Abstract
In this study, a brain-computer interface (BCI) framework for hybrid functional near-infrared spectroscopy (fNIRS) and electroencephalography (EEG) for locked-in syndrome (LIS) patients is investigated. Brain tasks, channel selection methods, and feature extraction and classification algorithms available in the literature are reviewed. First, we categorize various types of patients with cognitive and motor impairments to assess the suitability of BCI for each of them. The prefrontal cortex is identified as a suitable brain region for imaging. Second, the brain activity that contributes to the generation of hemodynamic signals is reviewed. Mental arithmetic and word formation tasks are found to be suitable for use with LIS patients. Third, since a specific targeted brain region is needed for BCI, methods for determining the region of interest are reviewed. The combination of a bundled-optode configuration and threshold-integrated vector phase analysis turns out to be a promising solution. Fourth, the usable fNIRS features and EEG features are reviewed. For hybrid BCI, a combination of the signal peak and mean fNIRS signals and the highest band powers of EEG signals is promising. For classification, linear discriminant analysis has been most widely used. However, further research on vector phase analysis as a classifier for multiple commands is desirable. Overall, proper brain region identification and proper selection of features will improve classification accuracy. In conclusion, five future research issues are identified, and a new BCI scheme, including brain therapy for LIS patients and using the framework of hybrid fNIRS-EEG BCI, is provided.
Highlights
The primary function of a brain-computer interface (BCI) is to provide a means of communication for patients with the real world
We have reviewed recent work on functional nearinfrared spectroscopy and hybrid fNIRS-EEG studies for brain-computer interfaces (BCI)
The focus was on finding the brain activity patterns, channel selection criteria, feature extraction schemes, and classification algorithms that are most suitable for locked-in patients
Summary
The primary function of a brain-computer interface (BCI) is to provide a means of communication for patients with the real world. Hybridization (e.g., EEG or EMG in addition to EMG) can be used to increase the number of commands available These patients may not be able to control most of their motor functions, but can perform very minor but detectable eye movements. Prefrontal cortex signals are the cognitive activity patterns that are most suitable for LIS patients, as no motor task is involved These signals may be generated by simple calculation or imagination tasks, and can be used in an fNIRS-based BCI. Since the primary objective of a BCI is to form a communication pathway for motor-disabled people, it is a problem that only limited numbers of patients can perform this task Both EEG and fNIRS are good options for detection motor imagery. This may give an overall idea of the possibilities for the selection of an activity for patients to perform
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