EDAPT: Towards Calibration-Free BCIs with Continual Online Adaptation
EDAPT: Towards Calibration-Free BCIs with Continual Online Adaptation
Brain-computer interfaces (BCIs) suffer from accuracy degradation as neural signals drift over time and vary across users, requiring frequent recalibration that limits practical deployment. We introduce EDAPT, a task- and model-agnostic framework that eliminates calibration through continual model adaptation. EDAPT first trains a baseline decoder using data from multiple users, then continually personalizes this model via supervised finetuning as the neural patterns evolve during use. We tested EDAPT across nine datasets covering three BCI tasks, and found that it consistently improved accuracy over conventional, static methods. These improvements primarily stem from combining population-level pretraining and online continual finetuning, with unsupervised domain adaptation providing further gains on some datasets. EDAPT runs efficiently, updating models within 200 milliseconds on consumer-grade hardware. Finally, decoding accuracy scales with total data budget rather than its allocation between subjects and trials. EDAPT provides a practical pathway toward calibration-free BCIs, reducing a major barrier to BCI deployment.
Lisa Haxel、Jaivardhan Kapoor、Ulf Ziemann、Jakob H. Macke
计算技术、计算机技术
Lisa Haxel,Jaivardhan Kapoor,Ulf Ziemann,Jakob H. Macke.EDAPT: Towards Calibration-Free BCIs with Continual Online Adaptation[EB/OL].(2025-08-14)[2025-08-24].https://arxiv.org/abs/2508.10474.点此复制
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