Extending brain-computer interface access with a multilingual language model in the P300 speller

P. Loizidou; E. Rios; A. Marttini; O. Keluo-Udeke; J. Soetedjo; J. Belay; K. Perifanos; N. Pouratian; W. Speier

doi:10.1080/2326263X.2021.1993426

Extending brain-computer interface access with a multilingual language model in the P300 speller

P. Loizidou, E. Rios, A. Marttini, O. Keluo-Udeke, J. Soetedjo, J. Belay, K. Perifanos, N. Pouratian, W. Speier

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Brain-computer interfaces (BCI) such as the P300 speller have the potential to restore communication to advanced-stage neuromuscular disease patients. Research has improved typing speed and accuracy through innovations including the use of language models. While significant advances have been made, implementations have largely been restricted to a single language, primarily English. It is unclear whether these improvements would extend to other languages that present potential technical hurdles due to different alphabets and grammatical structures. Here, we adapt a language model-based classifier designed for English to two other languages, Spanish and Greek, to demonstrate the generalizability of these methods. Online experimental trials with 30 healthy native English, Spanish, and Greek speakers showed no significant difference between performances using the different versions of the system (66.20 vs. 61.97 vs. 60.89 bits/minute). Extending these methods across languages allows for expanding access to BCI systems to other populations, particularly in the developing world.

Original language	English (US)
Pages (from-to)	36-48
Number of pages	13
Journal	Brain-Computer Interfaces
Volume	9
Issue number	1
DOIs	https://doi.org/10.1080/2326263X.2021.1993426
State	Published - 2022
Externally published	Yes

Keywords

P300
amyotrophic lateral sclerosis
electroencephalography
healthcare access
language models

ASJC Scopus subject areas

Biomedical Engineering
Human-Computer Interaction
Behavioral Neuroscience
Electrical and Electronic Engineering

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10.1080/2326263X.2021.1993426

Cite this

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title = "Extending brain-computer interface access with a multilingual language model in the P300 speller",

abstract = "Brain-computer interfaces (BCI) such as the P300 speller have the potential to restore communication to advanced-stage neuromuscular disease patients. Research has improved typing speed and accuracy through innovations including the use of language models. While significant advances have been made, implementations have largely been restricted to a single language, primarily English. It is unclear whether these improvements would extend to other languages that present potential technical hurdles due to different alphabets and grammatical structures. Here, we adapt a language model-based classifier designed for English to two other languages, Spanish and Greek, to demonstrate the generalizability of these methods. Online experimental trials with 30 healthy native English, Spanish, and Greek speakers showed no significant difference between performances using the different versions of the system (66.20 vs. 61.97 vs. 60.89 bits/minute). Extending these methods across languages allows for expanding access to BCI systems to other populations, particularly in the developing world.",

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AU - Loizidou, P.

AU - Rios, E.

AU - Marttini, A.

AU - Keluo-Udeke, O.

AU - Soetedjo, J.

AU - Belay, J.

AU - Perifanos, K.

AU - Pouratian, N.

AU - Speier, W.

N1 - Funding Information: Part of this work was supported by the National Institute of Biomedical Imaging and Bioengineering Award Number K23EB014326 (NP). Publisher Copyright: © 2021 Informa UK Limited, trading as Taylor & Francis Group.

PY - 2022

Y1 - 2022

N2 - Brain-computer interfaces (BCI) such as the P300 speller have the potential to restore communication to advanced-stage neuromuscular disease patients. Research has improved typing speed and accuracy through innovations including the use of language models. While significant advances have been made, implementations have largely been restricted to a single language, primarily English. It is unclear whether these improvements would extend to other languages that present potential technical hurdles due to different alphabets and grammatical structures. Here, we adapt a language model-based classifier designed for English to two other languages, Spanish and Greek, to demonstrate the generalizability of these methods. Online experimental trials with 30 healthy native English, Spanish, and Greek speakers showed no significant difference between performances using the different versions of the system (66.20 vs. 61.97 vs. 60.89 bits/minute). Extending these methods across languages allows for expanding access to BCI systems to other populations, particularly in the developing world.

AB - Brain-computer interfaces (BCI) such as the P300 speller have the potential to restore communication to advanced-stage neuromuscular disease patients. Research has improved typing speed and accuracy through innovations including the use of language models. While significant advances have been made, implementations have largely been restricted to a single language, primarily English. It is unclear whether these improvements would extend to other languages that present potential technical hurdles due to different alphabets and grammatical structures. Here, we adapt a language model-based classifier designed for English to two other languages, Spanish and Greek, to demonstrate the generalizability of these methods. Online experimental trials with 30 healthy native English, Spanish, and Greek speakers showed no significant difference between performances using the different versions of the system (66.20 vs. 61.97 vs. 60.89 bits/minute). Extending these methods across languages allows for expanding access to BCI systems to other populations, particularly in the developing world.

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Extending brain-computer interface access with a multilingual language model in the P300 speller

Abstract

Keywords

ASJC Scopus subject areas

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