Abstract
Accurate assessment of building damage is very important for disaster response and rescue. Traditional damage detection techniques using 2D features at a single observing angle cannot objectively and accurately reflect the structural damage conditions. With the development of unmanned aerial vehicle photogrammetric techniques and 3D point processing, automatic and accurate damage detection for building roof and facade has become a research hotspot in recent work. In this paper, we propose a building damage detection framework based on the boundary refined supervoxel segmentation and random forest–latent Dirichlet allocation classification. First, the traditional supervoxel segmentation method is improved to segment the point clouds into good boundary refined supervoxels. Then, non-building points such as ground and vegetation are removed from the generated supervoxels. Next, latent Dirichlet allocation (LDA) model is used to construct the high-level feature representation for each building supervoxel based on the selected 2D image and 3D point features. Finally, LDA model and random forest algorithm are employed to identify the damaged building regions. This method is applied to oblique photogrammetric point clouds collected from the Beichuan Country Earthquake Site. The research achieves the 3D damage assessment for building facade and roof. The result demonstrates that the proposed framework is capable of achieving around 94% accuracy for building point extraction and around 90% accuracy for damage identification. Moreover, both of the precision and recall for building damage detection reached around 89%. Concluded from comparison analysis, the proposed method improved the damage detection accuracy and the highest improvement ratio is over 8%.
Highlights
It is crucial to conduct the accurate assessment of structural damage to buildings after disaster events
Concluded from comparison analysis, the proposed method improved the damage detection accuracy and the highest improvement ratio is over 8%
We proposed a building damage detection method based on oblique photogrammetric point clouds using supervoxel segmentation and a latent Dirichelet allocation model
Summary
It is crucial to conduct the accurate assessment of structural damage to buildings after disaster events. (2) Considering the detection accuracy of structural building damage cannot be assured when detection is merely based on a single view, we combined 2D and 3D features together using the LDA model in this study. The LDA model generalizes these point-based features and builds the representation of high-level features This new approach provides a systematic view on the efficient and autonomous processing of rooftop and facade features into useful structural damage information. (3) In view of the difficulty in replicating the approach, we provided a general and accurate realization framework combining building point extraction with building damage detection Such a methodology improves damage-detection accuracy and can be replicated in fine building damage assessment
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