Abstract
Based on recent electroencephalography (EEG) and near-infrared spectroscopy (NIRS) studies that showed that tasks such as motor imagery and mental arithmetic induce specific neural response patterns, we propose a hybrid brain-computer interface (hBCI) paradigm in which EEG and NIRS data are fused to improve binary classification performance. We recorded simultaneous NIRS-EEG data from nine participants performing seven mental tasks (word generation, mental rotation, subtraction, singing and navigation, and motor and face imagery). Classifiers were trained for each possible pair of tasks using (1) EEG features alone, (2) NIRS features alone, and (3) EEG and NIRS features combined, to identify the best task pairs and assess the usefulness of a multimodal approach. The NIRS-EEG approach led to an average increase in peak kappa of 0.03 when using features extracted from one-second windows (equivalent to an increase of 1.5% in classification accuracy for balanced classes). The increase was much stronger (0.20, corresponding to an 10% accuracy increase) when focusing on time windows of high NIRS performance. The EEG and NIRS analyses further unveiled relevant brain regions and important feature types. This work provides a basis for future NIRS-EEG hBCI studies aiming to improve classification performance toward more efficient and flexible BCIs.
Highlights
A brain-computer interface (BCI) is a communication system between a brain and a computer that bypasses the normal brain output pathways [1]
Face imagery led to ERD patterns in the frontal and temporal lobes, as well as high α power in the occipital lobes
In the case where a near-infrared spectroscopy (NIRS)-EEG system is available for the implementation of the BCI, our results show that pairs based on Word Generation (WORD) and NAV might benefit the most from feature fusion
Summary
A brain-computer interface (BCI) is a communication system between a brain and a computer that bypasses the normal brain output pathways [1]. The most frequent patterns mentioned in the hBCI literature include event-related desynchronization/synchronization (ERD/ERS) elicited by motor imagery, the P300 event-related potential (ERP), and the steady-state visually evoked potential (SSVEP) [11]. Through their extensive use in the literature, these brain activity patterns have been shown to be highly recognizable when used in BCI designs; they may not be optimal for all BCI users. Users who have suffered a brain injury may lose
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