Exploiting Task Constraints for Self-Calibrated Brain-Machine Interface Control Using Error-Related Potentials.

Exploiting Task Constraints for Self-Calibrated Brain-Machine Interface Control Using Error-Related Potentials.

This paper presents a new approach for self-calibration BCI for reaching tasks using error-related potentials. The proposed method exploits task constraints to simultaneously calibrate the decoder and control the device, by using a robust likelihood function and an ad-hoc planner to cope with the la...

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Main Authors: Iñaki Iturrate, Jonathan Grizou, Jason Omedes, Pierre-Yves Oudeyer, Manuel Lopes, Luis Montesano
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2015-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4488878?pdf=render
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spelling doaj-6754486857c843e7a63fcadc746fe6ee2020-11-24T21:27:22ZengPublic Library of Science (PLoS)PLoS ONE1932-62032015-01-01107e013149110.1371/journal.pone.0131491Exploiting Task Constraints for Self-Calibrated Brain-Machine Interface Control Using Error-Related Potentials.Iñaki IturrateJonathan GrizouJason OmedesPierre-Yves OudeyerManuel LopesLuis MontesanoThis paper presents a new approach for self-calibration BCI for reaching tasks using error-related potentials. The proposed method exploits task constraints to simultaneously calibrate the decoder and control the device, by using a robust likelihood function and an ad-hoc planner to cope with the large uncertainty resulting from the unknown task and decoder. The method has been evaluated in closed-loop online experiments with 8 users using a previously proposed BCI protocol for reaching tasks over a grid. The results show that it is possible to have a usable BCI control from the beginning of the experiment without any prior calibration. Furthermore, comparisons with simulations and previous results obtained using standard calibration hint that both the quality of recorded signals and the performance of the system were comparable to those obtained with a standard calibration approach.http://europepmc.org/articles/PMC4488878?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Iñaki Iturrate
Jonathan Grizou
Jason Omedes
Pierre-Yves Oudeyer
Manuel Lopes
Luis Montesano
spellingShingle Iñaki Iturrate
Jonathan Grizou
Jason Omedes
Pierre-Yves Oudeyer
Manuel Lopes
Luis Montesano
Exploiting Task Constraints for Self-Calibrated Brain-Machine Interface Control Using Error-Related Potentials.
PLoS ONE
author_facet Iñaki Iturrate
Jonathan Grizou
Jason Omedes
Pierre-Yves Oudeyer
Manuel Lopes
Luis Montesano
author_sort Iñaki Iturrate
title Exploiting Task Constraints for Self-Calibrated Brain-Machine Interface Control Using Error-Related Potentials.
title_short Exploiting Task Constraints for Self-Calibrated Brain-Machine Interface Control Using Error-Related Potentials.
title_full Exploiting Task Constraints for Self-Calibrated Brain-Machine Interface Control Using Error-Related Potentials.
title_fullStr Exploiting Task Constraints for Self-Calibrated Brain-Machine Interface Control Using Error-Related Potentials.
title_full_unstemmed Exploiting Task Constraints for Self-Calibrated Brain-Machine Interface Control Using Error-Related Potentials.
title_sort exploiting task constraints for self-calibrated brain-machine interface control using error-related potentials.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2015-01-01
description This paper presents a new approach for self-calibration BCI for reaching tasks using error-related potentials. The proposed method exploits task constraints to simultaneously calibrate the decoder and control the device, by using a robust likelihood function and an ad-hoc planner to cope with the large uncertainty resulting from the unknown task and decoder. The method has been evaluated in closed-loop online experiments with 8 users using a previously proposed BCI protocol for reaching tasks over a grid. The results show that it is possible to have a usable BCI control from the beginning of the experiment without any prior calibration. Furthermore, comparisons with simulations and previous results obtained using standard calibration hint that both the quality of recorded signals and the performance of the system were comparable to those obtained with a standard calibration approach.
url http://europepmc.org/articles/PMC4488878?pdf=render
work_keys_str_mv AT inakiiturrate exploitingtaskconstraintsforselfcalibratedbrainmachineinterfacecontrolusingerrorrelatedpotentials
AT jonathangrizou exploitingtaskconstraintsforselfcalibratedbrainmachineinterfacecontrolusingerrorrelatedpotentials
AT jasonomedes exploitingtaskconstraintsforselfcalibratedbrainmachineinterfacecontrolusingerrorrelatedpotentials
AT pierreyvesoudeyer exploitingtaskconstraintsforselfcalibratedbrainmachineinterfacecontrolusingerrorrelatedpotentials
AT manuellopes exploitingtaskconstraintsforselfcalibratedbrainmachineinterfacecontrolusingerrorrelatedpotentials
AT luismontesano exploitingtaskconstraintsforselfcalibratedbrainmachineinterfacecontrolusingerrorrelatedpotentials
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