Alpha neurofeedback training improves SSVEP-based BCI performance

Objective. Steady-state visual evoked potential (SSVEP)-based brain-computer interfaces (BCIs) can provide relatively easy, reliable and high speed communication. However, the performance is still not satisfactory, especially in some users who are not able to generate strong enough SSVEP signals. This work aims to strengthen a user's SSVEP by alpha down-regulating neurofeedback training (NFT) and consequently improve the performance of the user in using SSVEP-based BCIs. Approach. An experiment with two steps was designed and conducted. The first step was to investigate the relationship between the resting alpha activity and the SSVEP-based BCI performance, in order to determine the training parameter for the NFT. Then in the second step, half of the subjects with 'low' performance (i.e. BCI classification accuracy

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Alpha neurofeedback training improves SSVEP-based BCI performance

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Engineering Hydrogel-coated Neural Interfaces for Chronic Deep Brain Recording

Gyrokinetic simulations of turbulence and zonal flows driven by steep profile gradients using a delta-f approach with an evolving background Maxwellian

Does powder averaging remove dispersion bias in diffusion MRI diameter estimates within real 3D axonal architectures?

Does powder averaging remove dispersion bias in diffusion MRI diameter estimates within real 3D axonal architectures?

Engineering Hydrogel-coated Neural Interfaces for Chronic Deep Brain Recording

Gyrokinetic simulations of turbulence and zonal flows driven by steep profile gradients using a delta-f approach with an evolving background Maxwellian