DeepFlood for Inundated Vegetation High-Resolution Dataset for Accurate Flood Mapping and Segmentation.

IF 6.9 2区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES Scientific Data Pub Date : 2025-02-15 DOI:10.1038/s41597-025-04554-3

Mulham Fawakherji, Jeffrey Blay, Matilda Anokye, Leila Hashemi-Beni, Jennifer Dorton

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Abstract

Rapid and accurate assessment of flood extent is important for effective disaster response, mitigation planning, and resource allocation. Traditional flood mapping methods encounter challenges in scalability and transferability. However, the emergence of deep learning, particularly convolutional neural networks (CNNs), revolutionizes flood mapping by autonomously learning intricate spatial patterns and semantic features directly from raw data. DeepFlood is introduced to address the essential requirement for high-quality training datasets. This is a novel dataset comprising high-resolution manned and unmanned aerial imagery and Synthetic Aperture Radar (SAR) imagery, enriched with detailed labels including inundated vegetation, one of the most challenging areas for flood mapping. DeepFlood enables multi-modal flood mapping approaches and mitigates limitations in existing datasets by providing comprehensive annotations and diverse landscape coverage. We evaluate several semantic segmentation architectures on DeepFlood, demonstrating its usability and efficacy in post-disaster flood mapping scenarios.

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深度洪水淹没植被高分辨率数据集用于精确的洪水映射和分割。

快速准确地评估洪水范围对于有效的灾害响应、减灾规划和资源分配非常重要。传统的洪水测绘方法在可扩展性和可转移性方面面临挑战。然而，深度学习，尤其是卷积神经网络（CNN）的出现，通过直接从原始数据中自主学习复杂的空间模式和语义特征，彻底改变了洪水测绘方法。引入 DeepFlood 就是为了满足对高质量训练数据集的基本要求。这是一个新颖的数据集，由高分辨率的有人和无人航空图像以及合成孔径雷达（SAR）图像组成，并添加了详细的标签，包括淹没植被，这是洪水测绘最具挑战性的领域之一。DeepFlood 可实现多模式洪水测绘方法，并通过提供全面的注释和多样化的景观覆盖范围来缓解现有数据集的局限性。我们在 DeepFlood 上评估了几种语义分割架构，证明了它在灾后洪水测绘场景中的可用性和有效性。

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来源期刊

Scientific Data Social Sciences-Education

CiteScore

11.20

自引率

4.10%

发文量

689

审稿时长

16 weeks

期刊介绍： Scientific Data is an open-access journal focused on data, publishing descriptions of research datasets and articles on data sharing across natural sciences, medicine, engineering, and social sciences. Its goal is to enhance the sharing and reuse of scientific data, encourage broader data sharing, and acknowledge those who share their data. The journal primarily publishes Data Descriptors, which offer detailed descriptions of research datasets, including data collection methods and technical analyses validating data quality. These descriptors aim to facilitate data reuse rather than testing hypotheses or presenting new interpretations, methods, or in-depth analyses.