Samuel J. Valman
An AI approach to operationalise global daily PlanetScope satellite imagery for river water masking
Valman, Samuel J.; Boyd, Doreen S.; Carbonneau, Patrice E.; Johnson, Matthew F.; Dugdale, Stephen J.
Authors
Professor DOREEN BOYD doreen.boyd@nottingham.ac.uk
PROFESSOR OF EARTH OBSERVATION
Patrice E. Carbonneau
Dr MATTHEW JOHNSON M.JOHNSON@NOTTINGHAM.AC.UK
ASSOCIATE PROFESSOR
Dr STEPHEN DUGDALE STEPHEN.DUGDALE@NOTTINGHAM.AC.UK
ASSOCIATE PROFESSOR
Abstract
Monitoring rivers is vital to manage the invaluable ecosystem services they provide, and also to mitigate the risks they pose to property and life through flooding and drought. Due to the vast extent and dynamic nature of river systems, Earth Observation (EO) is one of the best ways to measure river characteristics. As a first step, EO-based river monitoring often requires extraction of accurate pixel-level water masks, but satellite images traditionally used for this purpose suffer from limited spatial and/or temporal resolution. We address this problem by applying a novel Convolutional Neural Network (CNN)-based model to automate water mask extraction from daily 3 m resolution PlanetScope satellite imagery. Notably, this approach overcomes radiometric issues that frequently present limitations when working with CubeSat data. We test our classification model on 36 rivers across 12 global terrestrial biomes (as proxies for the environmental and physical characteristics that lead to the variability in catchments around the globe). Using a relatively shallow CNN classification model, our approach produced a median F1 accuracy score of 0.93, suggesting that a compact and efficient CNN-based model can work as well as, if not better than, the very deep neural networks conventionally used in similar studies, whilst requiring less training data and computational power. We further show that our model, specialised to the task at hand, performs better than a state-of-the-art Fully Convolutional Neural Network (FCN) that struggles with the highly variable image quality from PlanetScope. Although classifying rivers that were narrower than 60 m, anastomosed or highly urbanised was slightly less successful than our other test images, we showed that fine tuning could circumvent these limitations to some degree. Indeed, fine tuning carried out on the Ottawa River, Canada, by including just 5 additional site-specific training images significantly improved classification accuracy (F1 increased from 0.81 to 0.90, p < 0.01). Overall, our results show that CNN-based classification applied to PlanetScope imagery is a viable tool for producing accurate, temporally dynamic river water masks, opening up possibilities for river monitoring investigations where high temporal variability data is essential.
Citation
Valman, S. J., Boyd, D. S., Carbonneau, P. E., Johnson, M. F., & Dugdale, S. J. (2024). An AI approach to operationalise global daily PlanetScope satellite imagery for river water masking. Remote Sensing of Environment, 301, Article 113932. https://doi.org/10.1016/j.rse.2023.113932
Journal Article Type | Article |
---|---|
Acceptance Date | Nov 27, 2023 |
Online Publication Date | Dec 7, 2023 |
Publication Date | Feb 1, 2024 |
Deposit Date | Dec 8, 2023 |
Publicly Available Date | Dec 12, 2023 |
Journal | Remote Sensing of Environment |
Print ISSN | 0034-4257 |
Electronic ISSN | 1879-0704 |
Publisher | Elsevier |
Peer Reviewed | Peer Reviewed |
Volume | 301 |
Article Number | 113932 |
DOI | https://doi.org/10.1016/j.rse.2023.113932 |
Keywords | Earth observation; Artificial intelligence; Rivers; CubeSats; Hydrology; Neural networks |
Public URL | https://nottingham-repository.worktribe.com/output/28151190 |
Publisher URL | https://www.sciencedirect.com/science/article/pii/S0034425723004844?via%3Dihub |
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AI approach to operationalise global daily PlanetScope satellite imagery
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Publisher Licence URL
https://creativecommons.org/licenses/by-nc/4.0/
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