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International Journal of Remote Sensing Volume 44, 2023 - Issue 24
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Research article

XFIMNet: an Explainable deep learning architecture for versatile flood inundation mapping with synthetic aperture radar and multi-spectral optical images

Jacob Sandersona Department of Computer and Information Sciences, Northumbria University, Newcastle upon Tyne, UK
,
Naruephorn Tengtrairatb School of Software Engineering, Payap University, Chiang Mai, ThailandCorrespondence[email protected]
,
Wai Lok Wooa Department of Computer and Information Sciences, Northumbria University, Newcastle upon Tyne, UK
,
Hua Maoa Department of Computer and Information Sciences, Northumbria University, Newcastle upon Tyne, UK
&
Raid Rafi Al-Nimac Technical Engineering College, Northern Technical University, Mosul, Nineveh Governorate, Iraq
Pages 7755-7789 | Received 18 Jun 2023, Accepted 17 Nov 2023, Published online: 19 Dec 2023
 
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ABSTRACT

Floods are among the most dangerous natural disasters, and their frequency and severity are rapidly increasing due to climate change. Flood inundation mapping is critical for better understanding which areas are prone to flooding and identifying emerging floods. Recently, deep learning algorithms have been developed to improve the accuracy and timeliness of the production of these maps. In this study a new architecture, named Explainable Flood Inundation Mapping Network (XFIMNet) is presented, which is an explainable deep learning segmentation model for producing flood inundation maps from both synthetic aperture radar (SAR) and multi-spectral optical images. Comparative analysis with state-of-the-art (SOTA) models is performed, where the versatility of the model is demonstrated, in that it achieves superior performance across both image types, while the SOTA models are less consistent. The models are further evaluated with only the red, green, and blue (RGB) bands of the Sentinel-2 images, demonstrating that the full 13-band image is the superior choice for training a deep learning model. XFIMNet achieves an Intersection Over Union (IOU) of 0.59 with SAR images, 0.7 with optical, and 0.47 with the RGB bands, outperforming each of the SOTA models, as well as providing the most detailed and accurate visual segmentation mask, with minimal increase in the computation time for training or inference. The findings of this study highlight that XFIMNet is not only able to provide the most accurate segmentation mask but also prioritizes the most appropriate features when making decisions across both image types.

Disclosure statement

No potential conflict of interest was reported by the authors.

Data availability statement

The data used in this study is available on reasonable request from the corresponding author.

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