Add to ORKGThe study presented explores the extent to which tactile stimuli delivered to the ten digits of a BCI-naive subject can serve as a platform for a brain computer interface (BCI) that could be used in an interactive application such as robotic vehicle operation. The ten fingertips are used to evoke somatosensory brain responses, thus defining a tactile brain computer interface (tBCI). Experimental results on subjects performing online (real-time) tBCI, using stimuli with a moderately fast inter-stimulus-interval (ISI), provide a validation of the tBCI prototype, while the feasibility of the concept is illuminated through information-transfer rates obtained through the case study
Computer Technology is advancing day by day and with that it has led to the idea of Brain Computer i...
International audienceMotor-Imagery based Brain Computer Interfaces (MI-BCIs) allow users to interac...
Brain-computer interfaces (BCIs) are tools for controlling computers and other devices without using...
Abstract. We study the extent to which contact–less and airborne ultrasonic tactile display (AUTD) s...
Brain Computer Interfaces (BCIs) rely on the user's brain activity to control equipment or computer ...
The paper presents results from a psychophysical study conducted to optimize vibrotactile stimuli de...
Controlling a device via a brain-computer interface (BCI) requires the participant to look and to sp...
Abstract. We aim at an augmentation of communication abilities of amyotrophic lateral sclerosis (ALS...
Motor-Imagery based Brain Computer Interfaces (MI-BCIs) allow users to interact with computers by im...
International audienceMotor-Imagery based Brain Computer Interfaces (MI-BCIs) allow users to interac...
Brain–machine interfaces1, 2 use neuronal activity recorded from the brain to establish direct commu...
AbstractBrain Computer Interfaces (BCI), is a modern technology which is currently revolutionizing t...
The vibro-tactile P300 based Brain-Computer Interface is an interesting tool for severe impaired pat...
We proposed a multi-class tactile brain-computer interface that utilizes stimulus-induced oscillator...
International audienceBrain-Computer Interfaces (BCI) allow users to interact with machines without ...
Computer Technology is advancing day by day and with that it has led to the idea of Brain Computer i...
International audienceMotor-Imagery based Brain Computer Interfaces (MI-BCIs) allow users to interac...
Brain-computer interfaces (BCIs) are tools for controlling computers and other devices without using...
Abstract. We study the extent to which contact–less and airborne ultrasonic tactile display (AUTD) s...
Brain Computer Interfaces (BCIs) rely on the user's brain activity to control equipment or computer ...
The paper presents results from a psychophysical study conducted to optimize vibrotactile stimuli de...
Controlling a device via a brain-computer interface (BCI) requires the participant to look and to sp...
Abstract. We aim at an augmentation of communication abilities of amyotrophic lateral sclerosis (ALS...
Motor-Imagery based Brain Computer Interfaces (MI-BCIs) allow users to interact with computers by im...
International audienceMotor-Imagery based Brain Computer Interfaces (MI-BCIs) allow users to interac...
Brain–machine interfaces1, 2 use neuronal activity recorded from the brain to establish direct commu...
AbstractBrain Computer Interfaces (BCI), is a modern technology which is currently revolutionizing t...
The vibro-tactile P300 based Brain-Computer Interface is an interesting tool for severe impaired pat...
We proposed a multi-class tactile brain-computer interface that utilizes stimulus-induced oscillator...
International audienceBrain-Computer Interfaces (BCI) allow users to interact with machines without ...
Computer Technology is advancing day by day and with that it has led to the idea of Brain Computer i...
International audienceMotor-Imagery based Brain Computer Interfaces (MI-BCIs) allow users to interac...
Brain-computer interfaces (BCIs) are tools for controlling computers and other devices without using...