0) Click on 'Edit' at the top of the page
1) Find your name on the table
2) On the column 'Presentation' next to your name click '+' (it's on the header with the editing tools) → 'Files and Images'→ 'Upload Files'
3) Select your presentation (pptx file) following the naming convention 'Name_FirstName.pptx'
4) After uploading, click on the uploaded file and select 'Show as link'
5) Click 'Save' at the bottom right of the page
| Topic | No | Title | Tutor | Student (Last name) | Presentation | Background Materials |
|---|---|---|---|---|---|---|
| Example | 0 | An example presentation | Introduction | |||
| Registration and reconstruction | 1 | GraphRegNet: Deep Graph Regularisation Networks on Sparse Keypoints for Dense Registration of 3D Lung CTs | Farid | Nicolas Peter | ||
| 2 | Image-to-Graph Convolutional Network for Deformable Shape Reconstruction from a Single Projection Image | Mahdi | Stella Dimitra | |||
| 3 | Pose2Mesh: Graph Convolutional Network for 3D Human Pose and Mesh Recovery from a 2D Human Pose | Lennart | Dominik | |||
| Interpretability | 4 | INTERPRETING GRAPH NEURAL NETWORKS FOR NLP WITH DIFFERENTIABLE EDGE MASKING | Yousef | Jingpei | ||
| 5 | Should Graph Convolution Trust Neighbors? A Simple Causal Inference Method | Ashkan | Armin | |||
| 6 | Disentangled Graph Convolutional Networks | Azade | Ahmed Alaaeldin Fathy Hanafy | |||
| General | 7 | Multi-label zero-shot learning with graph convolutional networks | Alaa | Mohamed Taieb | ||
| 8 | Learning Graph Convolutional Networks for Multi-Label Recognition and Applications | Mahsa | Simay | |||
| Medical - Brain | 9 | BrainGNN: Interpretable Brain Graph Neural Network for fMRI Analysis | Shahrooz | Amine | ||
| 10 | Attention-Guided Deep Graph Neural Network for Longitudinal Alzheimer’s Disease Analysis | Mathias | Sergei | |||
| 11 | A mutual multi-scale triplet graph convolutional network for classification of brain disorders using functional or structural connectivity | Shahrooz | Nicolas Robert Baptiste | |||
| 12 | Multi-Head GAGNN: A Multi-Head Guided Attention Graph Neural Network for Modeling Spatio-Temporal Patterns of Holistic Brain Functional Networks | Anees | Erekle | |||
| Medical - Segmentation and Classification | 13 | SGNET: Structure-Aware Graph-Based Networks for Airway Semantic Segmentation | Roger | Janik | ||
| 14 | Hybrid graph convolutional neural networks for landmark-based anatomical segmentation | Tariq | Farid | |||
| 15 | Early Detection of Liver Fibrosis Using Graph Convolutional Networks | Mahsa | Sener |