English

SCOPE: Structured Prototype-Guided Adaptation for EEG Foundation Models with Limited Labels

Machine Learning 2026-05-12 v3

Abstract

Electroencephalography (EEG) foundation models (EFMs) have shown strong potential for transferable representation learning, yet their adaptation in realistic settings remains challenging when only a few labeled subjects are available. We show that this challenge stems from a structural mismatch between noisy, limited supervision and the highly plastic parameter space of EFMs, reflected in three key failure modes: overconfident miscalibration, prediction collapse, and representation drift caused by unconstrained parameter updates. To address these challenges, we propose SCOPE, a Structured COnfidence-aware Prototype-guided framework for label-limited EFM adaptation. SCOPE first constructs cohort-level external supervision to provide persistent guidance and further derives confidence-aware pseudo-labels to select reliable unlabeled samples for adaptation. Building on the constructed external supervision, SCOPE introduces ProAdapter, a lightweight prototype-conditioned adapter that modulates frozen EFMs to preserve pretrained representations. Experiments across 50 label-limited adaptation settings, covering 6 EEG tasks, 5 EFM backbones, and 5%-50% training labeled-subject ratios, show that SCOPE consistently achieves strong performance and efficiency.

Keywords

Cite

@article{arxiv.2602.17251,
  title  = {SCOPE: Structured Prototype-Guided Adaptation for EEG Foundation Models with Limited Labels},
  author = {Jingying Ma and Feng Wu and Yucheng Xing and Qika Lin and Tianyu Liu and Chenyu Liu and Ziyu Jia and Mengling Feng},
  journal= {arXiv preprint arXiv:2602.17251},
  year   = {2026}
}
R2 v1 2026-07-01T10:42:44.234Z