Monte Carlo dropout for uncertainty estimation and motor imagery classification
Artículo de revista
2021-10-30
Corporación Universidad de la Costa
Motor Imagery (MI)-based Brain–Computer Interfaces (BCIs) have been widely used as an alternative communication channel to patients with severe motor disabilities, achieving high classification accuracy through machine learning techniques. Recently, deep learning techniques have spotlighted the state-of-the-art of MI-based BCIs. These techniques still lack strategies to quantify predictive uncertainty and may produce overconfident predictions. In this work, methods to enhance the performance of existing MI-based BCIs are proposed in order to obtain a more reliable system for real application scenarios. First, the Monte Carlo dropout (MCD) method is proposed on MI deep neural models to improve classification and provide uncertainty estimation. This approach was implemented using Shallow Convolutional Neural Network (SCNN-MCD) and with an ensemble model (E-SCNN-MCD). As another contribution, to discriminate MI task predictions of high uncertainty, a threshold approach is introduced and tested for both SCNN-MCD and E-SCNN-MCD approaches. The BCI Competition IV Databases 2a and 2b were used to evaluate the proposed methods for both subject-specific and non-subject-specific strategies, obtaining encouraging results for MI recognition.
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Monte Carlo Dropout for Uncertainty Estimation and Motor Imagery Classification.pdf
Título: Monte Carlo Dropout for Uncertainty Estimation and Motor Imagery Classification.pdf
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Título: Monte Carlo Dropout for Uncertainty Estimation and Motor Imagery Classification.pdf
Tamaño: 5.672Mb
PDFLEER EN FLIP
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