| # | Authors | Title | Details | Date | Pdf/Links/Bibtex | Keywords |
|---|---|---|---|---|---|---|
| 4 | Ahmed T., Biecek P. Longo L. | Latent Space Interpretation and Mechanistic Clipping of Subject-Specific Variational Autoencoders of EEG Topographic Maps for Artefacts Reduction | eXplainable Artificial Intelligence, The World Conference (xAI-2025) | 2025 |   
@InProceedings{AhmedLongo2025, author="Ahmed, Taufique and Biecek, Przemyslaw and Longo, Luca", editor="Guidotti, Riccardo and Schmid, Ute and Longo, Luca", title="Latent Space Interpretation and Mechanistic Clipping of Subject-Specific Variational Autoencoders of EEG Topographic Maps for Artefacts Reduction", booktitle="Explainable Artificial Intelligence", year="2026", publisher="Springer Nature Switzerland", address="Cham", pages="327--350", isbn="978-3-032-08327-2" } [Close]
| Electroencephalography •
Spectral topographic maps •
Subject-specific •
Variational autoencoder •
Latent space •
interpretability •
Artefacts removal •
Deep learning •
full automation •
explainable AI |
| 3 | Ahmed T., Longo L. | Latent Space Interpretation and Visualisation for Understanding the Decisions of Convolutional Variational Autoencoders Trained with EEG Topographic Maps | Joint Proceedings of the xAI-2023 Late-breaking Work, Demos and Doctoral Consortium co-located with the 1st World Conference on eXplainable Artificial Intelligence (xAI-2023) | 2023 | 
@inproceedings{AhmedLongo2023, author = {Ahmed, Taufique and Longo, Luca}, title = {Latent Space Interpretation and Visualisation for Understanding the Decisions of Convolutional Variational Autoencoders Trained with EEG Topographic Maps}, booktitle = {Joint Proceedings of the xAI-2023 Late-breaking Work, Demos and Doctoral Consortium, co-located with the 1st World Conference on eXplainable Artificial Intelligence (xAI-2023)}, year = {2023}, pages={65--70}, publisher={CEUR Workshop Proceedings} } [Close]
| Electroencephalography • Convolutional variational autoencoders • latent space interpretation • deep learning • spectral topographic maps • Machine Learning |
| 2 | Ahmed T., Longo L. | Interpreting Disentangled Representations of Person-Specific Convolutional Variational Autoencoders of Spatially Preserving EEG Topographic Maps via Clustering and Visual Plausibility | Information | 2023 |
@Article{infoLongo2023, AUTHOR = {Ahmed, Taufique and Longo, Luca}, TITLE = {Interpreting Disentangled Representations of Person-Specific Convolutional Variational Autoencoders of Spatially Preserving EEG Topographic Maps via Clustering and Visual Plausibility}, JOURNAL = {Information}, VOLUME = {14}, YEAR = {2023}, NUMBER = {9}, ARTICLE-NUMBER = {489}, URL = {https://www.mdpi.com/2078-2489/14/9/489}, ISSN = {2078-2489}, DOI = {10.3390/info14090489} } [Close]
| electroencephalography • convolutional variational autoencoder • latent space interpretation • deep learning • spectral topographic maps |
| 1 | Ahmed T., Longo L. | Examining the Size of the Latent Space of Convolutional Variational Autoencoders Trained With Spectral Topographic Maps of EEG Frequency Bands | IEEE Access | 2022 |
@ARTICLE{AhmedLongo2022, author={Ahmed, Taufique and Longo, Luca}, journal={IEEE Access}, title={Examining the Size of the Latent Space of Convolutional Variational Autoencoders Trained With Spectral Topographic Maps of EEG Frequency Bands}, year={2022}, volume={10}, number={}, pages={107575-107586}, doi={10.1109/ACCESS.2022.3212777} } [Close]
| Electroencephalography •
convolutional variational autoencoder • latent space • deep learning • frequency bands • spectral topographic maps • neural networks |
| # | Authors | Title | Details | Date | Pdf/Links/Bibtex | Keywords |