基于深度学习的遥感图像建筑物检测语义分割技术

Miral Patel, Hasmukh P. Koringa
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引用次数: 0

摘要

从遥感图像中提取建筑物是指从高分辨率航空或卫星图像中自动识别和提取建筑物边界的过程。提取的建筑物足迹可用于多种应用,如城市规划、灾害管理、城市发展、土地管理、环境监测和三维建模。从遥感图像中提取建筑物的结果取决于多个因素,如图像的质量和分辨率以及算法的选择。从遥感图像中提取建筑物可能具有挑战性,因为建筑物的大小和形状、阴影和遮挡物等因素各不相同。然而,深度学习和计算机视觉技术的最新进展大大提高了建筑物提取方法的准确性和效率。本研究提出了一种基于深度学习语义分割架构的模型,用于开发高分辨率遥感图像中的建筑物检测。开源的马萨诸塞州数据集用于训练建议的 UNet 架构。使用 RMSProp 算法对模型进行优化,学习率为 0.0001,历时 100 次。在 Google Colab 上训练 1.52 小时后,该模型获得了 83.55% 的 F1 分数,这表明该模型具有很高的精确度和召回率。
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Deep Learning based Semantic Segmentation for Buildings Detection from Remote Sensing Images
Building extraction from remote sensing images is the process of automatically identifying and extracting the boundaries of buildings from high-resolution aerial or satellite images. The extracted building footprints can be used for a variety of applications, such as urban planning, disaster management, city development, land management, environmental monitoring, and 3D modeling. The results of building extraction from remote sensing images depend on several factors, such as the quality and resolution of the image and the choice of algorithm.The process of building extraction from remote sensing images typically involves a series of steps, including image pre-processing, feature extraction, and classification. Building extraction from remote sensing images can be challenging due to factors such as varying building sizes and shapes, shadows, and occlusions. However, recent advances in deep learning and computer vision techniques have led to significant improvements in the accuracy and efficiency of building extraction methods. This research presents a deep learning semantic segmentation architecture-based model for developing building detection from high resolution remote sensing images. The open-source Massachusetts dataset is used to train the suggested UNet architecture. The model is optimized using the RMSProp algorithm with a learning rate of 0.0001 for 100 epochs. After 1.52 hours of training on Google Colab the model achieved an 83.55% F1 score, which indicates strong precision and recall.
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来源期刊
International Journal of Next-Generation Computing
International Journal of Next-Generation Computing COMPUTER SCIENCE, THEORY & METHODS-
自引率
66.70%
发文量
60
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