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Autore principale: Branislav Ceperkovic
Natura: Recurso digital
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Pubblicazione: Zenodo 2025
Accesso online:https://doi.org/10.5281/zenodo.17506760
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author Branislav Ceperkovic
author_facet Branislav Ceperkovic
contents <p><span>Self-supervised contrastive learning with </span><span>SimCLR enables 62.1% zero-shot classification accuracy on unseen subjects, significantly outperforming the classical CSP+SVM pipeline (58.3%) in a 9- fold leave-one-subject-out evaluation on the MOABB BNCI2014001 dataset. Paired t-test confirms statistical significance: </span><span>t</span><span>(8) = 6</span><span>.</span><span>12</span><span>, </span><span>p < </span><span>0</span><span>.</span><span>001</span><span>. This work demonstrates that self-supervised pretraining captures subject-invariant motor intention features, eliminating the need for per-user calibration and paving the way for practical, calibration-free BCIs.</span> </p>
format Recurso digital
id zenodo_https___doi_org_10_5281_zenodo_17506760
institution Zenodo
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publishDate 2025
publisher Zenodo
record_format zenodo
spellingShingle Zero-Shot Motor Imagery BCI via Self-Supervised Contrastive Learning
Branislav Ceperkovic
<p><span>Self-supervised contrastive learning with </span><span>SimCLR enables 62.1% zero-shot classification accuracy on unseen subjects, significantly outperforming the classical CSP+SVM pipeline (58.3%) in a 9- fold leave-one-subject-out evaluation on the MOABB BNCI2014001 dataset. Paired t-test confirms statistical significance: </span><span>t</span><span>(8) = 6</span><span>.</span><span>12</span><span>, </span><span>p < </span><span>0</span><span>.</span><span>001</span><span>. This work demonstrates that self-supervised pretraining captures subject-invariant motor intention features, eliminating the need for per-user calibration and paving the way for practical, calibration-free BCIs.</span> </p>
title Zero-Shot Motor Imagery BCI via Self-Supervised Contrastive Learning
url https://doi.org/10.5281/zenodo.17506760