通过叠加自动编码器和聚类绘制地质图的遥感框架

IF 2.8 3区 地球科学 Q2 ASTRONOMY & ASTROPHYSICS Advances in Space Research Pub Date : 2024-09-11 DOI:10.1016/j.asr.2024.09.013
Sandeep Nagar , Ehsan Farahbakhsh , Joseph Awange , Rohitash Chandra
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引用次数: 0

摘要

通过遥感绘制地质图的有监督机器学习方法由于缺乏准确标注的训练数据而受到限制,而无监督学习(如降维和聚类)可以解决这一问题。降维方法有可能在提高地质图精度方面发挥关键作用。虽然传统的降维方法可能难以处理非线性数据,但无监督深度学习模型(如自动编码器)可以对非线性关系进行建模。堆叠自动编码器具有多个相互连接的层,可以捕捉对遥感数据有用的分层数据表示。我们提出了一种基于无监督机器学习的遥感数据处理框架,利用堆叠自动编码器进行降维,并利用均值聚类绘制地质单元图。我们使用 Landsat 8、ASTER 和 Sentinel-2 数据集评估了该框架在澳大利亚新南威尔士州西部 Mutawintji 地区的地质绘图效果。我们还将堆叠自编码器与主成分分析 (PCA) 和典型自编码器进行了比较。我们的研究结果表明,该框架能绘制出准确、可解释的地质图,并能有效区分岩石单元。结果显示,与其他组合相比,堆叠自动编码器与哨兵-2 数据的组合产生了最佳的性能精度。我们发现,与典型自动编码器和 PCA 相比,堆叠自动编码器能更好地提取输入数据的复杂和分层表示。我们还发现,生成的地图与研究区域先前的地质知识相一致,同时提供了对地质结构的新见解。
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Remote sensing framework for geological mapping via stacked autoencoders and clustering
Supervised machine learning methods for geological mapping via remote sensing face limitations due to the scarcity of accurately labelled training data that can be addressed by unsupervised learning, such as dimensionality reduction and clustering. Dimensionality reduction methods have the potential to play a crucial role in improving the accuracy of geological maps. Although conventional dimensionality reduction methods may struggle with nonlinear data, unsupervised deep learning models such as autoencoders can model non-linear relationships. Stacked autoencoders feature multiple interconnected layers to capture hierarchical data representations useful for remote sensing data. We present an unsupervised machine learning-based framework for processing remote sensing data using stacked autoencoders for dimensionality reduction and k-means clustering for mapping geological units. We use Landsat 8, ASTER, and Sentinel-2 datasets to evaluate the framework for geological mapping of the Mutawintji region in Western New South Wales, Australia. We also compare stacked autoencoders with principal component analysis (PCA) and canonical autoencoders. Our results reveal that the framework produces accurate and interpretable geological maps, efficiently discriminating rock units. The results reveal that the combination of stacked autoencoders with Sentinel-2 data yields the best performance accuracy when compared to other combinations. We find that stacked autoencoders enable better extraction of complex and hierarchical representation of the input data when compared to canonical autoencoders and PCA. We also find that the generated maps align with prior geological knowledge of the study area while providing novel insights into geological structures.
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来源期刊
Advances in Space Research
Advances in Space Research 地学天文-地球科学综合
CiteScore
5.20
自引率
11.50%
发文量
800
审稿时长
5.8 months
期刊介绍: The COSPAR publication Advances in Space Research (ASR) is an open journal covering all areas of space research including: space studies of the Earth''s surface, meteorology, climate, the Earth-Moon system, planets and small bodies of the solar system, upper atmospheres, ionospheres and magnetospheres of the Earth and planets including reference atmospheres, space plasmas in the solar system, astrophysics from space, materials sciences in space, fundamental physics in space, space debris, space weather, Earth observations of space phenomena, etc. NB: Please note that manuscripts related to life sciences as related to space are no more accepted for submission to Advances in Space Research. Such manuscripts should now be submitted to the new COSPAR Journal Life Sciences in Space Research (LSSR). All submissions are reviewed by two scientists in the field. COSPAR is an interdisciplinary scientific organization concerned with the progress of space research on an international scale. Operating under the rules of ICSU, COSPAR ignores political considerations and considers all questions solely from the scientific viewpoint.
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