May 24, 2022 · A shorter calibration scheme was proposed for a lower-limb MI based BCI for controlling an exoskeleton. Each subject participated in 5 experimental sessions.

A shorter calibration scheme was proposed for a lower-limb MI based BCI for controlling an exoskeleton. Each subject participated in 5 experimental sessions.

A shorter calibration scheme was proposed for a lower-limb MI based BCI for controlling an exoskeleton. Each subject participated in 5 experimental sessions.

A shorter calibration scheme was proposed for a lower-limb MI based BCI for controlling an exoskeleton. Each subject participated in 5 experimental sessions.

Brain-computer interface enhanced by virtual reality training for controlling a lower limb exoskeleton. · Brain-machine interface based on transfer-learning for ...

Inter-session Transfer Learning in MI Based BCI for Controlling a Lower-Limb Exoskeleton. ... Study of the Functional Brain Connectivity and Lower-Limb ...

This study proposes a novel approach for decoding MI during pedalling tasks using EEG signals that combines a preprocessing pipeline based on filter banks ...

Inter-session Transfer Learning in MI Based BCI for Controlling a Lower-Limb Exoskeleton. ... Decoding the torque of lower limb joints from EEG recordings ...

Ferrero, Inter-session transfer learning in MI based BCI for controlling a lower-limb exoskeleton, с. 243; He, Transfer learning for brain-computer ...

This study explores the use of a brain-computer interface (BCI) based on motor imagery (MI) for the control of a lower limb exoskeleton to aid in motor ...