计算机科学
残余物
人工智能
光辉
特征(语言学)
计算机视觉
卫星
遥感
地形
人工神经网络
卫星图像
特征提取
深度学习
数字高程模型
领域(数学)
不可用
模式识别(心理学)
卷积神经网络
冗余(工程)
马尔可夫随机场
迭代重建
土地覆盖
不规则三角网
目标检测
作者
Haiyan Pan,Guolin Wu,Zhonghua Hong,Shijie Liu,Huan Xie,Yusheng Xu,Zhen Ye,Yuming Xiang,Xiaohua Tong
标识
DOI:10.1109/tgrs.2025.3636144
摘要
Digital Surface Models (DSMs) extracted from multi-view satellite images have extensive applications in the filed of photogrammetry. Although Neural Radiance Fields (NeRF) has shown significant potential in 3D reconstruction, most existing NeRF methods for satellite scenes adopt an end-to-end single-branch network structure, making it difficult to achieve fine-grained modeling of multiple complex terrain simultaneously, and performs poorly in weak-texture regions. Meanwhile, deep MLP structures are prone to information degradation during feature transmission, further affecting the completeness and accuracy of DSMs. To address these challenges, we propose RDS-NeRF, a novel NeRF framework integrating residual feature enhancement and depth supervision. The method introduces a residual feature enhancement structure to alleviate the problem of information degradation during feature transmission in the network and improve the model’s ability to model local details and low-texture regions. Additionally, estimated depth maps are incorporated as global geometric priors to guide the network in constructing more accurate and complete 3D structures. Experiments on the WorldView-3 satellite imagery datasets across multiple typical land cover types (building, road, water body, and vegetation) and complex scenes integrating multiple land features demonstrate that RDS-NeRF outperforms mainstream methods in terms of DSM accuracy, completeness, and novel view synthesis quality. Ablation experiments further validate the complementarity and effectiveness of the residual enhancement and depth supervision mechanisms across different scene types. In conclusion, RDS-NeRF provides a new and effective solution for generating high-quality DSMs from satellite imagery with adaptability to multiple scenes. Code will be available at https://github.com/dfsvdgf/RDS-NeRF.
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