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Depth2Elevation: Scale Modulation With Depth Anything Model for Single-View Remote Sensing Image Height Estimation

遥感 比例(比率) 计算机科学 地质学 大地测量学 图像(数学) 人工智能 计算机视觉 地理 地图学
作者
Zhongcheng Hong,Tong Wu,Zhiyuan Xu,Wufan Zhao
出处
期刊:IEEE Transactions on Geoscience and Remote Sensing [Institute of Electrical and Electronics Engineers]
卷期号:63: 1-14 被引量:2
标识
DOI:10.1109/tgrs.2025.3564820
摘要

Accurate terrain elevation estimation from remote sensing data is essential for a multitude of geographic applications. Specifically, image-based elevation estimation has garnered growing attention due to advancements in optical sensor development and automated analysis algorithms, such as machine learning. In this context, deep learning methods, including Convolutional Neural Networks (CNNs) and Vision Transformers (ViTs), have recently enhanced the feature extraction ability and estimation accuracy of this task. Despite the distinct advantages afforded by each architectural paradigm, current methods are frequently impeded in their ability to discern subtle height variations within complex scenes and are ill-equipped to effectively tackle the extraction of features across both large and small scales. Although vision foundation models have shown significant advances in remote sensing analysis, their effectiveness for height estimation remains unexplored. In this study, we introduce the foundation model in the field of elevation estimation and propose a novel Depth to Elevation (Depth2Elevation) model, marking the first application of the Depth Anything Model (DAM) to height estimation in remote sensing images. First, we introduce the scale modulator for modulating partial encoders in the original DAM, which enables DAM to capture subtle representations of localized objects at different scales. Secondly, we further enhance the model’s representational capability by using a resolution-agnostic decoder architecture, which enables DAM to learn features at different spatial scales efficiently. We conducted comprehensive experiments on several benchmark datasets. Compared to strong baselines, our method achieves an average relative improvement of at most 42% on the latest large-scale benchmark dataset GAMUS and shows the best generalization ability across different scenarios.
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