Deep learning of Sentinel-1 SAR for burnt peatland detection in Ireland

Geosystems and Geoenvironment Pub Date : 2024-11-01 DOI:10.1016/j.geogeo.2024.100321

Omid Memarian Sorkhabi

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Abstract

Peatlands represent vital carbon reserves; however, once ignited, they release stored carbon, inflicting lasting environmental harm and necessitating prolonged recovery periods. An innovative method merging Sentinel-1 satellite imagery and deep learning (DL) is proposed to monitor burnt peat across diverse regions of Ireland, regardless of weather conditions or time of day. Sentinel-2 images and field measurements were used to train deep neural networks (DNN) and the accuracy in detecting burnt peat areas reached 80 %. This was achieved by combining the VV (vertical transmit, vertical receive) and VH (vertical transmit, horizontal receive) from Sentinel-1. Time-series analysis of Sentinel-1 VV backscatter change for Wicklow Mountains in 2018 highlights the Sentinel-1's capacity to detect various phenomena, including snowfall and burnt peat, evident prior to the peat fire event. Furthermore, an examination of peat fire occurrences in Wicklow Mountains from 2018 to 2023 through time series and mapping shows a significant escalation, with the largest burnt areas detected in 2023 spanning over 40 km².

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对哨兵-1合成孔径雷达进行深度学习以探测爱尔兰烧毁的泥炭地

泥炭地是重要的碳储备；然而，泥炭地一旦被点燃，就会释放出储存的碳，对环境造成持久的危害，并需要较长的恢复期。本文提出了一种融合哨兵-1 卫星图像和深度学习（DL）的创新方法，用于监测爱尔兰不同地区烧毁泥炭的情况，而不受天气条件或时间的影响。哨兵-2 图像和实地测量结果被用于训练深度神经网络（DNN），检测烧毁泥炭区域的准确率达到 80%。这是通过将哨兵-1 的 VV（垂直发射，垂直接收）和 VH（垂直发射，水平接收）相结合实现的。对 2018 年威克洛山脉哨兵-1 VV 后向散射变化的时间序列分析突出表明，哨兵-1 有能力探测泥炭火灾事件发生前的各种现象，包括降雪和烧毁的泥炭。此外，通过时间序列和绘图对威克洛山脉 2018 年至 2023 年泥炭火灾发生情况的研究表明，泥炭火灾发生率显著上升，2023 年检测到的最大烧毁面积超过 40 平方公里。

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来源期刊

Geosystems and Geoenvironment

CiteScore

4.70

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0.00%

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