The mind-writing pupil: A human-computer interface based on decoding of covert attention through pupillometry
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Publication date
2016-02-01
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Abstract
We present a new human-computer interface that is based on decoding of attention through pupillometry. Our method builds on the recent finding that covert visual attention affects the pupillary light response: Your pupil constricts when you covertly (without looking at it) attend to a bright, compared to a dark, stimulus. In our method, participants covertly attend to one of several letters with oscillating brightness. Pupil size reflects the brightness of the selected letter, which allows us-with high accuracy and in real time-to determine which letter the participant intends to select. The performance of our method is comparable to the best covertattention brain-computer interfaces to date, and has several advantages: no movement other than pupil-size change is required; no physical contact is required (i.e. no electrodes); it is easy to use; and it is reliable. Potential applications include: communication with totally locked-in patients, training of sustained attention, and ultra-secure password input.
Keywords
General Medicine, General Biochemistry,Genetics and Molecular Biology, General Agricultural and Biological Sciences
Citation
Mathôt, S, Melmi, J B, Van Der Linden, L & Van Der Stigchel, S 2016, 'The mind-writing pupil : A human-computer interface based on decoding of covert attention through pupillometry', PLoS One, vol. 11, no. 2, e0148805. https://doi.org/10.1371/journal.pone.0148805