... | @@ -11,6 +11,10 @@ The potentially useful results produced by simBCI are classification accuracies |
... | @@ -11,6 +11,10 @@ The potentially useful results produced by simBCI are classification accuracies |
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The target audience of simBCI are advanced students, researchers, teachers and engineers interested in obtaining a deeper understanding of the operation of BCI models and signal processing techniques.
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The target audience of simBCI are advanced students, researchers, teachers and engineers interested in obtaining a deeper understanding of the operation of BCI models and signal processing techniques.
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# Disclaimer
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The simBCI framework was developed in the scope of a collaborative research project between Inria and IMT-Atlantique (ex. Telecom Bretagne), France. The development was funded by the CominLabs LABEX project SABRE.
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# Requirements
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# Requirements
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simBCI currently requires Matlab.
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simBCI currently requires Matlab.
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... | @@ -57,13 +61,27 @@ You can obtain the latest simBCI archive and example leadfields from [here](http |
... | @@ -57,13 +61,27 @@ You can obtain the latest simBCI archive and example leadfields from [here](http |
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Note that simBCI examples require a leadfield model to work. A separate models archive contains some example leadfields that were kindly provided by the CERL lab of IMT-Atlantique.
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Note that simBCI examples require a leadfield model to work. A separate models archive contains some example leadfields that were kindly provided by the CERL lab of IMT-Atlantique.
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# Credits
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# Authors
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Jussi T. Lindgren / Inria - Design, architecture, components, development
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Adrien Merlini / IMT - Components, fixes, experiments, testing
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Axelle Pillain / IMT - Inverse methods and leadfields
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Lyes Rahmouni / IMT - Leadfields
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John-Erick Guzman / IMT - Some components for Edelman/He pipeline
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The framework was originally developed in the scope of a collaborative research project between Inria and IMT-Atlantique (ex. Telecom Bretagne), France. The development was funded by the CominLabs LABEX project SABRE.
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The SABRE project was coordinated by
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Anatole Lecuyer / Inria - BCI
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Matthieu Arzel / IMT - Electronics
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Francesco Andriulli / IMT - Computational electromagnetics, SABRE project coordination
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# Contact
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# Contact
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simBCI is open source and provided as-is. We hope the framework benefits the EEG/BCI community. We currently have no resources to provide support or answer questions from the general public. For other queries, academics or industrials can find some author contacts [here](http://openvibe.inria.fr/contact/). Contributions to the framework are welcome.
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simBCI is open source and provided as-is. We hope the framework benefits the EEG/BCI community. We currently have no resources to provide support or answer questions from the general public. For other queries, academics or industrials, please contact
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![mail-jussi](/uploads/6207adda4fb9350a215000e645572773/mail-jussi.png)
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Contributions to the framework are welcome.
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Enjoy the simulated experiments!
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Enjoy the simulated experiments!
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