UiT The Arctic University of Norway) https://dataverse.no/dataverse/uit
Depositor	Bianchi, Filippo Maria
Deposit Date	2022-03-30
Time Period	Start Date: 2015-01-01; End Date: 2020-12-31
Date of Collection	Start Date: 2021-10-20
Data Type	Observation data
Software	GDAR
Data Source	Contains modified Copernicus Sentinel Data [2015-2020]. The images in the dataset are based on Sentinel-1 ground range detected (GRD) products, which were downloaded from the Alaska Satellite Facility (ASF).

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