BPN: Building Pointer Network for Satellite Imagery Building Contour Extraction

Xiaodong Ma;Lingjie Zhu;Yuzhou Liu;Zexiao Xie;Xiang Gao;Shuhan Shen
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Abstract

Extracting structured building contours from satellite imagery plays an important role in many geospatial tasks. However, it still remains a challenge due to the high cost of manual labeling, and models trained on simple polygons show poor generalization on buildings with more complex shapes. To deal with this, we propose a novel neural network called building pointer network (BPN) in this letter, which builds upon a recurrent neural network (RNN) architecture that integrates visual and geometric signals with an input-focused attention mechanism, making it more general for various shape complexity. Given an RGB satellite image, the model first uses a convolutional neural network (CNN) to obtain the set of key points for each building. Then, the coordinates of the key points and their image features are fused and fed into the RNN which ultimately predicts the index of the building corners sequentially. Results show that our method has good generalization ability for building data with complex shapes, provided that a dataset with relatively simple shapes is used as the training set.
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