<italic>OA-WinSeg:</italic> Occlusion-Aware Window Segmentation With Conditional Adversarial Training Guided by Structural Prior Information

<italic>OA-WinSeg:</italic> Occlusion-Aware Window Segmentation With Conditional Adversarial Training Guided by Structural Prior Information

Window segmentation and vectorization remains a significant challenge, particularly in the absence of clean facade images. To extract complete window segments from building fa&#x00E7;ade images with occlusions, this article proposes an occlusion-aware window segmentation <italic>(OA-WinSeg...

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Bibliographic Details
Main Authors: Manuela F. Ceron-Viveros, Wolfgang Maass, Jiaojiao Tian
Format: Article
Language:English
Published: IEEE 2025-01-01
Series:IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing
Subjects:
Attention model
deep learning
façade images
inpainting
occlusions
window segmentation
Online Access:https://ieeexplore.ieee.org/document/10923720/
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Summary:Window segmentation and vectorization remains a significant challenge, particularly in the absence of clean facade images. To extract complete window segments from building fa&#x00E7;ade images with occlusions, this article proposes an occlusion-aware window segmentation <italic>(OA-WinSeg)</italic> network with conditional adversarial training guided by prior structural information. This architecture combines the power of image segmentation and generative capabilities to handle occlusions. First, <italic>OA-WinSeg</italic> automatically detects occlusions and generates a rectangular boundary guidance from a coarse window segmentation, which incorporates structural information about the building layout into the process. Subsequently, the network refines the coarse segmentation and generates window segments in the missing regions by attending to contextual information of the nonoccluded parts of the fa&#x00E7;ade. Finally, our approach generates accurate vector representations, information needed for building modeling systems. Experimental results demonstrate the effectiveness of our model with simulated and occluded real-world datasets. In addition, we evaluate our model on various ablation studies to explore the contribution of the different modules. Finally, we have analyzed the potential applications of the proposed segmentation network and the completed window segments, including building fa&#x00E7;ade inpainting.
ISSN:1939-1404
2151-1535

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