Spatial Adaptation Layer: Interpretable Domain Adaptation For Biosignal Sensor Array Applications

• URL: http://arxiv.org/abs/2409.08058v1
• Date: Thu, 12 Sep 2024 14:06:12 GMT
• Title: Spatial Adaptation Layer: Interpretable Domain Adaptation For Biosignal Sensor Array Applications
• Authors: Joao Pereira, Michael Alummoottil, Dimitrios Halatsis, Dario Farina,
• Abstract summary: Biosignal acquisition is key for healthcare applications and wearable devices. Existing solutions often require large and expensive datasets and/or lack robustness and interpretability. We propose the Spatial Adaptation Layer (SAL), which can be prepended to any biosignal array model. We also introduce learnable baseline normalization (LBN) to reduce baseline fluctuations.
• Score: 0.7499722271664147
• License: http://creativecommons.org/licenses/by-sa/4.0/
• Abstract: Biosignal acquisition is key for healthcare applications and wearable devices, with machine learning offering promising methods for processing signals like surface electromyography (sEMG) and electroencephalography (EEG). Despite high within-session performance, intersession performance is hindered by electrode shift, a known issue across modalities. Existing solutions often require large and expensive datasets and/or lack robustness and interpretability. Thus, we propose the Spatial Adaptation Layer (SAL), which can be prepended to any biosignal array model and learns a parametrized affine transformation at the input between two recording sessions. We also introduce learnable baseline normalization (LBN) to reduce baseline fluctuations. Tested on two HD-sEMG gesture recognition datasets, SAL and LBN outperform standard fine-tuning on regular arrays, achieving competitive performance even with a logistic regressor, with orders of magnitude less, physically interpretable parameters. Our ablation study shows that forearm circumferential translations account for the majority of performance improvements, in line with sEMG physiological expectations.

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