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1. Detecting Cracks and Spalling Automatically in Extreme Events by End-to-end Deep Learning Frameworks

   https://doi.org/https://doi.org/10.5194/isprs-annals-V-2-2021-161-2021  

   Bai M., Sezen H. (January 2021, ISPRS Annals of Photogrammetry and Remote Sensing Spatial Information Science, XXIV ISPRS Congress, International Society for Photogrammetry and Remote Sensing)

   In this paper, we develop and implement end-to-end deep learning approaches to automatically detect two important types of structural failures, cracks and spalling, of buildings and bridges in extreme events such as major earthquakes. A total of 2,229 images were annotated, and are used to train and validate three newly developed Mask Regional Convolutional Neural Networks (Mask R-CNNs). In addition, three sets of public images for different disasters were used to test the accuracy of these models. For detecting and marking these two types of structural failures, one of proposed methods can achieve an accuracy of 67.6% and 81.1%, respectively, on low- and high-resolution images collected from field investigations. The results demonstrate that it is feasible to use the proposed end-to-end method for automatically locating and segmenting the damage using 2D images which can help human experts in cases of disasters. 

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2. Probabilistic simulation of tornado-like loading on a low-rise building based on laboratory testing

   Wu, Xinyang; Zuo, Delong (August 2023, 16th International Conference on Wind Engineering)

   Tornadoes can cause severe damage to buildings, but it is difficult to measure tornado loading on structures due to limitation of equipment. To enable investigations of tornado effects on buildings, this paper presents a method that can be used to numerically simulate nonstationary, non-Gaussian tornado-like loading based on laboratory testing. An illustrative application shows that the proposed method can successfully simulate tornado-like loading that is statistically similar to the loading measured in experiments. 

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3. Combined speckle- and propagation-based single shot two-dimensional phase retrieval method

   https://doi.org/10.1364/OE.531269  

   Leong, Andrew_F_T; Hodge, Daniel_S; Kurzer-Ogul, Kelin; Marchesini, Stefano; Pandolfi, Silvia; Liu, Yanwei; Barber, John_L; Li, Kenan; Sakdinawat, Anne; Galtier, Eric_C; et al (December 2024, Optics Express)

   Single-shot two-dimensional (2D) phase retrieval (PR) can recover the phase shift distribution within an object from a single 2D x-ray phase contrast image (XPCI). Two competing XPCI imaging modalities often used for single-shot 2D PR to recover material properties critical for predictive performance capabilities are: speckle-based (SP-XPCI) and propagation-based (PB-XPCI) XPCI imaging. However, PR from SP-XPCI and PB-XPCI images are, respectively, limited to reconstructing accurately slowly and rapidly varying features due to noise and differences in their contrast mechanisms. Herein, we consider a combined speckle- and propagation-based XPCI (SPB-XPCI) image by introducing a mask to generate a reference pattern and imaging in the near-to-holographic regime to induce intensity modulations in the image. We develop a single-shot 2D PR method for SPB-XPCI images of pure phase objects without imposing restrictions such as object support constraints. It is compared against PR methods inspired by those developed for SP-XPCI and PB-XPCI on simulated and experimental images of a thin glass shell before and during shockwave compression. Reconstructed phase maps show improvements in quantitative scores of root-mean-square error and structural similarity index measure using our proposed method. 

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4. End-to-end Deep Learning Methods for Automated Damage Detection in Extreme Events at Various Scales

   https://doi.org/10.1109/ICPR48806.2021.9413041  

   Bai, Yongsheng; Sezen, Halil; Yilmaz, Alper (January 2021, 25th International Conference on Pattern Recognition (ICPR))

   Robust Mask R-CNN (Mask Regional Convolutional Neural Network) methods are proposed and tested for automatic detection of cracks on structures or their components that may be damaged during extreme events, such as earthquakes. We curated a new dataset with 2,021 labeled images for training and validation and aimed to find end-to-end deep neural networks for crack detection in the field. With data augmentation and parameters fine-tuning, Path Aggregation Network (PANet) with spatial attention mechanisms and High- resolution Network (HRNet) are introduced into Mask R-CNNs. The tests on three public datasets with low- or high-resolution images demonstrate that the proposed methods can achieve a big improvement over alternative networks, so the proposed method may be sufficient for crack detection for a variety of scales in real applications. 

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5. Geometry-Aware Eye Image-To-Image Translation

   https://doi.org/10.1145/3517031.3532524  

   Lu, Conny; Zhang, Qian; Krishnakumar, Kapil; Chen, Jixu; Fuchs, Henry; Talathi, Sachin; Liu, Kun (June 2022, Proceedings of ETRA '22: 2022 Symposium on Eye Tracking Research and Applications)

   Recently, image-to-image translation (I2I) has met with great success in computer vision, but few works have paid attention to the geometric changes that occur during translation. The geometric changes are necessary to reduce the geometric gap between domains at the cost of breaking correspondence between translated images and original ground truth. We propose a novel geometry-aware semi-supervised method to preserve this correspondence while still allowing geometric changes. The proposed method takes a synthetic image-mask pair as input and produces a corresponding real pair. We also utilize an objective function to ensure consistent geometric movement of the image and mask through the translation. Extensive experiments illustrate that our method yields a 11.23% higher mean Intersection-Over-Union than the current methods on the downstream eye segmentation task. The generated image has a 15.9% decrease in Frechet Inception Distance indicating higher image quality. 

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