| Name | Surname | Affiliation | Poster Title |
1 | Hassan | Aaya | International university of Casablanca | Title TBC |
2 | Jens | Agerberg | KTH Royal Institute of Technology | Learning with topological features in an adversarial setting |
3 | Rayna | Andreeva | University of Edinburgh | Machine learning and topological data analysis identify unique features of human papillae in 3D scans |
4 | James | Binnie | Cardiff University | A survey of dimension estimators for manifolds |
5 | Julian | Brueggemann | Max-Planck Institute for Mathematics, Bonn / University of Bonn | Discrete Morse Theory and Persistence |
6 | Marco | Campos | University of Houston | Evasion Paths in 3D Mobile Sensor Networks |
7 | Javier | Casado | Universidad Autónoma de Madrid | Reach of embeddings of metric spaces inside the persistence diagram space |
8 | Thomas | Chaplin | University of Oxford | Grounded persistent path homology: a stable, topological descriptor for weighted digraphs |
9 | Arnal | Charles | Inria, Universitat Paris-Saclay | A sampling theory for generic submanifolds |
10 | Gisela Daniela | Charo | Laboratoire des Science du Climat et de l'Environnement | Persistent generatexes: unveiling the dynamical paths in complex systems |
11 | Mauricio | Che Moguel | Durham University | Persistence diagrams, Alexandrov spaces and optimal partial transport |
12 | Tobias | Cheung | University of Edinburgh | Exploring Diffusion Models with Topology |
13 | Marzieh | Eidi | Max Planck Institute/SCaDS.AI Institute | Stochastic Process as the bridge between Topology and Geometry |
14 | Fatemeh | Fahimi Sheyjani | MPI-MiS / ScaDS.AI Dresden/Leipzig | Geometric Representation of Complex Data in Low Dimension |
15 | Alex | Fernandes | Ecole Normale Supérieure | Computation of gamma-linear projected barcodes for multiparameter persistence (joint work with Steve Oudot and François Petit) |
16 | Ximena | Fernandez | University of Oxford | Topological fingerprints for audio identification |
17 | Marc | Fersztand | University of Oxford | Stable invariants of persistence modules using Harder-Narasimhan filtrations |
18 | Ines | Garcia Redondo | Imperial College London | Multiparameter Persistence for Prostate Cancer Classification |
19 | Berat | Geven | Middle East Technical University | Delimiting the Support of the Betti Tables of Some Special Persistence Homology Modules |
20 | Vincent | Grande | RWTH Aachen University | Non-isotropic Persistent Homology: Leveraging the Metric Dependency of PH |
21 | Andrea | Guidolin | KTH Royal Institute of Technology | Koszul complexes and relative homological invariants of persistence modules |
22 | Niklas | Hellmer | Polish Academy of Sciences | Density Sensitive Bifiltered Dowker Complexes |
23 | David | Hien | TU Munich | Cycling Signatures: Identifying Cycling Motion from Data using Persistent Homology |
24 | Petar | Hristov | Linköping University | Classification of Reeb Space Neighbourhoods for Generic PL Maps |
25 | Iolo | Jones | Durham University | Diffusion Geometry |
26 | Thomas | Keany | University of Manchester | Vasculature Graph Repair: A Comprehensive Benchmark and Statistical Analysis of Gap Repair Methods in Whole Brain Vasculature Graphs |
27 | Peguy | Kem-Meka | African Institute for Mathematical Sciences | The Characterization of Climate Change in Selected African Countries using Topological Data Analysis |
28 | Alexandros | Keros | University of Edinburgh | Topological Methods for Learning to Steer Self-assembly of Nanoparticles |
29 | Prasad | Kothari | Head of AI - Blockchain for healthcare today, Ramanujan Machine Advisor | Geometric pattern recognition of Tumor Growth for Personalized Cancer Treatment (using Ricci Flow Model to control Tumor Growth) |
30 | Minh | Le | Ho Chi Minh City Open University | Persistent homology with k-nearest neighbor filtrations reveals topological convergence of Pageranks |
31 | Darrick | Lee | University of Oxford | Functorial Features for Functional Data |
32 | Fabian | Lenzen | TU Berlin | Cohomological methods in multi-parameter persistence |
33 | Jan-Paul | Lerch | Bielefeld University | Title TBC |
34 | Paul | Lezeau | LSGNT CDT (UCL, ICL, KCL) | Non-archimedean optimisation |
35 | Manuel | M Cuerno | CUNEF Universidad | Reassessing construal clusters with bipolar data: measuring similarities and TDA perspectives |
36 | Chitaranjan | Mahapatra | Indian Institute of Technology Bombay, India | Modulation of urinary bladder smooth muscle electrophysiology by morphology and network topology: A mathematical study |
37 | Shabani | Makwaru | University of Dar es Salaam, Tanzania | Path Signature and Convex Hull |
38 | Jakub | Malinowski | Dioscuri Centre in Topological Data Analysis | Predicting mechanical properties of porous materials using topological data analysis |
39 | Hugo | Maruri-Aguilar | Queen Mary, University of London | Betti penalisation of lasso |
40 | Jose Martin | Mijangos Tovar | National Autonomous University of Mexico, UNAM | Divergence measures over the set of persistence diagrams |
41 | Eloy | Mosig | Università di Pisa | Computing biparameter persistent matching distance via the Extended Pareto Grid |
42 | Abhinav | Natarajan | University of Oxford | Morse Theory for Chromatic Delaunay Triangulations |
43 | Tâm | Nguyên | EPFL | Clustering of Path Signatures in the Kuramoto Stochastic Block Model |
44 | Cihan | Okay | Bilkent University | Theory and applications of simplicial distributions |
45 | Adam | Onus | Queen Mary University of London | Local systems for periodic data |
46 | Javier | Perera-Lago | Universidad de Sevilla | Partial matchings for characterizing robot fleet behavior |
47 | Bastian | Rieck | Helmholtz Munich | Simplicial Representation Learning with Neural $k$-Forms |
48 | Henri | Riihimäki | Nordita / Stockholm University | Persistent Hochschild homology and reachability for quiver data |
49 | Emily | Roff | University of Edinburgh | The bigraded path homology of directed graphs |
50 | Pepijn | Roos Hoefgeest | KTH Stockholm | Persistent homology for dynamic data |
51 | Florian | Russold | Graz University of Technology | Graphcode: Learning from multiparameter persistent homology using graph neural networks |
52 | Antonio | Salgueiro | University of Coimbra | Applying ToMATo to the Traveling Salesman Problem |
53 | Ruben | Sanchez Garcia | University of Southampton | The persistent laplacian for data science: evaluating higher-order persistent spectral representations of data |
54 | Siddharth | Setlur | ETH Zurich/University of Edinburgh | Differentiability and Optimization of Multiparameter Persistent Homology |
55 | Yashbir | Singh | Mayo Clinic | Role of Topology uncertainty in medical imaging |
56 | Matthias | Soels | Graz University of Technology | The Localized Union-of-Balls Bifiltration |
57 | Daniel | Spitz | Max-Planck-Institute for Mathematics in the Sciences | Detecting the dynamics of topological defects with TDA |
58 | Victor | Toscano | Universidad de Sevilla | Representative measure approach to assess decision trees reliability |
59 | Michael Etienne | Van Huffel | Imperial College | QuPID: Discrete Transforms of Quantized Persistence Diagrams |
60 | Karthik | Viswanathan | University of Amsterdam | Zigzag persistence of protein sequences |
61 | Elena | Wang | Michigan State University | Persistence-Informed Convolutional Neural Networks |
62 | Arne | Wolf | Imperial College London | Spectral Stability of Persistent Laplacians |
63 | Tony Xiaochen | Xiao | Northeastern University | Extracting Sparse Eilenberg-MacLane Coordinates via Principal Bundles |
64 | Ambrose | Yim | Cardiff University | Selecting global cycles of Rips complexes on manifolds via universal covering |
65 | Markus Kirolos | Youssef | EPFL | Circular Patterns in High-Dimensional Gene Expression Data |
66 | Nicolò | Zava | Institute of Science and Technology Austria | Topological techniques to study the chromatin folding |
67 | Yifei | Zhu | Southern University of Science and Technology | Topology-enhanced machine learning for consonant recognition |
68 | Maksym | Zubkov | UC Berkeley | Geometry of Polynomial Neural Networks, Tensors, and Beyond (tentative) |
