Abstract
Brain-computer interfaces (BCIs) can serve as muscle independent communication aids. Persons, who are unable to control their eye muscles (e.g., in the completely locked-in state) or have severe visual impairments for other reasons, need BCI systems that do not rely on the visual modality. For this reason, BCIs that employ auditory stimuli were suggested. In this study, a multiclass BCI spelling system was implemented that uses animal voices with directional cues to code rows and columns of a letter matrix. To reveal possible training effects with the system, 11 healthy participants performed spelling tasks on 2 consecutive days. In a second step, the system was tested by a participant with amyotrophic lateral sclerosis (ALS) in two sessions. In the first session, healthy participants spelled with an average accuracy of 76% (3.29 bits/min) that increased to 90% (4.23 bits/min) on the second day. Spelling accuracy by the participant with ALS was 20% in the first and 47% in the second session. The results indicate a strong training effect for both the healthy participants and the participant with ALS. While healthy participants reached high accuracies in the first session and second session, accuracies for the participant with ALS were not sufficient for satisfactory communication in both sessions. More training sessions might be needed to improve spelling accuracies. The study demonstrated the feasibility of the auditory BCI with healthy users and stresses the importance of training with auditory multiclass BCIs, especially for potential end-users of BCI with disease.
Highlights
One of the main goals in the development of brain computer interfaces (BCIs) is the implementation of devices that can serve as communication aids for severely paralyzed persons Most common Brain-computer interfaces (BCIs) rely on visual stimulation and the patient’s ability to control eye movements (Birbaumer and Cohen, 2007)
Since auditory information processing is not affected in persons with amyotrophic lateral sclerosis (ALS) (Murguialday et al, 2011) auditory BCI systems could be the key to communication in complete locked-in syndrome (CLIS)
Several studies implemented paradigms based on eventrelated potentials (ERPs) that allow for binary communication (Hill et al, 2004, 2005; Halder et al, 2010; Hill and Schoelkopf, 2012; Lopez-Gordo et al, 2012)
Summary
One of the main goals in the development of brain computer interfaces (BCIs) is the implementation of devices that can serve as communication aids for severely paralyzed persons Most common BCIs rely on visual stimulation and the patient’s ability to control eye movements (Birbaumer and Cohen, 2007). Neurological disorders, such as stroke or traumatic brain injury, and neurodegenerative diseases, such as amyotrophic lateral sclerosis (ALS), can lead to a complete locked-in syndrome (CLIS). While tests with healthy participants yielded satisfactory results, a spelling solution based on a binary choice paradigm would be slow and these paradigms have not been tested with target end users (Halder et al, 2010)
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