Titlebook: Imaging Systems for GI Endoscopy, and Graphs in Biomedical Image Analysis; First MICCAI Worksho Luigi Manfredi,Seyed-Ahmad Ahmadi,Emanuele

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Imaging Systems for GI Endoscopy, and Graphs in Biomedical Image AnalysisFirst MICCAI Worksho

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BUDGE

Criss-Cross Attention Based Multi-level Fusion Network for Gastric Intestinal Metaplasia Segmentatiooscopic images. Our network is composed of two sub-networks including criss-cross attention based feature fusion encoder and feature activation map guided multi-level decoder. The former one learns representative deep features by imposing attention on features of multiple receptive fields. The latte

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Colonoscopy Landmark Detection Using Vision Transformersf colon structures. A significant amount of the clinician’s time is spent in post-processing snapshots taken during the colonoscopy procedure, for maintaining medical records or further investigation. Automating this step can save time and improve the efficiency of the process. In our work, we have

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Real-Time Lumen Detection for?Autonomous Colonoscopying and tracking the lumen so far have been made using optical flow and shape-from-shading techniques. In general, these methods are computationally expensive, and most are either not real-time nor tested on real devices. To this end, we present a deep learning-based approach for lumen localisation

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Estimating the Coverage in 3D Reconstructions of the Colon from Colonoscopy Videos visual coverage of the colon surface during the procedure often results in missed polyps. To mitigate this issue, reconstructing the 3D surfaces of the colon in order to visualize the missing regions has been proposed. However, robustly estimating the local and global coverage from such a reconstru

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Modular Graph Encoding and Hierarchical Readout for Functional Brain Network Based eMCI Diagnosisrmality and perform diagnosis of brain diseases, such as early mild cognitive impairment (eMCI), i.e., with Graph Convolutional Network (GCN). However, there are at least two issues with GCN-based diagnosis methods, i.e., (1) over-smoothed representation of nodal features after using general convolu

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Bayesian Filtered Generation of Post-surgical Brain Connectomes on Tumor Patients to obtain minimally coherent predictions, these methods require large datasets that are rarely available in sensitive settings such as brain tumors. Because of this, the problem of plasticity reorganization after tumor resection has been largely neglected in the machine learning community despite h

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